NVP-BEZ235, a dual PI3K/mTOR inhibitor, prevents PI3K signaling and inhibits the growth of cancer cells with activating PI3K mutations

Phosphatidylinositol-3-kinase (PI3K) pathway deregulation is a common event in human cancer, either through inactivation of the tumor suppressor phosphatase and tensin homologue deleted from chromosome 10 or activating mutations of p110-alpha. These hotspot mutations result in oncogenic activity of the enzyme and contribute to therapeutic resistance to the anti-HER2 antibody trastuzumab. The PI3K pathway is, therefore, an attractive target for cancer therapy. We have studied NVP-BEZ235, a dual inhibitor of the PI3K and the downstream mammalian target of rapamycin (mTOR). NVP-BEZ235 inhibited the activation of the downstream effectors Akt, S6 ribosomal protein, and 4EBP1 in breast cancer cells. The antiproliferative activity of NVP-BEZ235 was superior to the allosteric selective mTOR complex inhibitor everolimus in a panel of 21 cancer cell lines of different origin and mutation status. The described Akt activation due to mTOR inhibition was prevented by higher doses of NVP-BEZ235. NVP-BEZ235 reversed the hyperactivation of the PI3K/mTOR pathway caused by the oncogenic mutations of p110-alpha, E545K, and H1047R, and inhibited the proliferation of HER2-amplified BT474 cells exogenously expressing these mutations that render them resistant to trastuzumab. In trastuzumab-resistant BT474 H1047R breast cancer xenografts, NVP-BEZ235 inhibited PI3K signaling and had potent antitumor activity. In treated animals, there was complete inhibition of PI3K signaling in the skin at pharmacologically active doses, suggesting that skin may serve as surrogate tissue for pharmacodynamic studies. In summary, NVP-BEZ235 inhibits the PI3K/mTOR axis and results in antiproliferative and antitumoral activity in cancer cells with both wild-type and mutated p110-alpha.

Microsatellite instability due to hMLH1 deficiency is associated with increased cytotoxicity to irinotecan in human colorectal cancer cell lines

Around 15% of colorectal cancers (CRCs) show microsatellite instability (MSI) due to dysfunction of the mismatch repair system (MMR). As a consequence of this, MSI tumours tend to accumulate errors in mononucleotide repeats as those in genes implicated in repairing double-strand breaks (DSBs). Previous studies have shown that irinotecan (CPT-11), a chemotherapy agent inducing DSB, is more active in MSI than in microsatellite stable (MSS) CRC. The purpose of this study was to compare the sensitivity to CPT-11 in a series of CRC cell lines with either proficient or deficient MMR and to assess the mutational status of two DSB repair genes, MRE11 and RAD50, in these cell lines. hMLH1-deficient cell lines due to either epigenetic silencing or mutation showed very similar IC(50) and were four- to nine-fold more sensitive to CPT-11 than the MSS line. Cell lines harbouring mutations in both MRE11 and RAD50 were most sensitive to CPT-11. We conclude that MSI cell lines display higher sensitivity to CPT-11 than MSS cells. Mutation of MRE11 and RAD50 could account for this difference in response to CPT-11. Future clinical trials tailoring chemotherapy regimens based on microsatellite status are warranted.

Microsatellite instability (MSI) due to mutation or epigenetic silencing is associated with increased cytotoxicity to irinotecan (CPT-11) in human colorectal cancer (CRC) cell lines

10527

Background: MSI is a phenomenon found in tumor DNA of individuals with dysfunction of the mismatch repair system (MMR). Epigenetic inactivation by promoter hypermethylation of hMLH1 causes 15 to 20% of sporadic CRC. In vitro studies have suggested an increased sensitivity to CPT-11 of MMR-deficient human CRC cell lines. Chemosensitivity evaluation in preclinical models of human CRC cell lines according to the MMR status could help in the design of specific studies in the clinical setting. Methods: We have performed drug cytotoxicity assays to compare sensitivity to CPT-11 in several human CRC cell lines with different MMR gene status that resemble the most common clinical situations in CRC patients. HCT116, HCT15, SW48 and RKO are MSI-High (MSI-H), being HCT116 due to a homozygous nonsense mutation of hMLH1 gene, HCT15 due to MSH6 mutation (both of them similar to hereditary cases) and both SW48 and RKO due to methylation of hMLH1 promoter (as MSI-H sporadic CRC cases). HT29 expresses normal levels of MMR proteins (as microsatellite stable (MSS) CRC cases). Drug concentrations resulting in 50% growth inhibition (IC50) were determined by a curve-fitting analysis and cell cycle analyses in order to characterize the cytotoxicity of cell lines were performed. Results: IC50 values and 95% confidence intervals (CI) are show in Table 1 . hMLH1-deficient cell lines due to either epigenetic silencing or mutation showed very similar IC50 and were 5- to 8-fold more sensitive to CPT-11 than the MSS line. hMSH6- deficient cell line HCT15 has sensitivity closer to MSS than MSI cell lines. Treatment with CPT-11 induced a G2/M arrest. Conclusions: Lack of hMLH1 protein due to either genetic alteration or epigenetic silencing correlates with increased sensitivity to CPT-11. MSI-H CRC cell lines are more sensitive to CPT-11 than MSS. Future clinical trials tailoring chemotherapy regimens based on microsatellite status are warranted.

[Table: see text]

No significant financial relationships to disclose.

The PI3-K/AKT/mTOR pathway as a target for breast cancer therapy

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Background: The PI3K/Akt/mTOR pathway is found dysregulated in multiple tumours, including breast cancer (BC). RAD001 is a recently developed drug which blocks mTOR. To study this compound’s anti-tumour effect and interactions with the aforementioned pathway, we set up a translational research program which integrates basic and clinical research data. Methods: The preclinal studies performed in BC cell lines and xenografts included the use of proliferation assays, western blot (WB), small interfering RNA and immunohistochemistry (IHC) analysis. The clinical studies consisted in a phase I study with escalating doses and collection of tumour biospies at different time points Results: Our first achievement was validating the antibodies used in WB and IHC and directed towards different components of the PI3K/Akt/mTOR pathway. We first reported that sensitivity to RAD001 correlated to basal levels of p-Akt. We then observed that RAD001 inhibits mTOR downstream, pS6 and eIF4G, but increases the levels of p-Akt, both in vitro and in patients’tumour biopsies. We demonstrated that knock down of the pS6 kinase mimics the effect of RAD001. Indeed, by combining the PI3K inhibitors and the genomic approch of p85 dominant negative vector, we demonstrated that RAD001 induced p-Akt is through PI3K. Besides the p-Akt induction we also found a RAD001 induction of IRS-1, the pivot mediator of the Insulin like Growth factor-1 Receptor (IGF-1R). We reported that RAD001 resulted in a prolonged activation of IRS-1 and in a sustained association with the p85 subunit of PI3K. Thus RAD001 disrupts an inhibitory mechanism impinging on the PI3K signalling, resulting in sustained activation of the IGF-1R pathway. Accordingly we demonstrated that combination of RAD001 with coumpounds directed against the IGF-1R, i.e. both IGF-1R tyrosine kinase inhibitors and monoclonal antibodies, prevented RAD001 induced p-Akt and resulted in a supradditive growth inhibitory effects both in vitro and in MCF-7 human BC derived xenografts.We are now conducting a phase I study with a monoclonal antibody directed at the IGF-1R that blocks IGF-1R signalling. Conclusions: Dual inhibition of mTOR and IGF-1R completely blocks the PI3K/Akt/mTOR pathway and provide a mechanistic-based combined approach. Clinical studies in BC patients are being planned.

No significant financial relationships to disclose.

Expression of p95HER2, a truncated form of the HER2 receptor, and response to anti-HER2 therapies in breast cancer

BACKGROUND

Women with HER2-overexpressing breast cancers have poor prognosis, and many are resistant to the HER2 monoclonal antibody trastuzumab. A subgroup of HER2-overexpressing tumors also express p95HER2, an amino terminally truncated receptor that has kinase activity. Because p95HER2 cannot bind to trastuzumab but should be responsive to the HER2 tyrosine kinase inhibitor lapatinib, we compared the sensitivity of tumors expressing p95HER2 and tumors expressing the full-length HER2 receptor to these agents.

METHODS

MCF-7 and T47D breast cancer cells were stably transfected with either full-length HER2 or p95HER2. We studied the effects of trastuzumab and lapatinib on receptor signaling, cell proliferation, and the growth of xenograft tumors. A paraffin-based immunofluorescence assay was developed to study the association between p95HER2 expression and sensitivity to trastuzumab in patients with advanced breast cancer. All statistical tests were two-sided.

RESULTS

Treatment of p95HER2-expressing cells with lapatinib inhibited p95HER2 phosphorylation, reduced downstream phosphorylation of Akt and mitogen-activated protein kinases, inhibited cell growth (MCF-7p95HER2 clones, lapatinib versus control, mean growth inhibition = 57.6% versus 22.6%, difference = 35%, 95% confidence interval [CI] = 22.5% to 47.3%; P<.001; T47Dp95HER2 clones, lapatinib versus control, mean growth inhibition = 36.8% versus 20%, difference = 16.8%, 95% CI = 11.3% to 22.3%, P<.001), and inhibited growth of MCF-7p95HER2 xenograft tumors (lapatinib versus control, mean = 288.8 versus 435 mm3, difference = 146.2 mm3, CI = 73.8 to 218.5 mm3, P = .002). By contrast, treatment with trastuzumab had no effect on any of these parameters. Of 46 patients with metastatic breast cancer who were treated with trastuzumab, only one of nine patients (11.1%) expressing p95HER2 responded to trastuzumab (with a partial response), whereas 19 of the 37 patients (51.4%) with tumors expressing full-length HER2 achieved either a complete (five patients) or a partial (14 patients) response (P = .029).

CONCLUSIONS

Breast tumors that express p95HER2 are resistant to trastuzumab and may require alternative or additional anti-HER2-targeting strategies.

Ectodomain shedding of the hypoxia-induced carbonic anhydrase IX is a metalloprotease-dependent process regulated by TACE/ADAM17

Carbonic anhydrase IX (CA IX) is a transmembrane protein whose expression is strongly induced by hypoxia in a broad spectrum of human tumours. It is a highly active enzyme functionally involved in both pH control and cell adhesion. Its presence in tumours usually indicates poor prognosis. Ectodomain of CA IX is detectable in the culture medium and body fluids of cancer patients, but the mechanism of its shedding has not been thoroughly investigated. Here, we analysed several cell lines with natural and ectopic expression of CA IX to show that its ectodomain release is sensitive to metalloprotease inhibitor batimastat (BB-94) and that hypoxia maintains the normal rate of basal shedding, thus leading to concomitant increase in cell-associated and extracellular CA IX levels. Using CHO-M2 cells defective in shedding, we demonstrated that the basal CA IX ectodomain release does not require a functional TNFα-converting enzyme (TACE/ADAM17), whereas the activation of CA IX shedding by both phorbol-12-myristate-13-acetate and pervanadate is TACE-dependent. Our results suggest that the cleavage of CA IX ectodomain is a regulated process that responds to physiological factors and signal transduction stimuli and may therefore contribute to adaptive changes in the protein composition of tumour cells and their microenvironment.

Impaired trafficking and activation of tumor necrosis factor-alpha-converting enzyme in cell mutants defective in protein ectodomain shedding

Protein ectodomain shedding is a specialized type of regulated proteolysis that releases the extracellular domain of transmembrane proteins. The metalloprotease disintegrin tumor necrosis factor-alpha-converting enzyme (TACE) has been convincingly shown to play a central role in ectodomain shedding, but despite its broad interest, very little is known about the mechanisms that regulate its activity. An analysis of the biosynthesis of TACE in mutant cell lines that have a gross defect in ectodomain shedding (M1 and M2) shows a defective removal of the prodomain that keeps TACE in an inactive form. Using LoVo, a cell line that lacks of active furin, and alpha1-Antitrypsin Portland, a protein inhibitor of proprotein convertases, we show that TACE is normally processed by furin and other proprotein convertases. The defect in M1 and M2 cells is due to a blockade of the exit of TACE from the endoplasmic reticulum. The processing of other zinc-dependent metalloproteases, previously suggested to participate in activated ectodomain shedding is normal in the mutant cells, indicating that the component mutated is highly specific for TACE. In summary, the characterization of shedding-defective somatic cell mutants unveils the existence of a specific mechanism that directs the proteolytic activation of TACE through the control of its exit from the ER.

ZD1839, a specific epidermal growth factor receptor (EGFR) tyrosine kinase inhibitor, induces the formation of inactive EGFR/HER2 and EGFR/HER3 heterodimers and prevents heregulin signaling in HER2-overexpressing breast cancer cells

PURPOSE

ZD1839 is a tyrosine kinase inhibitor of the epidermal growth factor receptor (EGFR) that has shown clinical activity against EGFR-expressing tumors. Our aim was to explore the effects of ZD1839 in breast cancer cell lines expressing different levels of EGFR and the closely related HER2 receptor.

EXPERIMENTAL DESIGN

We studied the growth-inhibitory effects of ZD1839 in a series of breast carcinoma cell lines. In HER2-overexpressing BT-474 breast cancer cells, we studied the effects of ZD1839 on cell growth and heterodimerization of receptors under basal and ligand-stimulated conditions.

RESULTS

ZD1839 was an equally potent inhibitor of growth in breast cancer cells expressing high levels of EGFR and HER2. In BT-474 breast cancer cells, ZD1839 abolished EGF- and heregulin-induced activation of ErbB receptors and downstream signaling molecules. Because ZD1839 does not inhibit the HER2 tyrosine kinase in vitro, and because heregulin is a ligand that activates HER2 by binding to HER3 and HER4 but does not bind to the EGFR, our findings suggested that ZD1839 interfered with HER2 function in intact cells. Searching for mechanisms, we report that ZD1839 induces the formation of inactive unphosphorylated EGFR/HER2 and EGFR/HER3 heterodimers. Furthermore, ZD1839 completely abolishes basal and heregulin-induced formation of active phosphorylated HER2/HER3 heterodimers.

CONCLUSIONS

ZD1839 inhibits the growth of HER2-overexpressing breast cancer cells, possibly by sequestration of HER2 and HER3 receptors in an inactive heterodimer configuration with the EGFR. Our findings suggest that there is a strong rationale to conduct clinical trials of ZD1839 in patients with HER2-overexpressing breast tumors.

Metalloprotease-dependent protransforming growth factor-alpha ectodomain shedding in the absence of tumor necrosis factor-alpha-converting enzyme

Zinc-dependent metalloproteases can mediate the shedding of the extracellular domain of many unrelated transmembrane proteins from the cell surface. In most instances, this process, also known as ectodomain shedding, is regulated via protein kinase C (PKC). The tumor necrosis factor alpha-converting enzyme (TACE) was the first protease involved in regulated protein ectodomain shedding identified. Although TACE belongs to the family of metalloprotease-disintegrins, few members of this family have been shown to participate in regulated ectodomain shedding. In fact, the phenotype of tace-/- cells and that of Chinese hamster ovary cell mutants defective in ectodomain shedding points to the existence of a common PKC-activated ectodomain shedding system, whose proteolytic component is TACE, that acts on a variety of transmembrane proteins. Examples of these proteins include the Alzheimer's disease-related protein beta-amyloid precursor protein (betaAPP) and the transmembrane growth factors protransforming growth factor-alpha (pro-TGF-alpha) and, as shown in this report, proheparin-binding epidermal growth factor-like growth factor (pro-HB-EGF). Here we show that the mercurial compound 4-aminophenylmercuric acetate (APMA), frequently used to activate in vitro recombinant matrix metalloproteases, is an activator of the shedding of betaAPP, pro-HB-EGF, and pro-TGF-alpha. Treatment of tace-/- cells or Chinese hamster ovary shedding-defective mutants with APMA activates the cleavage of pro-TGF-alpha but not that of pro-HB-EGF or betaAPP, indicating that APMA activates TACE and also a previously unacknowledged proteolytic activity specific for pro-TGF-alpha. Characterization of this proteolytic activity indicates that it acts on pro-TGF-alpha located at the cell surface and that it is a metalloprotease active in cells defective in furin activity. In summary, treatment of shedding-defective cell lines with APMA unveils the existence of a metalloprotease activity alternative to TACE with the ability to specifically shed the ectodomain of pro-TGF-alpha.

Mechanism of action of trastuzumab and scientific update

The humanized anti-p185(HER2) monoclonal antibody trastuzumab has been shown to effectively inhibit the growth of HER2-overexpressing breast cancer cells in vivo and in vitro. The treatment of cancer cells with trastuzumab results in downregulation of the HER2 receptor. Further downstream cellular events include the accumulation of the cyclin-dependent kinase inhibitor p27 and cell cycle arrest. In vivo, trastuzumab induces antibody-dependent cellular cytotoxicity. Trastuzumab also inhibits constitutive HER2 cleavage/shedding mediated by metalloproteases. The ability of trastuzumab to inhibit HER2 cleavage may correlate with the clinical anticancer activity of the multifunctional HER2-targeting antibody.

Trastuzumab (herceptin), a humanized anti-Her2 receptor monoclonal antibody, inhibits basal and activated Her2 ectodomain cleavage in breast cancer cells

HER2 is a ligand-less tyrosine kinase receptor of the ErbB family that is frequently overexpressed in breast cancer. It undergoes proteolytic cleavage that results in the release of the extracellular domain and the production of a truncated membrane-bound fragment, p95. We show that HER2 shedding is activated by 4-aminophenylmercuric acetate (APMA), a well-known matrix metalloprotease activator, in HER2-overexpressing breast cancer cells. The HER2 p95 fragment, which appears after APMA-induced cleavage, is phosphorylated. We analyzed 24 human breast cancer specimens, and a phosphorylated M(r) 95,000 HER2 band could be detected in some of them, which indicated that the truncated receptor is also present in vivo. The activation of HER2 shedding by APMA in cells was blocked with batimastat, a broad-spectrum metalloprotease inhibitor. Trastuzumab (Herceptin; Genentech, San Francisco, CA), a humanized monoclonal antibody directed at the HER2 ectodomain, which has been shown to be active in patients with HER2-overexpressing breast cancer, inhibited basal and induced HER2 cleavage and, as a consequence, the generation of phosphorylated p95. This inhibitory effect of trastuzumab was not shared by 2C4, an antibody against a different epitope of the HER2 ectodomain. The inhibition of basal and APMA-induced cleavage of HER2 by trastuzumab preceded antibody-induced receptor down-modulation, which indicated that the effect of trastuzumab on cleavage was not attributable to a decrease in cell-surface HER2 induced by trastuzumab. We propose that the inhibition of HER2 cleavage and prevention of the production of an active truncated HER2 fragment represent a novel mechanism of action of trastuzumab.

Striatal input from the ventrobasal complex of the rat thalamus

We have analyzed whether caudal regions of the caudate putamen receive direct projections from thalamic sensory relay nuclei such as the ventrobasal complex. To this aim, the delivery of the retrograde neuroanatomical tracer Fluoro-Gold into the caudal caudate putamen resulted in the appearance of retrogradely labeled neurons in the ventral posteromedial and ventral posterolateral thalamic nuclei. These projections were further confirmed with injections of the anterograde tracers biotinylated dextran amine or Phaseolus vulgaris leucoagglutinin into these thalamic nuclei, by showing the existence of axonal terminal fields located in the caudal striatum. These results support the existence of direct projections linking the thalamic ventrobasal complex and the caudal striatum in the rat, probably via collateralization of thalamocortical axons when passing through the caudate putamen, and therefore supporting the putative involvement of the caudal striatum in sensory-related functions.

The carboxy-terminal cysteine of the tetraspanin L6 antigen is required for its interaction with SITAC, a novel PDZ protein

PDZ domains are protein modules that mediate protein-protein interactions. Here, we present the identification and characterization of a protein similar to the recently identified PDZ-containing protein TACIP18, which we have named SITAC (similar to TACIP18). SITAC is preferentially expressed in cells of the digestive tract, associated with intracellular membranes. Despite the high degree of sequence identity between the PDZ domains of TACIP18 and those of SITAC, none of the known ligands of the former shows interaction with the latter, as judged by two-hybrid analysis. SITAC interacts with peptides containing bulky hydrophobic amino acids two positions upstream of the C-terminal residue. Surprisingly, SITAC also shows interaction with peptides ending in C, a previously unacknowledged ability of PDZ domains. The sequence -Y-X-C-COOH, bound in vitro by SITAC, is present in the member of the tetraspanin superfamily, the L6 antigen. Coimmunoprecipitation experiments show that SITAC interacts with L6A, but not with an L6A C-terminal mutant, confirming the capacity of SITAC to interact with proteins ending in C. Confocal analysis shows that the interaction between L6A and SITAC is necessary for the precise colocalization of both molecules in the same subcellular compartment. In summary, the characterization of the protein SITAC has unveiled novel sequences recognized by PDZ domains, and it suggests that L6A is a natural ligand of this PDZ protein.

Complex brain circuits studied via simultaneous and permanent detection of three transported neuroanatomical tracers in the same histological section

Experimental neuroanatomical tracing methods lie at the basis of the study of the nervous system. When the scientific question is relatively straightforward, it may be sufficient to derive satisfactory answers from experiments in which a single neuroanatomical tracing method is applied. In various scientific paradigms however, for instance when the degree of convergence of two different projections on a particular cortical area or subcortical nucleus is the subject of study, the application of single tracing methods can be either insufficient or uneconomical to solve the questions asked. In cases where chains of projections are the subjects of study, the simultaneous application of two tracing methods or even more may be compulsory. The present contribution focuses on combinations of several neuroanatomical tract-tracing strategies, enabling in the end the simultaneous, unambiguous and permanent detection of three transported markers according to a three-color paradigm. A number of combinations of three tracers or of two tracers plus the immunocytochemical detection of a neuroactive substance can be conceived; we describe several of these combinations implemented by us using the present multitracer protocol.

Proteolytic processing and assembly of the C5 subunit into the proteasome complex

Assembly of mammalian 20 S proteasomes from individual subunits is beginning to be investigated. Proteasomes are made of four heptameric rings in the configuration alpha7beta7beta7alpha7. By using anti-proteasome and anti-subunit-specific antibodies, we characterized the processing and assembly of the beta subunit C5. The C5 precursor (25 kDa) remains as a free non-assembled polypeptide in the cell. The conversion of the C5 precursor to mature C5 (23 kDa) occurs concomitantly with its incorporation into 15 S proteasome intermediate and 20 S mature proteasome complexes. This processing is dependent on proteasome activity and takes place in the cytosol. These results are not fully compatible with the hypothesis that postulates that assembly of proteasomes takes place via a "half-proteasome" intermediate that contains one full alpha-ring and one full beta-ring of unprocessed beta subunit precursors.

Human MT6-matrix metalloproteinase: identification, progelatinase A activation, and expression in brain tumors

The localization of proteolytic enzymes at the cell surface is a widely used strategy for facilitating tumor invasion. In this study, we have cloned a new member of the membrane-type subfamily of matrix metalloproteinases (MT-MMPs), a group of enzymes associated with tumor progression. The cloned cDNA encodes a protein of 562 amino acids with a domain organization similar to that of other MT-MMPs, including a prodomain with a cysteine switch, a catalytic domain with the zinc-binding site, a hemopexin-like domain, and a COOH-terminal extension rich in hydrophobic residues. The predicted protein sequence also contains a short insertion of basic residues located between the propeptide and the catalytic domain and involved in the proteolytic activation of MT-MMPs by furin-like enzymes. Furthermore, immunofluorescence and Western blot analysis of COS-7 cells transfected with the isolated cDNA revealed that the encoded protein is localized at the cell surface. Based on these properties, this novel human matrix metalloproteinase has been called MT6-MMP because it is the sixth identified member of this subfamily of matrix metalloproteinase. Cotransfection of expression plasmids encoding MT6-MMP and progelatinase A resulted in activation of COS-7-secreted progelatinase A, as demonstrated by gelatin zymography. In contrast, transfection of progelatinase A cDNA alone did not lead to the activation of the proenzyme. Northern blot analysis of polyadenylated RNAs isolated from human tissues demonstrated that MT6-MMP is predominantly expressed in leukocytes, lung, and spleen. MT6-MMP was also detected at high levels in SW480 colon carcinoma cells as well as in some anaplastic astrocytomas and glioblastomas, but not in normal colon or brain or in meningiomas. On the basis of these results, we propose that MT6-MMP may facilitate tumor progression through its ability to activate progelatinase A at the membrane of cells from colon carcinomas or brain tumors.