Abstract 1887: Preclinical development of BB-1701, a HER2-tageting eribulin-containing ADC with potent bystander effect and ICD activity

Several HER2-targeting antibody-drug conjugates (ADC) have gained market approval for the treatment of HER2-expressing metastasis. However, these ADC drugs still face challenges of acquired resistance and/or severe adverse effects associate with their payload toxins. Eribulin, a market approval agent for the treatment of metastatic breast cancer and liposarcoma , is a new choice of ADC payload with distinct mechanism of action (MOA). Here we report preclinical studies of BB-1701, a novel HER2-tageting eribulin-containing ADC. BB-1701 exhibited potent and specific cytotoxicity activities to various types of cancer cells where HER2-exprssing levels vary in large ranges. BB-1701 induced tumor-growth suppression, even regression in in vivo models with a single dose of 1-5 mg/kg dosage. In comparison with other HER2-targeting ADCs with different toxin payloads (DM1, MMAE and Dxd), eribulin-containing ADC demonstrated higher potency to cancer cell lines with low HER2 expressing levels (with lower IC50). BB-1701 also showed effective tumor suppression in models insensitive to T-DM1 or T-Dxd. Mode of action studies revealed significant bystander cytotoxicity of BB-1701 to HER2-low cells when co-cultured with HER2-high cells. Additionally, BB-1701 treatment increased ATP releasing and Calreticulin expression, both were deemed immunogenic cell death (ICD) markers. Lastly, repeat dose pharmacokinetic and toxicology studies in nonhuman primates revealed favorable PK and safety profiles of BB-1701 in the clinical intend dosage route and schedule. In conclusion, these comprehensive preclinical data have strongly supported BB-1701 as a potent antitumor agent to cancers including HER2-low expressing and/or cancers insensitive to other HER2-targeting ADCs. A phase I clinical study of BB-1701 in those patients is ongoing.

Citation Format: Yang Wang, Bing Xia, Lixia Cao, Jianfeng Yang, Cui Feng, Fangdun Jiang, Chen Li, Lixia Gu, Yifan Yang, Jing Tian, Cindy Cheng, Keiji Furuuchi, James Fulmer, Arielle Verdi, Katherine Rybinski, Allis Soto, Earl Albone, Toshimitsu Uenaka, Likun Gong, Tingting Liu, Qiuping Qin, Ziping Wei, Yuhong Zhou. Preclinical development of BB-1701, a HER2-tageting eribulin-containing ADC with potent bystander effect and ICD activity [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2023; Part 1 (Regular and Invited Abstracts); 2023 Apr 14-19; Orlando, FL. Philadelphia (PA): AACR; Cancer Res 2023;83(7_Suppl):Abstract nr 1887.

Prevalence of and risk factors for depressive symptoms in non-tuberculous mycobacterial pulmonary disease

BACKGROUND: The presence of depressive symptoms in patients with non-tuberculous mycobacterial pulmonary disease (NTM-PD) is an important research topic; however, the prevalence of depressive symptoms and the factors that influence their development are unclear.OBJECTIVE: To analyse the association between CES-D (Center for Epidemiological Studies Depression Scale) scores and clinical parameters such as age, disease duration, pulmonary function, imaging findings, blood data, physical functions, sleep disturbances, respiratory symptoms and health-related quality of life (HRQOL).METHODS: We conducted a cross-sectional retrospective study of 114 patients with NTM-PD at a single centre from March 2016 to January 2021 to evaluate the relationship between CES-D scores and clinical parameters.RESULTS: Participants had a median age of 64 years; 32.5% of them had depressive symptoms. Disease duration, albumin, C-reactive protein, pulmonary function, dyspnoea, exercise capacity, respiratory symptoms, cough-related HRQOL and sleep disturbances were associated with depressive symptoms. Binomial logistic regression analyses indicated that the CES-D score was significantly associated with cough-related HRQOL and sleep disturbances.CONCLUSION: A high percentage of NTM-PD patients in this study experienced depressive symptoms, and these patients had abnormalities of various clinical parameters. Cough-related HRQOL and sleep disturbance had a strong influence on the development of depressive symptoms.

Abstract P5-08-02: MORAb-202, an antibody-drug-conjugate (ADC) targeting folate receptor alpha (FRα), exhibits durable anti-tumor efficacy in PDx models of TNBC

Background MORAb-202 is an ADC consisting of a FRα-targeting antibody (farletuzumab) paired with a cathepsin B-cleavable linker and an eribulin payload. FRα is overexpressed in various solid tumors including TNBC where 30-40% are enriched for FRα expression. MORAb-202 is currently in phase 1 clinical trials in patients with advanced solid tumors expressing FRα including ovarian cancer, endometrial cancer, TNBC and NSCLC. Methods In vitro characterization of MORAb-202 was conducted against over 60 various cancer cell lines expressing various level of FRα. In vitro co-culture system was also developed to evaluate bystander effect of MORAb-202. The anti-tumor activity of MORAb-202 at single dose (5 mg/kg) by comparison with eribulin (3.2 mg/kg as 32x molarity of eribulin in MORAb-202 at 5 mg/kg) was evaluated in TNBC PDx models established from primary and metastatic tumors, with different levels of FRα expression. Target engagement and bystander effect of MORAb-202 in the tumor microenvironment (TME) were also evaluated by IHC/IF methods. Dose dependent anti-tumor activity and the PK/PD profile of the single administration of MORAb-202 were examined in a human cancer CDx model (NCI-H2110). Soluble FRα (sFRα) is one of PD biomarker candidates measured in this model. The toxicology study of MORAb-202 was conducted in cynomolgus monkey. Results MORAb-202 showed cytotoxicity to FRα-positive cells in vitro, with limited off-target killing of FRα-negative cells. There was linear correlation observed between IC50 of MORAb-202 and MFI of FRα, while no relationship between IC50 of eribulin and MFI of FRα. More importantly, MORAb-202 showed 100x potent in vitro bystander cytotoxic effect in co-culture with FRα-positive/negative cells. Next, In vivo antitumor efficacy studies of MORAb-202 in TNBC PDx models exhibited durable activity proportional to tumor FRα expression. Single treatment of MORAb-202 showed long-lasting anti-tumor activity on TNBC PDx models superior to a group treated with eribulin. No body weight loss was observed in a group of MORAb-202, while transient body weight loss (~10%) was observed in the eribulin group. IHC/IF studies in tumors collected post treatment of MORAb-202 revealed that target engagement of MORAb-202 and its bystander effect on the TME could account for the anti-tumor activity in the models. PK/PD & anti-tumor activity of single administration of MORAb-202 (5 dose levels) were examined in human cancer CDx models (NCI-H2110). PK profiles of intact and total MORAb-202 were comparable. PD profile were assessed using sFRα, a potential biomarker candidate for clinic. In this model, spike of the sFRα was observed at 1 to 2 days post MORAb-202 treatment and returned to baseline levels by Day 4 post treatment. In cynomolgus monkeys, the AUC after the 2nd treatment of MORAb-202 on Day 22 was almost similar with that after the 1st treatment on Day 1. Elimination half-life T1/2 of MORAb-202 in plasma was nearly 5 days, supporting Q3W schedule in human clinical trials. The major toxicity observed with MORAb-202 treatment was hematologic toxicity. Conclusion These findings suggest MORAb-202 may be a promising ADC for TNBC and warrants further clinical investigation in this setting.

Citation Format: Keiji Furuuchi, Katherine Rybinski, James Fulmer, Tomoyuki Moriyama, Brian Drozdowski, Allis Soto, Shawn Fernando, Kerrianne Wilson, Andrew Milinichik, Mary Lou Dula, Keigo Tanaka, Xin Cheng, Earl Albone, Toshimitsu Uenaka. MORAb-202, an antibody-drug-conjugate (ADC) targeting folate receptor alpha (FRα), exhibits durable anti-tumor efficacy in PDx models of TNBC [abstract]. In: Proceedings of the 2021 San Antonio Breast Cancer Symposium; 2021 Dec 7-10; San Antonio, TX. Philadelphia (PA): AACR; Cancer Res 2022;82(4 Suppl):Abstract nr P5-08-02.

Folate receptor α increases chemotherapy resistance through stabilizing MDM2 in cooperation with PHB2 that is overcome by MORAb-202 in gastric cancer

BACKGROUND

The main function of folate receptor α (FOLRα) has been considered to mediate intracellular folate uptake and induce tumor cell proliferation. Given the broad spectrum of expression among malignant tumors, including gastric cancer (GC) but not in normal tissue, FOLRα represents an attractive target for tumor-selective drug delivery. However, the efficacy of anti-FOLRα monoclonal antibodies (mAbs) has not been proved so far, with the reason for this failure remaining unclear, raising the need for a better understanding of FOLRα function.

METHODS

The distribution of FOLRα in GC cells was evaluated by immunohistochemistry. The impacts of FOLRα expression on the survival of GC patients and GC cell lines were examined with the Gene Expression Omnibus database and by siRNA of FOLRα. RNA-sequencing and Microarray analysis was conducted to identify the function of FOLRα. Proteins that interact with FOLRα were identified with shotgun LC-MS/MS. The antitumor efficacy of the anti-FOLRα mAb farletuzumab as well as the antibody-drug conjugate (ADC) consists of the farletuzumab and the tublin-depolymerizing agent eribulin (MORAb-202) was evaluated both in vitro and in vivo.

RESULTS

FOLRα was detected both at the cell membrane and in the cytoplasm. Shorter overall survival was associated with FOLRα expression in GC patients, whereas reduction of FOLRα attenuated cell proliferation without inducing cell death in GC cell lines. Transcriptomic and proteomic examinations revealed that the FOLRα-expressing cancer cells possess a mechanism of chemotherapy resistance supported by MDM2, and FOLRα indirectly regulates it through a chaperone protein prohibitin2 (PHB2). Although reduction of FOLRα brought about vulnerability for oxaliplatin by diminishing MDM2 expression, farletuzumab did not suppress the MDM2-mediated chemoresistance and cell proliferation in GC cells. On the other hand, MORAb-202 showed significant antitumor efficacy.

CONCLUSIONS

The ADC could be a more reasonable choice than mAb as a targeting agent for the FOLRα-expressing tumor.

Health-related quality of life associates with clinical parameters in patients with NTM pulmonary disease

BACKGROUND: Previous studies have shown a reduction in health-related quality of life (HRQoL) in patients with non-tuberculous mycobacterial pulmonary disease (NTM-PD). However, the causes of this decline and the factors that contribute to it are unknown. This study was conducted to analyse the association between the St George´s Respiratory Questionnaire (SGRQ) and clinical parameters, including age, disease duration, body composition, pulmonary function, chest X-ray findings, blood data and physical function.METHODS: We performed a single-centre, cross-sectional, retrospective study of 101 patients with NTM-PD from December 2016 to October 2019. The relationship between the SGRQ scores and clinical parameters was evaluated.RESULTS: The median patient age was 67.0 years. Pulmonary function, radiological score, albumin levels, C-reactive protein levels and incremental shuttle walk test distance (ISWD) were significantly correlated with the total and component scores on the SGRQ. Multiple regression analysis showed that the SGRQ score was significantly associated with radiological score, pulmonary function and ISWD.CONCLUSION: This study was the first to assess the effect of clinical parameters on the SGRQ in patients with NTM-PD. HRQoL as determined using the SGRQ was associated with the radiological score, pulmonary function and ISWD in patients with NTM-PD.

Antibody-drug conjugate MORAb-202 exhibits long-lasting antitumor efficacy in TNBC PDx models

The antibody‐drug conjugate (ADC) MORAb‐202, consisting of farletuzumab paired with a cathepsin B–cleavable linker and eribulin, targets folate receptor alpha (FRA), which is frequently overexpressed in various tumor types. MORAb‐202 was highly cytotoxic to FRA‐positive cells in vitro, with limited off‐target killing of FRA‐negative cells. Furthermore, MORAb‐202 showed a clear in vitro bystander cytotoxic effect in coculture with FRA‐positive/negative cells. In vivo antitumor efficacy studies of MORAb‐202 were conducted with a single administration of MORAb‐202 in triple‐negative breast cancer (TNBC) patient–derived xenograft (PDx) models expressing low and high levels of FRA. MORAb‐202 exhibited durable efficacy proportional to tumor FRA expression. Toxicology studies (Q3Wx2) in nonhuman primates suggested that the major observed toxicity of MORAb‐202 is hematologic toxicity. Overall, these findings support the concept that MORAb‐202 represents a promising investigational ADC for the treatment of TNBC patients.

First-in-Human Phase 1 Study of MORAb-202, an Antibody-Drug Conjugate Comprising Farletuzumab Linked to Eribulin Mesylate, in Patients with Folate Receptor-α-Positive Advanced Solid Tumors

PURPOSE

MORAb-202, an antibody-drug conjugate containing farletuzumab and eribulin with a cathepsin-B cleavable linker, targets folate receptor α (FRα)-expressing tumor cells. The primary objective of this first-in-human study was to evaluate the safety and tolerability of MORAb-202 in patients with solid tumors.

PATIENTS AND METHODS

Patients ≥20 years with adequate organ function and FRα-positive solid tumors who failed to respond to standard therapy were eligible. Patients received MORAb-202 intravenously at doses of 0.3 to 1.2 mg/kg once every three weeks. Endpoints included dose-limiting toxicities, safety, tumor responses, pharmacokinetics, and pharmacodynamics.

TRIAL REGISTRATION NUMBER

NCT03386942 (ClinicalTrials.gov).

RESULTS

Between November 28, 2017 and June 4, 2019, 22 patients (median age, 58.0 years) with advanced solid tumors were enrolled. Treatment-emergent adverse events occurred in 21 (95%) patients, with leukopenia and neutropenia in 10 (45%) patients each. One patient (0.9 mg/kg cohort) experienced two grade 3 dose-limiting toxicities: serum alanine aminotransferase and γ-glutamyl transferase increases. Following review by an independent adjudication committee, grade 1/2 interstitial lung disease thought to be related to MORAb-202 was identified in five (23%) patients. Complete response, partial response, and stable disease were observed in one, nine, and eight patients, respectively. The normalized predose serum FRα tended to be positively correlated with the maximum tumor shrinkage (R ² = 0.2379; P = 0.0291).

CONCLUSIONS

The MTD of MORAb-202 was not reached. MORAb-202 demonstrated promising antitumor activity in FRα-positive solid tumors and was generally well-tolerated at the tested doses. Further investigations are required to establish appropriate dosage and clinical utility of MORAb-202.

MORAb-202, an Antibody-Drug Conjugate Utilizing Humanized Anti-human FRα Farletuzumab and the Microtubule-targeting Agent Eribulin, has Potent Antitumor Activity

Microtubule-targeting agents (MTA) have been investigated for many years as payloads for antibody-drug conjugates (ADC). In many cases, these ADCs have shown limited benefits due to lack of efficacy or significant toxicity, which has spurred continued investigation into novel MTA payloads for next-generation ADCs. In this study, we have developed ADCs using the MTA eribulin, a derivative of the macrocyclic polyether natural product halichondrin B, as a payload. Eribulin ADCs demonstrated in vitro potency and specificity using various linkers and two different conjugation approaches. MORAb-202 is an investigational agent that consists of the humanized anti-human folate receptor alpha (FRA) antibody farletuzumab conjugated via reduced interchain disulfide bonds to maleimido-PEG₂-valine-citrulline-p-aminobenzylcarbamyl-eribulin at a drug-to-antibody ratio of 4.0. MORAb-202 displayed preferable biophysical properties and broad potency across a number of FRA-positive tumor cell lines as well as demonstrated improved specificity in vitro compared with farletuzumab conjugated with a number of other MTA payloads, including MMAE, MMAF, and the reducible maytansine linker-payload sulfo-SPDB-DM4. A single-dose administration of MORAb-202 in FRA-positive human tumor cell line xenograft and patient-derived tumor xenograft models elicited a robust and durable antitumor response. These data support further investigation of MORAb-202 as a potential new treatment modality for FRA-positive cancers, using the novel MTA eribulin as a payload.

Abstract 1770: Morab-202, a folate receptor alpha-targeted antibody-drug conjugate, shows a highly potent activity against a panel of FRA-expressing tumors

Folate receptor alpha (FRA) is a membrane protein with high affinity for binding and transporting folate into cells. Overexpression of FRA may confer a growth advantage to tumors by increasing folate uptake and affecting cell proliferation via alternative cell signaling pathways (1). FRA levels have been found to be elevated in tumors of epithelial origin compared to normal tissue as cancers of the breast (including TNBC (2)), colon, lungs and ovary (3).

In this study, we report the development of MORAb-202, an anti-FRA antibody-drug conjugate (ADC), consisting of a FRA-binding antibody (MORAb-003, farletuzumab) with a cathepsin-cleavable form of eribulin (eribulin mesylate, marketed as Halaven®), a highly potent anti-mitotic agent that induces cell-cycle arrest and cell death by targeting microtubules.

We first study expression of FRA on a large panel of tumors patient-derived xenograft (PDX) and Cancer Cell Line-derived Xenograft (CDX). Then, we performed in vitro and in vivo anti-proliferation assays and compare antitumor activity of MORAb-202 with free eribulin accordingly to the FRA expression level. FRA expression was found to be determinant in the sensitivity of tumor cells to the cytotoxic effect of the ADC. Moreover, in case of high expression of FRA, MORAb-202 showed a higher antitumor activity compared with free eribulin.

These results suggest that FRA expression could be used as a response-predictive biomarker for this targeted therapy. The ability to identify and treat patients with an effective therapy based on the known expression of the tumor marker is a key point in predictive medicine progress. These findings support the clinical development of MORAb-202 ADC as a novel targeted therapy for patients with FRA-expressing tumors.

The ADC described in this abstract is investigational, as efficacy and safety have not been established. There is no guarantee that this ADC will be available commercially.

1-Siu MK et al., PLoS One. 2012;7(11) 2-Nacela BM. et al., PLoS One. 2015, 10(3) 3-Cheung A. et al., Oncotarget. 2016 7(32), 52553-52574 4-Arrowsmith J. & Miller P. 2011-2012. Nat. Rev. Drug Discov. 12, 569 (2013). 5-Paul S.M. et al. Nat. Rev. Drug Discov. 9, 203-214 (2010). 6-Hidalgo, M. et al. Cancer Discov. 4, 998-1013 (2014).

Citation Format: Caroline Mignard, Coralie DURIX, Katherine Rybinski, Xin Cheng, Keiji Furuuchi, Earl Albone, Toshimitsu Uenaka, Marc Hillairet de Boisferon. Morab-202, a folate receptor alpha-targeted antibody-drug conjugate, shows a highly potent activity against a panel of FRA-expressing tumors [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2018; 2018 Apr 14-18; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2018;78(13 Suppl):Abstract nr 1770.

Abstract 952: MORAb-202, a folate receptor-alpha (FRA)-targeting antibody-eribulin drug conjugate (ADC), exhibits durable antitumor activity and payload-mediated bystander effects on the tumor microenvironment in triple-negative breast cancer

MORAb-202 is an antibody drug conjugate (ADC) consisting of farletuzumab (humanized anti-FRA mAb) and eribulin (as a payload, which are conjugated via a cathepsin B-cleavable linker. FRA is highly over-expressed in a large number of cancers including triple negative breast cancer (TNBC). Eribulin has been approved by Phase III study 305 for metastatic breast cancer patients who have previously received at least two chemotherapies. Moreover, exploratory subpopulation analysis from combined Phase III studies of 301 and 305 found that survival benefit by eribulin treatment was observed in HER2-negative and TNBC patients. Here we show the robust anti-tumor effects of MORAb-202 against patient-derived (PDX) TNBC xenograft models.

MORAb-202 demonstrated target selectivity and favorable cytotoxic drug delivery to tumors across a series of in vitro and in vivo studies. First, we found that MORAb-202 showed highly specific cytotoxicity on FRA positive cell lines at various IC50 values (0.001~23nM) according to their FRA expression levels, with little off-target killing (IC50 >100nM) on FRA negative cells. Moreover, it demonstrated significant in vitro bystander cytotoxicity (>140-fold) in FRA negative cells co-cultured with FRA positive cells when compared to mono-cultured FRA negative cells. In vivo, a single administration of MORAb-202 (1, 2.5, 5mg/kg) in FRA positive xenograft models showed dose-dependent antitumor activity with no observable toxicity. Single administration of MORAb-202 (5mg/kg) on high FRA-expressing TNBC PDX models showed long-lasting complete tumor regression (4/8), while near-MTD dose of eribulin (3.2mg/kg) showed minimum relative tumor volume of 96%. One dose of MORAb-202 (5mg/kg) elicits partial responses even on stroma-rich, low FRA-expressing (3.7%) TNBC PDXs. Immunofluorescent staining of tumor specimens both from the pre-treatment and five days post-treatment mice revealed that MORAb-202 achieved target specific engagement to FRA-positive regions in the tumor. Notably, MORAb-202 treatment diminished the network structure of cancer associated fibroblasts. This phenomenon was confirmed in an independent FRA-positive xenograft model, collected days 3, 5, 7 and 9 post-treatment of MORAb-202.

Finally, GLP toxicology studies in cynomolgus monkeys found no adverse effects on safety pharmacology endpoints (i.e., cardiovascular, CNS, respiratory function) in the intermittent repeated-dose (Q3W×2) of MORAb-202 nor changes in electrocardiography at doses up to 6 mg/kg. This dose is believed to be about five times higher than the projected effective dose based on PDX results and eribulin dose modelling.

Cumulatively, these data strongly support MORAb-202 as a promising ADC drug candidate for FRA-positive cancers.

Citation Format: Keiji Furuuchi, Xin Cheng, Katherine Rybinski, Tomoyuki Moriyama, James Fulmer, Chris Maddage, Andrew Milinichik, Keigo Tanaka, George Lai, Mary Lou Dula, Danielle Fernando, Luigi Grasso, Earl Albone, Toshimitsu Uenaka. MORAb-202, a folate receptor-alpha (FRA)-targeting antibody-eribulin drug conjugate (ADC), exhibits durable antitumor activity and payload-mediated bystander effects on the tumor microenvironment in triple-negative breast cancer [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2018; 2018 Apr 14-18; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2018;78(13 Suppl):Abstract nr 952.

Abstract B115: MORAb-202: a folate receptor alpha (FRA)-targeting antibody-drug conjugate, exhibiting targeted antitumor activity and bystander elimination of cancer-associated fibroblasts

Triple-negative breast cancer (TNBC) is a highly metastatic disease with very poor long-term prognosis. Because of the lack of well-defined molecular targets, traditional chemotherapy is currently the only therapeutic regimen for TNBC. Within this agent class, eribulin has been approved for metastatic breast cancer and the prespecified subgroup analysis in phase 3 clinical trial (study301) revealed that eribulin demonstrated the greatest therapeutic benefit on overall survival of TNBC patients among all other breast cancer subtypes. Folate receptor alpha (FRA) is a GPI-linked membrane glycoprotein that has limited expression in normal tissue, but is highly overexpressed on a large number of cancers of epithelial origin, including non-small cell lung cancer (NSCLC), ovarian cancer, and TNBC. These features make FRA an attractive target for the treatment of TNBC using targeted therapeutic approaches. Farletuzumab, a humanized monoclonal antibody targeting FRA, has been investigated in multiple clinical trials enrolling patients overexpressing FRA. MORAb-202, a novel antibody-drug conjugate (ADC) consisting of farletuzumab conjugated to eribulin, targets FRA overexpressed by a variety of tumor types including TNBC. Upon binding and internalization, it is hypothesized that the liberated eribulin elicits both a direct cytotoxic effect on FRA-positive tumor cells and a bystander effect on FRA-negative tumor cells and, importantly, tumor-associated stromal cells within the tumor microenvironment. To address this hypothesis, we have evaluated the in vivo efficacy of MORAb-202 against a FRA-positive TNBC patient-derived xenograft (PDX) model. Single administration of 5 mg/kg MORAb-202 mediated tumor regression statistically compared to vehicle control (P<0.0001). Additionally, one animal treated with MORAb-202 showed complete and durable tumor regression. In order to examine the effects of MORAb-202 treatment on the tumor microenvironment, we harvested tumors both prior to treatment and five days post-treatment. Immunofluorescent staining was used to assess the target-specific engagement of MORAb-202 to FRA-positive regions of the tumor. Strong membrane staining of MORAb-202 was observed, while no staining was seen in the adjacent stromal regions. MORAb-202 also had demonstrable effects on the tumor microenvironment via reduction of the number of FRA-negative cancer-associated fibroblasts (CAF) present. To further evaluate whether these effects on CAF are part of the mode of action (MOA) of MORAb-202, we tested the antitumor efficacy and effects on the tumor microenvironment in a surrogate FRA-positive in vivo model. Tumors were isolated on days 3, 5, 7, and 9 post-treatment. The reduction in CAF, visualized by alpha-smooth muscle actin staining, was directly proportional to overall tumor reduction. In both studies, single-dose MORAb-202 showed dramatically greater efficacy than molar equivalent dosing of eribulin alone. Histologic analyses revealed unique modes of action of MORAb-202 over antibody or payload alone. These results suggest a potential benefit of MORAb-202 in the treatment of TNBC.

Citation Format: Katherine A. Rybinski, Christopher Maddage, Xin Cheng, Earl Albone, Luigi Grasso, Keiji Furuuchi, Toshimitsu Uenaka. MORAb-202: a folate receptor alpha (FRA)-targeting antibody-drug conjugate, exhibiting targeted antitumor activity and bystander elimination of cancer-associated fibroblasts [abstract]. In: Proceedings of the AACR-NCI-EORTC International Conference: Molecular Targets and Cancer Therapeutics; 2017 Oct 26-30; Philadelphia, PA. Philadelphia (PA): AACR; Mol Cancer Ther 2018;17(1 Suppl):Abstract nr B115.

Abstract B107: Antitumor activity of new antibody-drug conjugate with eribulin in triple-negative breast cancer PDX

Trastuzumab-emtansine (T-DM1) is an ADC that combines the HER2-targeting properties of trastuzumab with intracellular delivery of DM1 (a highly potent derivative of the anti-microtubule agent maytansine). A new biomarker of recent interest in the cancer field is folate receptor alpha (FRA), a membrane-bound protein with high affinity for binding and transporting folate into cells. Overexpression of FRA may confer a growth advantage to tumors by increasing folate uptake and affect cell proliferation via alternative cell signaling pathways. FRA levels have been found to be elevated in tumors of epithelial origin compared to normal tissue, including TNBC. Due to an absence of potential targeted therapy for this breast cancer subtype, the finding that a significant number of TNBCs express abundant FRA suggests an important population of patients may benefit from FRA-targeting therapy. Eighty-five percent of preclinical agents entering oncology clinical trials fail to demonstrate sufficient safety or efficacy to gain regulatory approval. This failure rate shows a weak understanding of the complexity of human cancer, the continued limitations of the predictive value of existing preclinical models, and the scale at which cancer models are interrogated in the preclinical setting. There is a need for new experimental models that better replicate the diversity of human tumor biology in a preclinical setting. It is now evidenced that PDXs recapitulate human tumor biology and predict patient drug response by directly comparing drug responses in patients and their corresponding xenografts. To extend such observations to a greater number of human cancers, we have generated in collaboration with Eisai an extensive collection of breast PDXs. In this study, MORAb-202, a novel folate receptor-targeting eribulin conjugate created through a Morphotek and Eisai collaboration, was tested in FRA-expressing TNBC PDXs. Compared to free eribulin, MORAb-202 showed higher and specific antitumor activity on FRA-positive PDXs. When injected once, MORAb-202 at 5 mg/kg (0.1 mg/kg eq eribulin) showed a treatment group/control group percent (T/C %) between 4 to 17%, whereas eribulin injected at 0.1 mg/kg following the same equivalent dose and schedule of administration showed a T/C % between 74 to 93%. On non-FRA-expressing PDXs, antitumor activities of MORAb-202 and eribulin were similar. Interestingly, to find similar antitumor activity, the dose of eribulin without vectorization should be enhanced to 32-fold compared to targeted eribulin. At this dose of eribulin, close to the maximum tolerated dose, a tumor relapse is observed (100%), whereas no relapse was observed for mice treated with MORAb-202. These encouraging results lead to a proof of concept of the use of MORAb-202 in TNBC.

Citation Format: Marc Hillairet de Boisferon, Caroline Mignard, Coralie Durix, Toshimitsu Uenaka, Katherine Rybinski, Xin Cheng, Keiji Furuuchi, Eart Albone. Antitumor activity of new antibody-drug conjugate with eribulin in triple-negative breast cancer PDX [abstract]. In: Proceedings of the AACR-NCI-EORTC International Conference: Molecular Targets and Cancer Therapeutics; 2017 Oct 26-30; Philadelphia, PA. Philadelphia (PA): AACR; Mol Cancer Ther 2018;17(1 Suppl):Abstract nr B107.

Targeting endosialin/CD248 through antibody-mediated internalization results in impaired pericyte maturation and dysfunctional tumor microvasculature

Over-expression of endosialin/CD248 (herein referred to as CD248) has been associated with increased tumor microvasculature in various tissue origins which makes it an attractive anti-angiogenic target. In an effort to target CD248, we have generated a human CD248 knock-in mouse line and MORAb-004, the humanized version of the mouse anti-human CD248 antibody Fb5. Here, we report that MORAb-004 treatment significantly impacted syngeneic tumor growth and tumor metastasis in the human CD248 knock-in mice. In comparison with untreated tumors, MORAb-004 treated tumors displayed overall shortened and distorted blood vessels. Immunofluorescent staining of tumor sections revealed drastically more small and dysfunctional vessels in the treated tumors. The CD248 levels on cell surfaces of neovasculature pericytes were significantly reduced due to its internalization. This reduction of CD248 was also accompanied by reduced α-SMA expression, depolarization of pericytes and endothelium, and ultimately dysfunctional microvessels. These results suggest that MORAb-004 reduced CD248 on pericytes, impaired tumor microvasculature maturation and ultimately suppressed tumor development.

Smad3 and NFAT cooperate to induce Foxp3 expression through its enhancer

The transcription factor Foxp3 is involved in the differentiation, function and survival of CD4+CD25+ regulatory T (T(reg)) cells. Details of the mechanism underlying the induction of Foxp3 expression remain unknown, because studies of the transcriptional regulation of the Foxp3 gene are limited by the small number of T(reg) cells in mononuclear cell populations. Here we have generated a model system for analyzing Foxp3 induction and, by using this system with primary T cells, we have identified an enhancer element in this gene. The transcription factors Smad3 and NFAT are required for activity of this Foxp3 enhancer, and both factors are essential for histone acetylation in the enhancer region and induction of Foxp3. These biochemical properties that define Foxp3 expression explain many of the effects of transforming growth factor-beta on the function of Foxp3+ T(reg) cells.

OX40 gene expression is up-regulated by chromatin remodeling in its promoter region containing Sp1/Sp3, YY1, and NF-kappa B binding sites

OX40 is a member of the TNFR superfamily (CD134; TNFRSF4) that is expressed on activated T cells and regulates T cell-mediated immune responses. In this study, we have examined the regulation of OX40 gene expression in T cells. Low-level OX40 mRNA expression was detected in both resting T cells and the nonactivated EL4 T cell line, and was up-regulated in both types of T cells upon activation with anti-CD3 Ab. We have shown in this study that basal OX40 promoter activity is regulated by constitutively expressed Sp1/Sp3 and YY1 transcription factors. NF-kappaB (p50 and p65) also binds to the OX40 promoter region, but the level of direct enhancement of the OX40 promoter activity by this transcription factor is not sufficient to account for the observed up-regulation of OX40 mRNA expression associated with activation. We have detected by chromatin immunoprecipitation that histone H4 molecules in the OX40 promoter region are highly acetylated by activation and NF-kappaB binds to the OX40 promoter in vivo. These findings suggest that OX40 gene expression is regulated by chromatin remodeling, and that NF-kappaB might be involved in initiation of chromatin remodeling in the OX40 promoter region in activated T cells. CD4(+)CD25(+) regulatory T (Treg) cells also express OX40 at high levels, and signaling through this receptor can neutralize suppressive activity of this Treg cell. In CD4(+)CD25(+) Treg cells, histone H4 molecules in the OX40 promoter region are also highly acetylated, even in the absence of in vitro activation.

Targeted antireceptor therapy with monoclonal antibodies leads to the formation of inactivated tetrameric forms of ErbB receptors

mAbs capable of disabling heterodimeric kinase complexes of the epidermal growth factor receptor (EGFR) and human EGFR type 2/neu have therapeutic relevance to various human cancers. In this study, we demonstrate that in addition to the dimer, EGFR and human EGFR type 2 can associate as homo- and heterotetramers. EGF-induced phosphorylation of the tetramers was significantly lower than that of the dimers, indicating that the tetrameric receptor complexes have impaired signaling activity. Targeting v-erb-b2 erythroblastic leukemia viral oncogene homolog (erbB) receptors with mAbs promoted erbB tetrameric assembly, suggesting that a component of the antitumor activity may be mediated by the ability of Abs to shift the equilibrium from active dimeric to impaired tetrameric receptor complex states. This study suggests a novel therapeutic approach to disable signaling of erbB and potentially other receptors in tumors by biologic agents capable of inducing receptor tetramerization.

HOXD3-overexpression increases integrin αvβ3 expression and deprives E-cadherin while it enhances cell motility in A549 cells

We have previously shown that transduction of HOXD3, one of homeobox genes, into human lung cancer A549 cells enhances cell motility, invasion and metastasis. In the present study, we examined the roles of integrin beta3 which was up-regulated by HOXD3-overexpression in the HOXD3-induced motility of A549 cells. We first established integrin beta3-transfectants and compared their motile activity to those of the HOXD3-transfected, control-transfected and parental cells by three different assays. The integrin beta3-transfectants as well as the HOXD3-transfectants formed heterodimer with integrin alphav subunit, and showed highly motile activities assessed by haptotaxis or phagokinetic track assay compared to the control transfectants or parental cells. In vitro wound-healing assay revealed that migratory activities were graded as the HOXD3-transfectants > the integrin beta3-transfectants > the control transfectants or parental cells. E-cadherin was expressed in the integrin beta3-transfectants but not expressed in the HOXD3-transfectants. An addition of function-blocking antibody to E-cadherin into the wound-healing assay promoted the migratory activity of the integrin beta3-transfectants, suggesting that E-cadherin prevented the cells from dissociating from the wound edges. These results indicate that increased expression of integrin alphav beta3 and loss of E-cadherin by HOXD3-overexpression are responsible for the enhanced motility and dissociation.

FOXP3 ensembles in T-cell regulation

Our recent studies have identified dynamic protein ensembles containing forkhead box protein 3 (FOXP3) that provide insight into the molecular complexity of suppressor T-cell activities, and it is our goal to determine how these ensembles regulate FOXP3's transcriptional activity in vivo. In this review, we summarize our current understanding of how FOXP3 expression is induced and how FOXP3 functions in vivo as a transcriptional regulator by assembling a multisubunit complex involved in histone modification as well as chromatin remodeling.

Centrosomal proteins Nde1 and Su48 form a complex regulated by phosphorylation

The centrosome modulates spindle formation and plays a critical role in guiding proper segregation of chromosomes during cell division. Centrosome aberrations, frequently seen in human tumors, may cause abnormal chromosome segregation and contribute to malignant transformation. To explore the components of the centrosomes, we previously identified a novel centrosomal protein called Su48. To further characterize the Su48-containing protein ensemble in the centrosome, we performed yeast two-hybrid screens and isolated a number of Su48-interacting molecules, including the centrosomal protein Nde1. Here, we demonstrate that Su48 can associate with Nde1. Moreover, we found that Nde1 is subjected to phosphorylation in vivo. In particular, we identified six putative Cdc2 phosphorylation sites in Nde1 and found that alteration of these sites diminishes phosphorylation by Cdc2 in vitro and affects the stability of Su48-Nde1 interactions and the centrosomal localization of Nde1. Ablation of Nde1 by gene specific small interfering RNA causes mitotic delay and cell death, coupled with a modest decrease in the incidence of the cells that harbor excessive centrosomes. Collectively, our findings indicate that Nde1 can form a protein complex with Su48 in the centrosome and plays an important role for successful mitosis.

Epigenetic silencing of E- and P-cadherin gene expression in human melanoma cell lines

The degree of E- and P-cadherin expressions inversely correlate with the progression stage of human melanoma. In the present study, we analyzed mechanisms of down-regulation of E- and P-cadherin gene expressions in 8 human melanoma cell lines. In 5 of the 8 melanoma cell lines, E-cadherin expression was lost or markedly decreased compared to that in normal melanocytes, and 4 of the 5 melanoma cell lines lost P-cadherin expression. All of the melanoma cell lines expressed snail, which is known to encode a transcription repressor for E-cadherin, at a higher level than melanocytes whereas expression levels of the snail varied among cell lines. Transduction of snail gene into MMAc cells which expressed a high level of E-cadherin and an extremely low level of snail decreased expression of E-cadherin but not P-cadherin. In contrast, transduction of antisense-snail gene into A375M cells which expressed no E-cadherin and a high level of snail restored expression of E-cadherin but not P-cadherin. Methylation-specific PCR analysis revealed CpG methylation in the promoter region of E-cadherin of MeWo and AKI cells. Further, the treatment with a demethylating agent, 5-azacytidine led AKI and A375M cells to re-express both E- and P-cadherin. The results show E-cadherin gene is silenced by at least two distinct mechanisms (methylation and transrepression by Snail) in human melanoma cell lines whereas P-cadherin gene seems to be silenced by methylation but not by snail.

Expression of AIE-75 PDZ-domain protein induces G2/M cell cycle arrest in human colorectal adenocarcinoma SW480 cells

AIE-75 has been known as a 75-kDa autoantigen detected in the serum of autoimmune enteropathy (AIE) and as a colon cancer-related antigen, and now designated as a gene causative of Usher syndrome type 1C hereditary syndromic hearing loss. It binds to a novel putative tumor suppressor MCC2 that is homologous to MCC (mutated in colon cancer) through a PSD-95/Dlg/ZO-1 (PDZ) domain. To clarify the functional role in colon cancer cells, we transfected AIE-75 gene into SW480 colon cancer cells which do not express AIE-75. Expression of AIE-75 suppressed growth of SW480 cells in vitro in correlation with the expression levels. It was due mainly to G2/M phase cell cycle arrest associated with mitotic slippage, resulting in emergence of hyperploid giant-nucleated or multi-nucleated cells. Screening of proteins that bound to PDZ domains of AIE-75 by a yeast two hybrid system showed that three serine/threonine phosphatase catalytic subunits (PP2AC-alpha, PP2AC-beta, and PPP6C) could bind to AIE-75. Since PP2AC is known to regulate G2/M checkpoint, we suggest that AIE-75 interacts with PP2AC and prevent cells to transit mitotic phase.

The Centrosome in Normal and Transformed Cells

The centrosome is a unique organelle that functions as the microtubule organizing center in most animal cells. During cell division, the centrosomes form the poles of the bipolar mitotic spindle. In addition, the centrosomes are also needed for cytokinesis. Each mammalian somatic cell typically contains one centrosome, which is duplicated in coordination with DNA replication. Just like the chromosomes, the centrosome is precisely reproduced once and only once during each cell cycle. However, it remains a mystery how this protein-based structure undergoes accurate duplication in a semiconservative manner. Intriguingly, amplification of the centrosome has been found in numerous forms of cancers. Cells with multiple centrosomes tend to form multipolar spindles, which result in abnormal chromosome segregation during mitosis. It has therefore been postulated that centrosome aberration may compromise the fidelity of cell division and cause chromosome instability. Here we review the current understanding of how the centrosome is assembled and duplicated. We also discuss the possible mechanisms by which centrosome abnormality contributes to the development of malignant phenotype.

Reconstructed beta-catenin/TCF4 signaling in yeast applicable to functional evaluation of APC mutations

In human genetics and molecular oncology, mutation research is necessary not only to identify mutations in nucleic acid sequences, but also to analyze the loss of function caused by mutant proteins. We reconstructed a protein-protein network system of human beta-catenin and TCF4, in Saccharomyces cerevisiae. beta-Catenin and TCF4 proteins form a complex and transactivate reporter genes. Co-expressed wild-type APC with beta-catenin and TCF4 inhibit the transcriptional activity of the beta-catenin/TCF4 complex in yeast, as well as in mammals. This unique method in which the beta-catenin/TCF4 signaling pathway is reconstructed in vivo may prove useful for the functional evaluation of APC mutants, including a type of APC truncated and missense mutants influenced to the ability of binding to beta-catenin.

Nuclear accumulation of beta-catenin without an additional somatic mutation in coding region of the APC gene in hepatoblastoma from a familial adenomatous polyposis patient

The APC (adenomatous polyposis coli) gene status in a familial adenomatous polyposis (FAP) patient who developed hepatoblastoma was analyzed by the yeast color assay. Although a single base insertion at codon 462 resulting in truncation of its product was documented in hepatoblastoma cells, no additional somatic mutation was detectable in the whole coding sequence of the APC gene. The nuclear accumulation of beta-catenin without mutation in the exons 2-4 of the beta-catenin gene, however, was observed in the tumor cells by immunohistochemistry. The similar nuclear accumulation of beta-catenin without an additional somatic mutation in its gene, in the absence of somatic mutation in cluster region of the APC gene, has been previously reported in the single FAP case. Moreover, review in the hepatoblastoma cases in the FAP families showed a relatively later onset of the disease when compared with the sporadic cases. These observations suggest that accumulation of beta-catenin without an additional somatic mutation in the APC gene might be a possible mechanism for tumorigenesis of hepatoblastoma in the FAP families.

Role of extracellular subdomains of p185c-neu and the epidermal growth factor receptor in ligand-independent association and transactivation

We investigated the assembly and activation of the epidermal growth factor receptor (EGFR)-p185c-neu heterodimer by using a sequential immunoprecipitation methodology. Using this approach we detected heterodimers and also higher-ordered oligomeric complexes. Phosphorylated EGFR-p185c-neu heterodimeric forms were detected in the absence of EGF, but the species became highly phosphorylated after EGF stimulation. To evaluate heterodimer formation and additional transactivation by EGF, we investigated the roles of the four extracellular subdomains of p185c-neu and the EGFR. Subdomains I-IV of the EGFR dimerized with subdomains I-IV of p185c-neu, respectively, in a parallel manner. In addition, subdomains I-IV of the EGFR also associated with p185c-neu subdomains III, IV, I, and II, respectively. A lack of one of the p185c-neu cysteine-rich domains (subdomains II or IV) resulted in a loss of EGF-induced transactivation. These data suggest that two cysteine-rich domains play defining roles in ligand-dependent transactivation and that both of these cysteine-rich extracellular subdomains as well as non-cysteine-rich extracellular subdomains are involved in ligand-independent interactions with the EGFR. Our studies provide biochemical evidence of the role of the cysteine-rich domains of p185c-neu in assembly and transactivation of erbB complexes and also indicate that these subdomains might be useful clinical targets.

Transduction of HOXD3-antisense into human melanoma cells results in decreased invasive and motile activities

Homeobox genes regulate sets of genes that determine cellular fates in embryonic morphogenesis and maintenance of adult tissue architecture by regulating cellular motility and cell-cell interactions. Our previous studies showed that a specific member, HOXD3, when overexpressed, enhanced cell motility and invasiveness of human lung cancer A549 cells (Hamada et al. Int. J. Cancer 2001; 93: 516-25 [19]). In the present study, we investigated the roles of HOXD3 in motile and invasive behavior of human malignant melanoma cells. Of seven melanoma cell lines examined here, six cell lines expressed the HOXD3 gene, whereas normal melanocytes did not. We transduced the HOXD3-antisense gene expression vector into two cell lines (A375M and MMIV). The cell transduced with the HOXD3-antisense gene showed reduced in vitro invasion of Matrigel. The transduction of the HOXD3-antisense gene also decreased cell spreading, haptotactic activity to vitronectin and laminin-1, and phagokinetic activity. To find the difference of gene expression between the HOXD3-antisense-transduced A375M cells and the control A375MNeo2 cells, we carried out cDNA microarray analysis. The results of the microarray analysis indicated that the increased expression of cdc42-interacting protein 4, KIAA0554 and tropomyosin 1, which are all associated with the cytoskeletal system, may be involved in the reduction of motile and invasive activity by the HOXD3-antisense gene transduction.

Increased expression of beta-catenin predicts better prognosis in nonsmall cell lung carcinomas

BACKGROUND

beta-Catenin has been shown to function as a Wnt signaling molecule to stimulate cyclin D1 expression and cell growth in several kinds of tumors.

METHODS

The authors immunohistochemically examined specimens of 217 surgically resected primary nonsmall cell lung carcinomas (NSCLCs) for beta-catenin expression and classified them semiquantitatively into three categories, including those with high, moderate, and low scores of expression.

RESULTS

High, moderate, and low scores of expression were found in 37 (17.1%), 145 (66.8%), and 35 (16.1%) tumors, respectively. beta-Catenin expression was not correlated with cyclin D1 expression, but was positively correlated with the Ki-67 cell growth fraction (P = 0.04). The direct sequencing analysis for the beta-catenin gene mutation of 13 specimens of 217 tumors for the current study revealed no mutations. The relation between survival and beta-catenin expression was evaluated in 148 potentially curatively resected tumors with pathologic Stages I-IIIA. A trend toward better survival was found in patients with tumors having higher scores. In multivariate analysis, high beta-catenin expression was a significant and independent favorable prognostic factor (hazards ratio, 0.31; P = 0.007) as was pathologic stage. Analyzed by cell type, in nonsquamous cell carcinomas, patients with tumors having high scores survived a significantly longer time than those with tumors having moderate or low scores (5-year survival rates, 84%, 55%, and 32%, respectively; P = 0.02), and high beta-catenin expression tended to be a favorable prognostic factor (hazards ratio, 0.32; P = 0.052).

CONCLUSIONS

These results indicate that, in NSCLCs, increased expression of beta-catenin can predict favorable prognosis of patients with resected tumors, suggesting that accumulation of beta-catenin has no or little oncogenic effect via activation of the Wnt pathway, unlike in colon carcinomas or hepatomas.

HOXD3 enhances motility and invasiveness through the TGF-beta-dependent and -independent pathways in A549 cells

Homeobox genes regulate sets of genes that determine cellular fates in embryonic morphogenesis and maintenance of adult tissue architecture by regulating cellular motility and cell-cell interactions. Our previous studies showed that a specific member, HOXD3, when overexpressed, upregulates integrin beta3 expression in human erythroleukemia HEL cells and lung cancer A549 cells, and enhances their motility and invasiveness. We performed a microarray study of over 7075 genes to determine the mechanisms underlying the HOXD3-enhanced motility and invasiveness in A549 cells. RT-PCR-based tracking gene analyses highlighted a set of TGF-beta-upregulated genes, which included matrix metalloproteinase-2, syndecan-1, CD44, and TGF-beta-induced 68 kDa protein. Exogenous TGF-beta also caused this pattern of upregulation in A549 cells and enhanced their migratory and invasive activity, confirming the involvement of TGF-beta signaling. However, HOXD3 reduced the expression of TGF-beta-independent genes coding for desmosomal components such as desmoglein, desmoplakin and plakoglobin which are known to suppress tumor invasion and metastasis. These results suggest that HOXD3 enhances the invasive and metastatic potential of cancer cells through the TGF-beta-dependent and -independent pathways.

Development of a yeast stop codon assay readily and generally applicable to human genes

We established a yeast-based method to screen chain-terminating mutations that is readily applicable to any gene of interest. Based on the finding that 18- to 24-base-long homologous sequences are sufficient for gap repair in vivo in yeast, we used a strategy to amplify a test-gene fragment with addition of 24-bp sequences homologous to both cut-ends of a yeast expression vector, pMT18. After co-transformation with the amplified fragment and the linearized pMT18, each yeast (Saccharomyces cerevisiae) cell automatically forms a single-copy circular plasmid (because of CEN/ARS), which expresses a test-gene::ADE2 chimera protein. When the reading frame of the test-gene contains a nonsense or frameshift mutation, truncation of the chimera protein results in lack of ADE2 activity, leading to formation of a red colony. By using a nested polymerase chain reaction using proofreading Pfu polymerase to ensure specificity of the product, the assay achieved a low background (false positivity). We applied the assay to BRCA1, APC, hMSH6, and E-cadherin genes, and successfully detected mutations in mRNA and genomic DNA. Because this method--universal stop codon assay--requires only 4 to 5 days to screen a number of samples for any target gene, it may serve as a high-throughput screening system of general utility for chain-terminating mutations that are most prevalent in human genetic diseases.

Overexpression of homeobox gene HOXD3 induces coordinate expression of metastasis-related genes in human lung cancer cells

Homeobox-containing genes are expressed in spatiotemporal fashion during embryogenesis and act as master transcription-regulating factors which control the expression of a variety of genes involved in morphogenesis. They are also expressed in a tissue-specific manner in normal adult tissues and appear to give cells spatial information in the maintenance of their architectural integrity. We transfected a HOXD3 class I homeobox-containing gene into human lung cancer A549 cells and investigated alterations in gene expressions and phenotypes related to the maintenance of tissue architecture in HOXD3-overexpressing A549 cells. In the HOXD3-overexpressing cell lines, expression of E-cadherin was lost and plakoglobin was strongly repressed, whereas integrin alpha3 and beta3 were up-regulated and N-cadherin and integrin alpha4 were newly expressed. Compared with parental and control transfectant lines, the HOXD3-overexpressing cell lines showed highly motile and invasive activity. Blocking experiments using anti-integrin beta1 and beta3 suggested that the increased haptotaxis of the HOXD3-overexpressing cells to vitronectin resulted from increased expression and activation of integrin alphavbeta3, and that overexpression of the HOXD3 gene converted the integrin beta1-dependent haptotaxis to fibronectin into both integrin beta1- and beta3-dependent one. HOXD3 overexpression increased production of matrix-degrative enzymes including matrix metalloproteinase-2 and urokinase-plasminogen activator. When the tumor cells were intravenously injected into the tail veins of nude mice, HOXD3 transfectants formed a significantly large number of metastatic foci in lungs compared with the control transfectants. These findings suggest that HOXD3 can act as a metastasis-promoting gene in human lung cancer A549 cells.

Interaction of MCC2, a novel homologue of MCC tumor suppressor, with PDZ-domain Protein AIE-75

AIE-75 is a protein identified as an autoantigen in patients with autoimmune enteropathy and as a colon cancer-related antigen. It has recently been assigned to be a causative gene for Usher type 1C congenital syndromic hearing loss. The novel protein has three PSD-95/Dlg/ZO-1 (PDZ) protein-protein interaction domains and is therefore implicated to function as a molecular anchor or sorter. We have identified a novel protein that binds to AIE-75 by yeast two-hybrid screening. The protein has a high homology to the tumor suppressor MCC (mutated in colon cancer; or MCC1 hereafter) and was named MCC2. MCC2 protein binds the first PDZ domain of AIE-75 with its C-terminal amino acids -DTFL. Since the MCC1 does not bind to AIE-75 and the MCC2 displays different expression patterns in various organs compared to MCC1, they appear to play distinct roles in cells. The MCC2 gene is located on chromosome 19p13 in the vicinity of APCL gene, while MCC1 maps near to APC tumor suppressor gene. Because of negative expression of MCC2 in a panel of cancer cell-lines compared to the corresponding normal tissues, we suggest that further study is necessary to investigate a possible role of MCC2 as a tumor suppressor.

Frequent deletions and mutations of the beta-catenin gene are associated with overexpression of cyclin D1 and fibronectin and poorly differentiated histology in childhood hepatoblastoma

Hepatoblastoma (HBL) is the most common malignant liver tumor in young children. Recent reports have shown that the beta-catenin gene was frequently mutated or deleted in HBLS: To elucidate the role of beta-catenin abnormalities in HBLs, we searched for mutations of beta-catenin and APC as well as expression of the target genes, cyclin D1, c-myc, and fibronectin, in 68 primary HBLS: The mutation analysis revealed that 44 (65%) tumors carried missense mutations or deletions of beta-catenin, all of which were somatic and targeted to the exon 3 encoding the amino acid residues involved in its degradation. However, no loss of function mutation of the APC gene was detected by the yeast functional assay. Of interest, beta-catenin mutation was significantly correlated with overexpression of the target genes, cyclin D1 and fibronectin, but not with that of c-myc in HBLs as measured by quantitative real-time reverse transcription-PCR. The immunohistochemical studies in 15 HBLs demonstrated that the nuclear/cytoplasmic accumulation of beta-catenin was positive in 13 tumors, 9 of which had the deletion or mutation of the gene. The significant correlation between the beta-catenin gene abnormality and the positive staining of cyclin D1 was also confirmed. Furthermore, the nuclear accumulation of beta-catenin was strongly associated with the poorly differentiated tumor cell components as well as with the positive staining of cyclin D1 within the tumor. Thus, our present results suggested that the gain of function mutation of beta-catenin played a crucial role in the malignant progression of HBL in vivo.

Inactivate the remaining p53 allele or the alternate p73? Preferential selection of the Arg72 polymorphism in cancers with recessive p53 mutants but not transdominant mutants

Several reports have noted epidemiological differences in the prevalence or prognostic significance of p53 mutants with arginine (R) or proline (P) at the codon 72 polymorphism (R72/P72) in certain cancer types, but the biological significance of these variants is unclear. The ability of p53 mutants to interact with and inactivate the p53 homolog p73 was recently reported to depend on the conformational state of the p53 protein and the residue at codon 72. Since the conformation of p53 mutants may influence their ability to transdominantly inhibit wild-type p53, we tested whether there was a correlation between the amino acid at codon 72 and the transdominance of p53 alleles found in tumors. The transdominance test was performed using a simple yeast transcription assay, and the amino acid at codon 72 was determined by sequencing. A total of 100 p53 mutants were tested. Compared with the germline frequency (R:P = 427:297), an extreme bias in favor of the R72 allele was observed with recessive mutants (R:P = 50:7, P < 0.0002), whereas no selection for the R72 allele was seen with transdominant mutants (R:P = 23:20). p53 and p73 are known to transactivate overlapping sets of target genes. We interpret the R72 bias with recessive mutants as evidence that decreased activation of p53 target genes provides a selective growth advantage to tumor cells during the stage of tumorigenesis in which a wild-type and mutant p53 allele coexist. We suggest that transdominant p53 mutants achieve this by inactivation of the remaining wild-type p53 allele, whereas recessive p53 mutants achieve it through inactivation of p73.

[Development of a detection system (APC yeast color assay) of APC mutations by color change of yeast]

The author developed a sensitive yeast-based color assay which expresses APC-ADE2 (reporter) fusion protein in yeast and can screen almost the entire coding region of the APC gene. In this assay, the wild-type APC coding sequence of 8.5 kb is divided into 5 overlapping regions which are respectively ligated in-frame with an ADE2 open reading frame. The resulting five constructs containing a part of wild-type APC gene preserve the ADE2(+) phenotype (white yeast colony) when introduced into the yeast, whereas the yeast transfected with plasmids containing frameshift mutations of the APC gene shows an ADE2(-) phenotype (red yeast colony). Six human colon cancer cell lines were analyzed by this yeast color assay. HCT116 cells with wild-type APC and normal colonic mucosa gave low percentages of red colonies (0-9.9%) in all the regions. On the other hand, more than 96% red colonies were observed in one of the five regions in SW480, Colo201 and Colo320DM cells. Sequence analysis demonstrated the clonal APC mutations at codon 1,338 in SW480, 1,554 in Colo201 and 811 in Colo320DM. Moreover, the assay detected a germline mutation of the APC gene in polyps of a familial adenomatous polyposis (FAP) patient which gave about 50% red colonies. For testing the assay for clinical utilization, 18 colon cancer tissues were subjected to the assay. Eleven cancers (61%) gave more than 10% red colonies (17-57%) and clonal mutations were detected in all these samples. The same mutations were demonstrated in both DNA and RNA samples derived from idendical tissues. These results suggest that this APC yeast color assay is powerful means for detection of APC mutations in clinical samples.

Somatic mutations of the APC gene in primary breast cancers

APC gene mutations play an important role in the initiation step of colorectal carcinogenesis in both familial adenomatous polyposis (FAP) patients and non-FAP patients. Although the APC gene is expressed in most tissues, including the lung, liver, kidney, and mammary gland, its somatic mutations have rarely been found in primary tumors affecting these organs. We have developed a sensitive yeast-based assay for screening almost the entire coding region of the APC gene. By this method, we have been able to detect somatic mutations of the APC gene in 57% of colorectal cancers and none in non-small cell lung cancers. Interestingly, the assay detected somatic APC gene mutations in 18% of breast cancers, in which APC gene mutation was previously considered rare. In the breast cancers, most of the APC mutations were distributed outside the mutation cluster region that has been advocated for colorectal cancers. We also noted a difference in the mutation pattern of the APC between colorectal and breast cancers. In colorectal cancers, all base substitutions were observed at C residues (5 of 5), whereas in breast cancers the majority of them were found at G residues (4 of 5). Furthermore, APC mutations were observed at a significantly high frequency in advanced stages of primary breast cancers (TNM classification, P < 0.05; T category, P < 0.01). Our data suggest that the etiology of the APC mutations and their biological role in carcinogenesis may differ between colorectal and breast cancers.

Distinct prognostic values of p53 mutations and loss of estrogen receptor and their cumulative effect in primary breast cancers

A total of 76 primary breast cancers were screened for p53 mutations using the yeast p53 functional assay, and the mutations were determined by DNA sequencing. Clonal mutations of p53 were detected in 30 tumors (39%). Immunohistochemical staining for nuclear p53 accumulation performed on the yeast assay-positive cases clearly differentiated missense mutations in the DNA binding domain (contact mutant; 17 cases) as positive stain and nonsense-type mutations or missense mutations that may affect 3D-structure of p53 protein (structural mutant; 13 cases) as negative stain. Enzyme immunoassay revealed loss of estrogen receptor in 36 tumors (50%). Prognostic values of p53 mutation and loss of estrogen receptor were evaluated after a median follow-up period of 44 months. p53 mutations were associated with a short overall survival (log rank test, p = 0.0319), whereas it was not related to disease-free (recurrence-free) survival. Contact mutants were associated with slightly shorter survival compared with structural mutants. Inversely, loss of estrogen receptor was associated with early recurrence (p = 0.0461) but not with short overall survival. The patients with tumors harboring both p53 mutation and loss of estrogen receptor had the poorest outcome (p = 0.0019 and 0.0075 for overall and disease-free survivals, respectively), suggesting independent and additive effects of the 2 factors. The independent role of the 2 factors was confirmed by a multivariate analysis using the Cox proportional hazard model stratified according to clinical tumor stages. Although preliminary, due to the small number of patients studied and the relatively short follow-up time, our results suggest that p53 mutations and loss of estrogen receptor cooperatively affect the prognosis of primary breast cancer patients.

Distinct prognostic values of p53 mutations and loss of estrogen receptor and their cumulative effect in primary breast cancers

A total of 76 primary breast cancers were screened for p53 mutations using the yeast p53 functional assay, and the mutations were determined by DNA sequencing. Clonal mutations of p53 were detected in 30 tumors (39%). Immunohistochemical staining for nuclear p53 accumulation performed on the yeast assay-positive cases clearly differentiated missense mutations in the DNA binding domain (contact mutant; 17 cases) as positive stain and nonsense-type mutations or missense mutations that may affect 3D-structure of p53 protein (structural mutant; 13 cases) as negative stain. Enzyme immunoassay revealed loss of estrogen receptor in 36 tumors (50%). Prognostic values of p53 mutation and loss of estrogen receptor were evaluated after a median follow-up period of 44 months. p53 mutations were associated with a short overall survival (log rank test, p = 0.0319), whereas it was not related to disease-free (recurrence-free) survival. Contact mutants were associated with slightly shorter survival compared with structural mutants. Inversely, loss of estrogen receptor was associated with early recurrence (p = 0.0461) but not with short overall survival. The patients with tumors harboring both p53 mutation and loss of estrogen receptor had the poorest outcome (p = 0.0019 and 0.0075 for overall and disease-free survivals, respectively), suggesting independent and additive effects of the 2 factors. The independent role of the 2 factors was confirmed by a multivariate analysis using the Cox proportional hazard model stratified according to clinical tumor stages. Although preliminary, due to the small number of patients studied and the relatively short follow-up time, our results suggest that p53 mutations and loss of estrogen receptor cooperatively affect the prognosis of primary breast cancer patients.

A functional and quantitative mutational analysis of p53 mutations in yeast indicates strand biases and different roles of mutations in DMBA- and BBN-induced tumors in rats

In order to analyze the mutational events and to understand the biological significance of the p53 gene in chemical carcinogenesis, we applied a new yeast-based p53 functional assay to ovarian tumors induced by 7, 12-dimethylbenz[a]anthracene (DMBA), as well as to transitional cell carcinomas of the urinary bladder induced by N-butyl-N-(4-hydroxybutyl) nitrosamine (BBN) in rats. The assay demonstrated that 15 of 19 DMBA induced tumors harbored clonal p53 mutations, which is consistent with the expectations of the "clonal expansion" hypothesis. The majority of the mutations were purine (AG) to pyrimidine (CT) transversions (12/19) on the non-transcribed (sense) strand (NTS), which is likely to be due to depurination created by DMBA adduct formation on the NTS. In contrast, we found no pyrimidine to purine [corrected] transversion on the NTS. After cessation of BBN treatment, BBN-induced multifocal lesions in the bladder contained heterogeneous p53 mutations at an early stage. In the later stage, however, clonal p53 mutations were identified in 4 out of 7 bladders analyzed, conforming with the concept of "field cancerization". The observed base substitutions were G-->A (1/6) or C -->T transitions (2/6), and mutations at T (3/6) on the NTS in clonal mutations, together with non-clonal mutations, showing a preference of C-->T to G-->A (17 vs. 0). Thus, preferential repair was found in the transcribed strand of the p53 gene, whether modified by DMBA or by BBN carcinogens. Very similar mutation patterns were observed between clonal and non-clonal mutations in the DMBA- and BBN-induced tumors, indicating that the rat yeast p53 functional assay can be a potential tool for the characterization of in vivo mutation patterns of p53, when modified by chemical carcinogens.

Glial cell line-derived neurotrophic factor induces barrier function of endothelial cells forming the blood-brain barrier

Since a deep involvement of astrocytes, a kind of glial cells, in differentiation of the blood-brain barrier (BBB) has been suggested, we examined the relation of glial cell line-derived neurotrophic factor (GDNF) to the BBB. First, immunohistochemical examination of the cerebral cortex of rats revealed that glial cell line-derived neurotrophic factor receptor (GFRalpha1) was preferentially expressed on the cell membranes of capillary endothelial cells. Second, to elucidate the effects of GDNF on the BBB, capillary endothelial cells isolated from the porcine cerebral cortex were cultured and then changes in tight junction function of the endothelial cells were examined after addition of GDNF, in terms of transendothelial electrical resistance (TER) and permeability. GDNF at concentrations of 0.1 and 1 ng/ml significantly activated the barrier function of the endothelial cells in the presence of cAMP. Since GDNF is secreted from astrocytes sheathing capillary endothelial cells in the brain cortex, our results strongly suggest that GDNF enhances the barrier function of tight junctions of the BBB on the one hand, and also supports the survival of neurons on the other hand.

A novel A-kinase anchoring protein in the heart interacts with G alpha 13

A cDNA of a tentative A-kinase anchoring protein, presumably coupled with heterotrimeric GTP binding protein alpha 13 subunit (G alpha 13), was cloned from a human heart cDNA library. It was approximately 650 bases and its mRNA was expressed in the heart. Homology search of DNA sequences revealed that it was a novel cDNA with 84% homology with the partial sequence of rabbit cDNA of AKAP 120 without a stop codon. 3'-Rapid Amplification of cDNA Ends (3'-RACE) and yeast functional assay were performed to determine the 3'-end of the cDNA and ribosomal frameshifting was suggested as a translational mechanism. Here we report that a protein encoded by the cDNA may be involved in intracellular signal transduction via the G alpha 13 and PKA in hearts.

Suppression of pancreatic cancer by the dominant negative ras mutant, N116Y

N116Y, H-ras mutant, possesses dominant negative activity to Ras function. The aim of this study is to assess whether N116Y can inhibit the proliferation of pancreatic cancer cell lines carrying K-ras mutations and cause reversion of the malignant phenotype. We transfected an expression vector of N116Y, pZIP-N116Y, into eight human pancreatic cancer cell lines with K-ras mutations (PCI 10, 19, 24, 35, 43, 55, 64, and 66) by using a lipofection procedure. The growth inhibition activity of N116Y was evaluated by the colony-forming efficiency in selection medium. In order to examine the effect of N116Y on the neoplastic phenotype, we established N116Y-expressing clones and analyzed their growth ability in soft agar and tumorigenicity in nude mice. The growth of the eight pancreatic cancer cell lines was strongly inhibited by the transfection of pZIP-N116Y. Moreover, the N116Y-expressing clones became less spread and lost their anchorage-independent growth ability. Furthermore, they were nontumorigenic in vivo. N116Y significantly inhibits the growth of pancreatic cancer cell lines and causes reversion of the malignant phenotypes. These results suggest that N116Y may be a candidate gene for use in the gene therapy of pancreatic cancer.