A phase I clinical trial of PSMA-directed/TGFβ-insensitive CAR-T cells in metastatic castration-resistant prostate cancer

125

Background: Prostate specific membrane antigen (PSMA) is a highly expressed tumor-associated antigen potentially amenable to chimeric antigen receptor-modified T (CAR-T) cell therapy for castration-resistant prostate cancer (CRPC). However, a primary challenge to the success of CAR-T therapy in CRPC is the immunosuppressive microenvironment, characterized by high levels of TGFβ. The immunosuppressive functions of TGFβ can be inhibited in T cells using a dominant negative TGFβ receptor (TGFβRdn), thereby enhancing antitumor immunity. Methods: We conducted a first-in-human phase 1 clinical trial to evaluate the feasibility, safety and preliminary efficacy of PSMA-directed/TGFβ-insensitive CAR-T cells (CART-PSMA-TGFβRdn) in patients with metastatic CRPC (NCT03089203). In a 3+3 dose-escalation design, patients received a single dose of 1-3 x 107/m2 (Cohort 1) or 1-3 x 108/m2 (Cohort 2) CART-PSMA-TGFβRdn cells without lymphodepleting (LD) chemotherapy. In Cohort 3, one patient received 1-3 x 108/m2 CART-PSMA-TGFβRdn cells following a LD chemotherapy regimen of cyclophosphamide and fludarabine (Cy/Flu). In Cohort -3, three patients received 1-3 x 107/m2 CART-PSMA-TGFβRdn cells following Cy/Flu. Patients underwent metastatic tumor biopsies at baseline and on day 10 following treatment. Quantitative PCR of CART-PSMA-TGFβRdn DNA was performed at serial timepoints to evaluate for CAR-T expansion and persistence in peripheral blood and trafficking to target tissues. Multiplex cytokine analysis assessed CART-PSMA-TGFβRdn bioactivity. Results: Ten patients received CART-PSMA-TGFβRdn therapy across dose-level cohorts. All CART-PSMA-TGFβRdn infusion products met target transduction efficiency. Evaluation of CAR-T cellular kinetics demonstrated dose-dependent peripheral blood T cell expansion, as well as tumor tissue trafficking in post-treatment tumor biopsies. At Cohort 2 and above, 5 of 7 treated patients developed grade ≥2 cytokine release syndrome (CRS). Marked increases in inflammatory cytokines (IL-6, IL-15, IL-2, IFNγ) correlated with high-grade CRS events. One grade 5 adverse event (sepsis) occurred in Cohort 3. PSA decline was observed in 6 of 10 patients (median decline -33.2%, range -11.6% to -98.3%), and PSA30 response occurred in 4 of 10 patients (including one patient achieving PSA < 0.1 ng/mL). Conclusions: Adoptive cellular therapy with CART-PSMA-TGFβRdn is safe and feasible in patients with metastatic CRPC. A dose-dependent and lymphodepletion chemotherapy-dependent relationship was observed with CART-PSMA-TGFβRdn cell expansion, cytokine expression, CRS, and anti-tumor effect. Correlative cell trafficking and paired tumor Nanostring analyses will be presented. Future clinical investigations seek to enhance anti-tumor efficacy, while optimizing the therapeutic window. Clinical trial information: NCT03089203.

A phase I clinical trial of PSMA-directed/TGFβ-insensitive CAR-T cells in metastatic castration-resistant prostate cancer

TPS269

Background: Adoptive immunotherapy with Chimeric Antigen Receptor (CAR)-T cells is a novel approach for the treatment of prostate cancer. However, the prostate cancer immunosuppressive microenvironment, including high levels of TGFβ, may limit the therapeutic potential of re-directed T cells upon tumor infiltration. The inhibition of TGFβ signaling via co-expression of a dominant negative TGFβ receptor (TGFβRdn) can enhance antitumor immunity. Co-expression of TGFβRdn on PSMA-redirected CAR-T cells in in vivo disseminated tumor models led to increased T cell proliferation, enhanced cytokine secretion, resistance to exhaustion, long-term persistence, and greater induction of tumor eradication. Methods: We are conducting a first-in-human phase 1 clinical trial evaluating the safety and preliminary efficacy of lentivirally-transduced PSMA-redirected/TGFβ-insensitive CAR-T cells (CART-PSMA-TGFβRdn) in metastatic CRPC (NCT03089203). In a 3+3 dose-escalation design, patients received a single dose of 1-3 x 107/m2 (Cohort 1) or 1-3 x 108/m2 (Cohort 2) CART-PSMA-TGFβRdn cells without lymphodepleting chemotherapy. In Cohort 3, 1-3 x 108/m2 CART-PSMA-TGFβRdn cells are administered following a lymphodepleting chemotherapy regimen of cyclophosphamide and fludarabine (cy/flu). A currently accruing modified protocol seeks to optimize the therapeutic window with CART-PSMA-TGFβRdn (CAR-T dose of 1-3 x 107/m2 following lymphodepleting cy/flu). Eight patients have received a single dose of CART-PSMA-TGFβRdn. CAR-T expansion and persistence in peripheral blood and trafficking to target tissues is evaluated via quantitative PCR of CART-PSMA-TGFβRdn DNA. Bioactivity of CAR-T cells in peripheral blood is evaluated via multiplex immunoassays. Additional correlative analyses will interrogate the therapeutic contribution of TGFβRdn, as well as early markers of response and resistance to CART-PSMA-TGFβRdn therapy. Clinical trial information: NCT03089203.

Neurotoxicity after CTL019 in a pediatric and young adult cohort

OBJECTIVE

To characterize the incidence and clinical characteristics of neurotoxicity in the month following CTL019 infusion in children and young adults, to define the relationship between neurotoxicity and cytokine release syndrome (CRS), and to identify predictive biomarkers for development of neurotoxicity following CTL019 infusion.

METHODS

We analyzed data on 51 subjects, 4 to 22 years old, who received CTL019, a chimeric antigen receptor-modified T-cell therapy against CD19, between January 1, 2010 and December 1, 2015 through a safety/feasibility clinical trial (NCT01626495) at our institution. We recorded incidence of significant neurotoxicity (encephalopathy, seizures, and focal deficits) and CRS, and compared serum cytokine levels in the first month postinfusion between subjects who did and did not develop neurotoxicity.

RESULTS

Neurotoxicity occurred in 23 of 51 subjects (45%, 95% confidence interval = 31-60%) and was positively associated with higher CRS grade (p < 0.0001) but was not associated with demographic characteristics or prior oncologic treatment history. Serum interleukin (IL)-2, IL-15, soluble IL-4, and hepatocyte growth factor concentrations were higher in subjects with neurotoxicity than those with isolated CRS. Differences in peak levels of select cytokines including IL-12 and soluble tumor necrosis factor receptor-1 within the first 3 days were seen in subjects with neurotoxicity.

INTERPRETATION

Neurotoxicity is common after CTL019 infusion in children and young adults, and is associated with higher CRS grade. Differences in serum cytokine profiles between subjects with neurotoxicity and those with isolated CRS suggest unique pathophysiological mechanisms. Serum cytokine profiles in the first 3 days postinfusion may help identify children and young adults at risk for neurotoxicity, and may provide a foundation for investigation into potential mitigation strategies. Ann Neurol 2018;84:537-546.

A single dose of peripherally infused EGFRvIII-directed CAR T cells mediates antigen loss and induces adaptive resistance in patients with recurrent glioblastoma

We conducted a first-in-human study of intravenous delivery of a single dose of autologous T cells redirected to the epidermal growth factor receptor variant III (EGFRvIII) mutation by a chimeric antigen receptor (CAR). We report our findings on the first 10 recurrent glioblastoma (GBM) patients treated. We found that manufacturing and infusion of CAR-modified T cell (CART)-EGFRvIII cells are feasible and safe, without evidence of off-tumor toxicity or cytokine release syndrome. One patient has had residual stable disease for over 18 months of follow-up. All patients demonstrated detectable transient expansion of CART-EGFRvIII cells in peripheral blood. Seven patients had post-CART-EGFRvIII surgical intervention, which allowed for tissue-specific analysis of CART-EGFRvIII trafficking to the tumor, phenotyping of tumor-infiltrating T cells and the tumor microenvironment in situ, and analysis of post-therapy EGFRvIII target antigen expression. Imaging findings after CART immunotherapy were complex to interpret, further reinforcing the need for pathologic sampling in infused patients. We found trafficking of CART-EGFRvIII cells to regions of active GBM, with antigen decrease in five of these seven patients. In situ evaluation of the tumor environment demonstrated increased and robust expression of inhibitory molecules and infiltration by regulatory T cells after CART-EGFRvIII infusion, compared to pre-CART-EGFRvIII infusion tumor specimens. Our initial experience with CAR T cells in recurrent GBM suggests that although intravenous infusion results in on-target activity in the brain, overcoming the adaptive changes in the local tumor microenvironment and addressing the antigen heterogeneity may improve the efficacy of EGFRvIII-directed strategies in GBM.

Chimeric Antigen Receptor T Cells in Refractory B-Cell Lymphomas

BACKGROUND

Patients with diffuse large B-cell lymphoma or follicular lymphoma that is refractory to or that relapses after immunochemotherapy and transplantation have a poor prognosis. High response rates have been reported with the use of T cells modified by chimeric antigen receptor (CAR) that target CD19 in B-cell cancers, although data regarding B-cell lymphomas are limited.

METHODS

We used autologous T cells that express a CD19-directed CAR (CTL019) to treat patients with diffuse large B-cell lymphoma or follicular lymphoma that had relapsed or was refractory to previous treatments. Patients were monitored for response to treatment, toxic effects, the expansion and persistence of CTL019 cells in vivo, and immune recovery.

RESULTS

A total of 28 adult patients with lymphoma received CTL019 cells, and 18 of 28 had a response (64%; 95% confidence interval [CI], 44 to 81). Complete remission occurred in 6 of 14 patients with diffuse large B-cell lymphoma (43%; 95% CI, 18 to 71) and 10 of 14 patients with follicular lymphoma (71%; 95% CI, 42 to 92). CTL019 cells proliferated in vivo and were detectable in the blood and bone marrow of patients who had a response and patients who did not have a response. Sustained remissions were achieved, and at a median follow-up of 28.6 months, 86% of patients with diffuse large B-cell lymphoma who had a response (95% CI, 33 to 98) and 89% of patients with follicular lymphoma who had a response (95% CI, 43 to 98) had maintained the response. Severe cytokine-release syndrome occurred in 5 patients (18%). Serious encephalopathy occurred in 3 patients (11%); 2 cases were self-limiting and 1 case was fatal. All patients in complete remission by 6 months remained in remission at 7.7 to 37.9 months (median, 29.3 months) after induction, with a sustained reappearance of B cells in 8 of 16 patients and with improvement in levels of IgG in 4 of 10 patients and of IgM in 6 of 10 patients at 6 months or later and in levels of IgA in 3 of 10 patients at 18 months or later.

CONCLUSIONS

CTL019 cells can be effective in the treatment of relapsed or refractory diffuse large B-cell lymphoma and follicular lymphoma. High rates of durable remission were observed, with recovery of B cells and immunoglobulins in some patients. Transient encephalopathy developed in approximately one in three patients and severe cytokine-release syndrome developed in one in five patients. (Funded by Novartis and others; ClinicalTrials.gov number, NCT02030834 .).

Effect of chimeric antigen receptor-modified T (CAR-T) cells on responses in children with non-CNS extramedullary relapse of CD19+ acute lymphoblastic leukemia (ALL)

10507

Background: Anti-CD19 CAR-T cell therapies have shown high efficacy in inducing durable marrow responses in patients with relapsed/refractory CD19+ ALL. We now report on outcome of 10 patients with extramedullary (EM) involvement of ALL treated with CAR-T, including 5 patients who had EM disease at time of infusion. Methods: We identified patients treated on pediatric phase 1/2a trials of murine (CTL019) or humanized (CTL119) anti-CD19 CAR-T cells for isolated EM or BM/EM relapse of ALL. EM relapse was defined as involvement of non-CNS site by imaging +/- pathology within 12 months (mos) of infusion. Post infusion, patients had diagnostic imaging done at 1, 3, 6, 9, and 12 mos. Results: Among 97 patients receiving CAR-T, ten (CTL019, n=6; CTL119, n=4) were identified who had EM involvement on average 2.3 mos (range 0-9 mos) prior to infusion; including 5/10 at time of infusion. Sites of EM relapses included testes, sinus, parotid, bone, uterus, kidney and skin, and 5 patients had multiple sites of EM involvement. Patients ranged from 2-4 relapses of their ALL pre-CAR-T. Two had isolated EM relapse (sites were parotid and multifocal bony lesions in one; testis and sinus in second). All 10 patients had undergone hematopoietic stem cell transplantation prior to EM relapse, 2 had received radiation directed to the EM site prior to CAR-T. Five patients evaluated by serial imaging had objective responses: 2 had resolution of EM disease by day 28; 2 had resolution by 3 mos; 1 had continued decrease in size of uterine mass at 3 and 6 mos and underwent hysterectomy at 8 mos with no evidence of disease on pathology. In the 4 patients with prior history of skin or testicular involvement, there was no evidence by exam at day 28. One patient had progressive EM disease within 2 weeks of CAR-T cell infusion and died at 6 weeks. Three relapsed with CD19+ disease [1 skin/medullary- died at 38 mos post CAR-T; 2 medullary (1 died at 17 mos, 1 alive at 28 mos)]. The remaining 6 are alive and well at median follow-up of 10 mos (range 3-16 mos) without recurrence of disease. Conclusions: Single agent CAR-T immunotherapy can induce potent and durable responses in patients with EM relapse of their ALL. Clinical trial information: NCT01626495, NCT02374333.

The effect of pembrolizumab in combination with CD19-targeted chimeric antigen receptor (CAR) T cells in relapsed acute lymphoblastic leukemia (ALL)

103

Background: CD19-targeted CAR T cells show CR rates of 70-95% in B-ALL. Yet a subset of patients do not respond or relapse due to poor CAR T cell expansion and persistence. We hypothesized that PD-1 checkpoint pathway inhibition may improve CAR T cell expansion, function and persistence. Methods: Four children with relapsed B-ALL treated with murine (CTL019) or humanized (CTL119) anti-CD19 CAR T cells received 1-3 doses of the PD-1 inhibitor pembrolizumab (PEM) for partial/no response or prior history of poor CAR T cell persistence starting 14d-2mo post CAR T cell infusion. Results: PEM increased and/or prolonged detection of circulating CAR T cells in all 4 children, with objective responses in 2/4. It was well tolerated, with fever in 2 pts and no autoimmune toxicity. Pts 1-3 received CTL119 for CD19+ relapse after prior murine CD19 CAR T cells. Pt 1 had 1.2% CD19+ residual disease despite expansion with detectable CTL119 by D28 and received PEM at 2mo for progressive disease with decreasing circulating CTL119. CTL119 became detectable at 0.2% of CD3+ cells by flow cytometry, but disease progressed. Pt 2 had no response after initial CTL119 expansion with a rapid disappearance by D28. After CTL119 reinfusion with PEM added 14d later, circulating CAR T cells remained detectable at 4.4% by D28, but disease progressed with decreased CD19 expression. In Pt 3, prior treatment with both CTL019 and CTL119 produced CR with poor CAR T cell persistence followed by CD19+ relapse. CTL119 reinfusion combined with PEM at D14 resulted in CR with prolonged CTL119 persistence (detectable at D50 compared to loss by D36 after 1st CTL119 infusion). Pt 4 received PEM for widespread extramedullary (EM) involvement at D28 post CTL019 infusion despite marrow remission. Initial CTL019 expansion peaked at 63% at D10 and fell to 20% at D28. Resurgence of CTL019 expansion, with a 2nd peak of 70% 11d after PEM, was associated with dramatic reduction in PET-avid disease by 3mo post CTL019. Conclusions: PEM was safely combined with CAR T cells and increased or prolonged CAR T cell detection, with objective responses seen. Immune checkpoint pathways may impact response to CAR T cell treatments and warrant further investigation. Clinical trial information: NCT02374333, NCT02906371.

Effect of chimeric antigen receptor (CAR) T cells on clonal expansion of endogenous non-CAR T cells in patients (pts) with advanced solid cancer

3011

Background: CAR T cells have produced remarkable responses in heme malignancies, but efficacy in solid cancers is limited. Poor in vivo persistence and heterogeneous expression of the CAR target on tumors are potential barriers to the success of CAR T cell therapy. However, even with transient persistence, CAR T cells may elicit a “vaccine” effect by inducing cancer cell death and subsequent release of tumor antigens that could stimulate tumor-specific T cell activity. Methods: 6 pts with pancreatic ductal adenocarcinoma (PDAC) received repeated 3x per week intravenous (iv) infusions of mRNA-transfected mesothelin-redirected CAR T cells (CARTmeso). Pts with PDAC (n = 5), ovarian carcinoma (n = 5), and mesothelioma (n = 5) received iv infusion of lentiviral-transduced (lenti) CARTmeso with or without cyclophosphamide (Cy) preconditioning. Peripheral blood samples were collected from pts at baseline and defined time points after treatment. Genomic DNA from these samples or from pre-infused CAR T cell product was used for deep sequencing of the TCRbeta chain using the ImmunoSEQ platform. A TCRbeta clone was considered to have expanded from baseline to defined time points after treatment if it showed a two-fold change from baseline and met statistical significance by Fisher’s exact test (p < 0.05). Results: mRNA CARTmeso cells persisted in vivo for < 24 hrs. Unexpectedly, therapy induced clonal T cell expansion detected in the blood by day 14 in all 6 pts. Expanded clones underwent contraction by day 28 in 3 pts. In one pt, peripherally expanded clones were also detected in a tumor biopsy, but without significant intratumoral clonal expansion. Lenti CARTmeso therapy also induced peripheral expansion of T cell clones both present and not present in the infused CAR T cell product. However, with Cy preconditioning, clonal expansion seen after lenti CARTmeso therapy was predominately restricted to clones detected in the CAR T cell product. Conclusions: In pts with advanced solid cancers, CARTmeso stimulates clonal expansion of endogenous T cells, which is lost with Cy conditioning. Findings suggest that CAR T cells may elicit a “vaccine” effect with potential therapeutic implications.

Temporally controlled B cell depletion with universal chimeric antigen receptor (CAR) T cells for pemphigus vulgaris (PV) therapy

Therapy of PV relies on chronic immunosuppression, which results in significant morbidity. Complete, transient B cell depletion should cure PV, since autoreactive clones do not recur upon regeneration of the B cell repertoire. Engineered CAR T cells (CARTs) are the most potent means for total B cell depletion, but for therapy of autoimmunity, temporal control of CART activity is necessary to prevent lasting immunosuppression. Here we validate 3 novel strategies to control CART survival and function. We combined a B cell targeting CAR with an inducible caspase 9 suicide gene (sCAR), a reverse (constitutively active) suicide gene (revCAR), or a molecular on-switch that permits CAR surface expression (onCAR). sCAR, revCAR and onCARTs showed potent in vitro killing equivalent to conventional CARTs. Activation of the respective regulatory system resulted in in vitro depletion of &gt;95% of sCART and revCARTs and loss of CAR expression in onCARTs. In an in vivo leukemia model, &gt;90% of sCARTs were eliminated (p&lt;0.01) as compared to vehicle treated mice, while preserving their efficacy before suicide gene activation (p&lt;0.001). RevCARTs showed complete loss of leukemia control in vivo in the absence of a suicide-preventing compound (p&lt;0.01), indicating their functional depletion in vivo. Finally, to allow universal (allogeneic) CART therapy, we used CRISPR genome editing to disrupt endogenous T cell receptor and MHCI expression. Universal sCARTs caused total B cell depletion in a humanized allogeneic BLT mouse model (p&lt;0.05) with complete in vivo depletion of sCARTs. In summary, we present 3 novel strategies to regulate CARTs, which provide a platform for curative, universal, and large-scale applications in PV and other autoimmune diseases.

Dual CD19 and CD123 targeting prevents antigen-loss relapses after CD19-directed immunotherapies

Potent CD19-directed immunotherapies, such as chimeric antigen receptor T cells (CART) and blinatumomab, have drastically changed the outcome of patients with relapsed/refractory B cell acute lymphoblastic leukemia (B-ALL). However, CD19-negative relapses have emerged as a major problem that is observed in approximately 30% of treated patients. Developing approaches to preventing and treating antigen-loss escapes would therefore represent a vertical advance in the field. Here, we found that in primary patient samples, the IL-3 receptor α chain CD123 was highly expressed on leukemia-initiating cells and CD19-negative blasts in bulk B-ALL at baseline and at relapse after CART19 administration. Using intravital imaging in an antigen-loss CD19-negative relapse xenograft model, we determined that CART123, but not CART19, recognized leukemic blasts, established protracted synapses, and eradicated CD19-negative leukemia, leading to prolonged survival. Furthermore, combining CART19 and CART123 prevented antigen-loss relapses in xenograft models. Finally, we devised a dual CAR-expressing construct that combined CD19- and CD123-mediated T cell activation and demonstrated that it provides superior in vivo activity against B-ALL compared with single-expressing CART or pooled combination CART. In conclusion, these findings indicate that targeting CD19 and CD123 on leukemic blasts represents an effective strategy for treating and preventing antigen-loss relapses occurring after CD19-directed therapies.

Measuring IL-6 and sIL-6R in serum from patients treated with tocilizumab and/or siltuximab following CAR T cell therapy

T cells expressing a CD19-specific chimeric antigen receptor (CAR19) are demonstrating remarkable efficacy in hematologic malignancies. Treatment is often associated with life-threatening cytokine release syndrome (CRS) which can be effectively treated with cytokine blockade using the antibodies, Siltuximab or Tocilizumab respectively targeting IL-6 or the IL-6 receptor. As IL-6 blockade is moving into the clinic for the treatment of CRS as well as IL-6-driven rheumatologic and malignant diseases, clinicians are utilizing serum cytokine panels more frequently to assess the effects of IL-6 inhibitors. It is paramount to ascertain whether levels obtained are accurate, especially as certain drugs may, in theory, affect quantification. We report the comparative quantification of IL-6 and sIL-6R using Luminex-based immunoassay kits from two vendors. Our results indicate good agreement of the commercial immunoassays in measurement of IL-6 but disagreement in quantitation of sIL-6R. We found that both Siltuximab and Tocilizumab can interfere with the measurement of their respective ligands using reagents from one vendor but not the second. This has significant implications for the analysis of IL-6 and sIL-6R pharmacokinetics analysis in Siltuximab or Tocilizumab-treated patients. We found that high levels of IL-6 can falsely reduce the measured levels of sIL-6R and high levels of sIL-6R can reduce levels of IL-6 when measured with some commercial assays. These data demonstrate the importance of assessing the impact of cytokine-blocking agents on accuracy of clinical biomarker assays in other diseases, as drugs targeting TNF-alpha, IL1B, and IL5 are being used more frequently in a large number of diseases.

CMV-specific T cells generated from naïve T cells recognize atypical epitopes and may be protective in vivo

Adoptive transfer of cytomegalovirus (CMV)-specific T cells derived from adult seropositive donors can effectively restore antiviral immunity after transplantation. However, CMV-seronegative donors lack CMV-specific memory T cells, which restricts the availability of virus-specific T cells for immunoprophylaxis. We demonstrate the feasibility of deriving CMV-specific T cells from naïve cells for T cell therapy. Naïve T cells primed to recognize CMV were restricted to different, atypical epitopes than T cells derived from CMV-seropositive individuals; however, these two cell populations had similar avidities. CMV-seropositive individuals also had T cells recognizing these atypical epitopes, but these cells had a lower avidity than those derived from the seronegative subjects, which suggests that high-avidity T cells to these epitopes may be lost over time. Indeed, recipients of cord blood (CB) grafts who did not develop CMV were found by clonotypic analysis to have T cells recognizing atypical CMVpp65 epitopes. Therefore, we examined unmanipulated CB units and found that T cells with T cell receptors restricted by atypical epitopes were the most common, which may explain why these T cells expanded. When infused to recipients, naïve donor-derived virus-specific T cells that recognized atypical epitopes were associated with prolonged periods of CMV-free survival and complete remission. These data suggest that naïve-derived T cells from seronegative patients may be an additional source of cells for CMV immunoprophylaxis.

Convergence of Acquired Mutations and Alternative Splicing of CD19 Enables Resistance to CART-19 Immunotherapy

The CD19 antigen, expressed on most B-cell acute lymphoblastic leukemias (B-ALL), can be targeted with chimeric antigen receptor-armed T cells (CART-19), but relapses with epitope loss occur in 10% to 20% of pediatric responders. We detected hemizygous deletions spanning the CD19 locus and de novo frameshift and missense mutations in exon 2 of CD19 in some relapse samples. However, we also discovered alternatively spliced CD19 mRNA species, including one lacking exon 2. Pull-down/siRNA experiments identified SRSF3 as a splicing factor involved in exon 2 retention, and its levels were lower in relapsed B-ALL. Using genome editing, we demonstrated that exon 2 skipping bypasses exon 2 mutations in B-ALL cells and allows expression of the N-terminally truncated CD19 variant, which fails to trigger killing by CART-19 but partly rescues defects associated with CD19 loss. Thus, this mechanism of resistance is based on a combination of deleterious mutations and ensuing selection for alternatively spliced RNA isoforms.

SIGNIFICANCE

CART-19 yield 70% response rates in patients with B-ALL, but also produce escape variants. We discovered that the underlying mechanism is the selection for preexisting alternatively spliced CD19 isoforms with the compromised CART-19 epitope. This mechanism suggests a possibility of targeting alternative CD19 ectodomains, which could improve survival of patients with B-cell neoplasms.

Chimeric antigen receptor T cells persist and induce sustained remissions in relapsed refractory chronic lymphocytic leukemia

Patients with multiply relapsed or refractory chronic lymphocytic leukemia (CLL) have a poor prognosis. Chimeric antigen receptor (CAR)-modified T cells targeting CD19 have the potential to improve on the low complete response rates with conventional therapies by inducing sustained remissions in patients with refractory B cell malignancies. We previously reported preliminary results on three patients with refractory CLL. We report the mature results from our initial trial using CAR-modified T cells to treat 14 patients with relapsed and refractory CLL. Autologous T cells transduced with a CD19-directed CAR (CTL019) lentiviral vector were infused into patients with relapsed/refractory CLL at doses of 0.14 × 10(8) to 11 × 10(8) CTL019 cells (median, 1.6 × 10(8) cells). Patients were monitored for toxicity, response, expansion, and persistence of circulating CTL019 T cells. The overall response rate in these heavily pretreated CLL patients was 8 of 14 (57%), with 4 complete remissions (CR) and 4 partial remissions (PR). The in vivo expansion of the CAR T cells correlated with clinical responses, and the CAR T cells persisted and remained functional beyond 4 years in the first two patients achieving CR. No patient in CR has relapsed. All responding patients developed B cell aplasia and experienced cytokine release syndrome, coincident with T cell proliferation. Minimal residual disease was not detectable in patients who achieved CR, suggesting that disease eradication may be possible in some patients with advanced CLL.

Chimeric Antigen Receptor T Cells: Self-Replicating Drugs for Cancer

The chimeric antigen receptor (CAR) technology started out as a tool to understand lymphocyte biology but rapidly developed into a T cell therapeutic agent for the treatment of cancers. Here, we describe the technological advances in the field of CARs and highlight critical components of its success. Additionally, we describe how various laboratories have worked toward developing new, safer, and more potent CARs for cancer.

Chimeric antigen receptor T cells for sustained remissions in leukemia

BACKGROUND

Relapsed acute lymphoblastic leukemia (ALL) is difficult to treat despite the availability of aggressive therapies. Chimeric antigen receptor-modified T cells targeting CD19 may overcome many limitations of conventional therapies and induce remission in patients with refractory disease.

METHODS

We infused autologous T cells transduced with a CD19-directed chimeric antigen receptor (CTL019) lentiviral vector in patients with relapsed or refractory ALL at doses of 0.76×10(6) to 20.6×10(6) CTL019 cells per kilogram of body weight. Patients were monitored for a response, toxic effects, and the expansion and persistence of circulating CTL019 T cells.

RESULTS

A total of 30 children and adults received CTL019. Complete remission was achieved in 27 patients (90%), including 2 patients with blinatumomab-refractory disease and 15 who had undergone stem-cell transplantation. CTL019 cells proliferated in vivo and were detectable in the blood, bone marrow, and cerebrospinal fluid of patients who had a response. Sustained remission was achieved with a 6-month event-free survival rate of 67% (95% confidence interval [CI], 51 to 88) and an overall survival rate of 78% (95% CI, 65 to 95). At 6 months, the probability that a patient would have persistence of CTL019 was 68% (95% CI, 50 to 92) and the probability that a patient would have relapse-free B-cell aplasia was 73% (95% CI, 57 to 94). All the patients had the cytokine-release syndrome. Severe cytokine-release syndrome, which developed in 27% of the patients, was associated with a higher disease burden before infusion and was effectively treated with the anti-interleukin-6 receptor antibody tocilizumab.

CONCLUSIONS

Chimeric antigen receptor-modified T-cell therapy against CD19 was effective in treating relapsed and refractory ALL. CTL019 was associated with a high remission rate, even among patients for whom stem-cell transplantation had failed, and durable remissions up to 24 months were observed. (Funded by Novartis and others; CART19 ClinicalTrials.gov numbers, NCT01626495 and NCT01029366.).

Graft versus leukemia response without graft-versus-host disease elicited by adoptively transferred multivirus-specific T-cells

A 12-year-old boy with refractory acute lymphoblastic leukemia received a haploidentical transplant from his mother. As prophylaxis for Epstein-Barr virus (EBV), cytomegalovirus (CMV) and adenovirus, he received ex vivo expanded virus-specific donor T cells 3.5 months after transplant. Four weeks later leukemic blasts bearing the E2A deletion, identified by fluorescent in situ hybridization (FISH), appeared transiently in the blood followed by a FISH-negative hematological remission, which was sustained until a testicular relapse 3.5 months later. Clearance of the circulating leukemic cells coincided with a marked increase in circulating virus-specific T cells. The virus-specific cytotoxic T-cell (CTL) line showed strong polyfunctional reactivity with the patient's leukemic cells but not phytohemagglutinin (PHA) blasts, suggesting that virus-specific CTL lines may have clinically significant antileukemia activity.

Generation of multi-leukemia antigen-specific T cells to enhance the graft-versus-leukemia effect after allogeneic stem cell transplant

Adoptive immunotherapy with ex vivo expanded T cells is a promising approach to prevent or treat leukemia. Myeloid leukemias express tumor-associated antigens (TAA) that induce antigen-specific cytotoxic T lymphocyte (CTL) responses in healthy individuals. We explored the feasibility of generating TAA-specific CTLs from stem cell donors of patients with myeloid leukemia to enhance the graft-versus-leukemia effect after stem cell transplantation. CTL lines were manufactured from peripheral blood of 10 healthy donors by stimulation with 15mer peptide libraries of five TAA (proteinase 3 (Pr3), preferentially expressed antigen in melanoma, Wilms tumor gene 1 (WT1), human neutrophil elastase (NE) and melanoma-associated antigen A3) known to be expressed in myeloid leukemias. All CTL lines responded to the mix of five TAA and were multi-specific as assessed by interferon-γ enzyme-linked immunospot. Although donors showed individual patterns of antigen recognition, all responded comparably to the TAAmix. Immunogenic peptides of WT1, Pr3 or NE could be identified by epitope mapping in all donor CTL lines. In vitro experiments showed recognition of partially human leukocyte antigen (HLA)-matched myeloid leukemia blasts. These findings support the development of a single clinical grade multi-tumor antigen-specific T-cell product from the stem cell source, capable of broad reactivity against myeloid malignancies for use in donor-recipient pairs without limitation to a certain HLA-type.

Abstract 4776: Properties of allogeneic WT1126–134-specific CD8+ T cells generated across an HLA A2 barrier

T cells recognizing self-antigens overexpressed in malignant cells such as the Wilms tumor 1 protein (WT1) may contribute to anti-tumor reactivity after both allogeneic and autologous stem cell transplantation. HLA A*0201-restricted WT1-reactive CD8+ T cells recognizing peptide-loaded HLA-A2+ target cells have been isolated from both HLA-A2 negative and positive donors. HLA-A2-restricted WT1-specific CD8+ T cells generated from HLA-A2 positive donors are likely to be specific for the WT1 peptide, but may show only low reactivity against targets presenting endogenous WT1 antigen due to thymic deletion of high avidity T cells. In contrast, HLA-A2-restricted WT1-specific T cells generated from HLA-A2 negative donors may be highly reactive against these targets, but with increased risk for cross-reactivity. To explore the possibility of generating highly WT1-reactive CTL across an HLA barrier, EBV-transformed lymphoblastic B cell lines (EBV-LCL) were transduced with a retroviral HLA-A2 construct, loaded with WT1126–134, and used to stimulate autologous CD8-selected T cells. Several T cell clones and lines were generated and sorted with wildtype WT1 tetramer. All T cell clones and lines selected for functional analysis stained brightly with WT1/A2 tetramers, but not with irrelevant HLA-A2 control tetramers (PR1, PRAME300–309, CMVpp65495–503), indicating specificity for the WT1 peptide presented in HLA-A2. Four lines screened against a panel of HLA-A2+ and HLA-A2- EBV-LCL recognized HLA -A2+ and one HLA-A2-, HLA-B57+ LCL. Autologous PHA blasts were not recognized, indicating specificity for EBV-derived antigens presented in the context of both HLA-A2 and -B57. Of five clones and one line tested only two showed true WT1126–134 specificity, whereas the other clones and line recognized any HLA-A2+ target cell without exogenously loaded WT1 peptide. Sequence analysis of the T cell receptor (TCR)-α and β genes showed that the WT1-specific CD8 T cell clones differed from the pan-HLA-A2-recognizing clones at only two positions in the TCRα third complementarity determining region. In conclusion, high avidity anti-WT1126–134 CD8 T cell responses could be generated in the HLA-A2 mismatch setting; however, the response was dominated by a WT1-independent, promiscuous HLA-A2 reactivity that could be hazardous after allogeneic transplantation.

Citation Format: {Authors}. {Abstract title} [abstract]. In: Proceedings of the 101st Annual Meeting of the American Association for Cancer Research; 2010 Apr 17-21; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2010;70(8 Suppl):Abstract nr 4776.

The transfer of adaptive immunity to CMV during hematopoietic stem cell transplantation is dependent on the specificity and phenotype of CMV-specific T cells in the donor

The successful reconstitution of adaptive immunity to human cytomegalovirus (CMV) in hematopoietic stem cell transplantation (HSCT) recipients is central to the reduction of viral reactivation-related morbidity and mortality. Here, we characterized the magnitude, specificity, phenotype, function, and clonotypic composition of CMV-specific T-cell responses in 18 donor-recipient pairs both before and after HSCT. The principal findings were: (1) the specificity of CMV-specific T-cell responses in the recipient after HSCT mirrors that in the donor; (2) the maintenance of these targeting patterns reflects the transfer of epitope-specific T-cell clonotypes from donor to recipient; (3) less differentiated CD27(+)CD57(-) CMV-specific memory T cells are more likely to persist in the recipient after HSCT compared with more terminally differentiated CD27(-) CD57(+) CMV-specific memory T cells; (4) the presence of greater numbers of less differentiated CD8(+) CMV-specific T cells in the donor appears to confer protection against viral reactivation in the recipient after HSCT; and (5) CMV-specific T cells acquire a more differentiated phenotype and a restricted functional profile after HSCT. Overall, these findings define the immunologic factors that influence the successful adoptive transfer of antigen-specific T-cell immunity during HSCT, which enables the identification of recipients at particular risk of CMV reactivation after HSCT.

Regulatory T-cell depletion does not prevent emergence of new CD25+ FOXP3+ lymphocytes after antigen stimulation in culture

BACKGROUND

The removal of human regulatory T (T(reg)) cells from a cellular product prior to the induction of a T-cell response has the potential to boost the total yield of antigen (Ag)-specific CD4(+) and CD8(+) T cells.

METHODS

We examined the effect of this manipulation on the generation of human anti-cytomegalovirus (CMV) T-cell responses. Furthermore, we examined the clonotypic composition of Ag-specific CD4(+)FOXP3(+) and CD4(+)FOXP3(-) T cells.

RESULTS

We found that the immunomagnetic depletion of CD25(+) cells had an unpredictable effect on outcome, with total yields of CMV-specific T cells either increasing or decreasing after the removal of these cells. The depletion of CD25(+) cells both removed a proportion of Ag-specific T cells and failed to eliminate a substantial population of T(reg) cells. Furthermore, using a novel T-cell receptor clonotyping technique, we found that Ag recognition induces the expression of FOXP3 in a proportion of specific T cells; these FOXP3-expressing Ag-specific CD4(+) and CD8(+) T cells were no longer capable of producing inflammatory cytokines.

DISCUSSION

The depletion of CD25(+) cells from the starting population has a variable effect on the total yield of Ag-specific T cells, a proportion of which invariably acquire FOXP3 expression and lose effector function.

The clonal composition of human CD4+CD25+Foxp3+ cells determined by a comprehensive DNA-based multiplex PCR for TCRB gene rearrangements

The characterization of the T-cell receptor (TCR) repertoire of CD4+ regulatory T cells (T(R)) has been limited due to the RNA degradation that results following permeabilization and fixation as routinely used for intracellular staining of Foxp3. In the present study the clonal composition of human umbilical cord blood (UCB) and adult peripheral blood mononuclear cell (PBMC) CD4+ T(R) and non-T(R) was characterized by a DNA-based multiplex PCR which allowed for the consistent clonotypic characterization of cells that have undergone fixation and permeabilization. To validate this method, CD8+ T cells from two HLA A()0201 individuals were sorted and compared clonotypically based upon their ability either to secrete interferon-gamma in response to a CMV pp65 epitope or to bind to the corresponding pMHC I tetramer. Clonotypes shared between the CD4+CD25+Foxp3+ and CD4+CD25+Foxp3- subsets were observed in all 3 UCB and in one adult PBMCs, suggesting that naïve and memory CD4+ T(R) can share the same clonotypes as CD4+ non-T(R) in humans.

An APC for every occasion: induction and expansion of human Ag-specific CD4 and CD8 T cells using cellular and non-cellular APC

APC are used extensively to induce and expand Ag-specific T cells as well as to test their specificity and function. In the treatment of malignant and infectious diseases, APC are used to stimulate and expand Ag-specific T cells for adoptive transfer, or used directly in vivo to present Ag. The choice of APC to use depends on the particular application and on practical considerations, which include ease of production, availability, reproducibility and (for clinical use) established safety. The diversity of APC in use partly reflects the fact that no single technique of Ag presentation is ideal. For the clinician and laboratory worker alike the field can seem illogical and confusing. In this review we outline the functional requirements of APC for the induction of T cells, classify the APC in common use and describe their laboratory and clinical applications.

Autoreactive, cytotoxic T lymphocytes specific for peptides derived from normal B-cell differentiation antigens in healthy individuals and patients with B-cell malignancies

PURPOSE

To investigate potential immunotherapeutic strategies in B lymphocytic malignancies we looked for CTLs recognizing CD19 and CD20 epitopes.

EXPERIMENTAL DESIGN

Three CD19 and CD20 peptides binding to HLA-A*0201 were identified and used to detect peptide specific CTLs by a quantitative real-time PCR to measure IFN-gamma mRNA expression in 23 healthy individuals and 28 patients (18 chronic lymphocytic leukemia (CLL), 7 follicular lymphoma, 2 acute lymphocytic leukemia, and 1 large cell lymphoma). Peptide-specific CTLs were expanded in culture with CD40-activated B cells to test lytic activity in three patients.

RESULTS

In healthy individuals, CD8+ T-cell responses were detected in one to CD19(74-82), in three to CD20(127-135), and three to CD20(188-196). Seven of 27 patients (6 with CLL) had CD8+ T cells recognizing CD19(74-82). Seven patients responded to CD20(127-135) and three to CD20(188-196). All were CLL patients. CD19(74-82)-specific CTLs from three patients were expanded over 4 weeks. These cells were HLA-A*0201 specific and lytic for peptide-loaded antigen-presenting cells but not to malignant or unpulsed B cells.

CONCLUSIONS

CTLs that recognize CD19 and CD20 epitopes exist in healthy individuals and may be increased in CLL patients. They are of low avidity and require high doses of peptide for activation. Strategies to increase T-cell avidity would be necessary for T-cell immunotherapeutic approaches using the peptides studied.

Flow cytometric quantitation and characterization of the T-lymphocyte memory response to CMV in healthy donors

BACKGROUND

Levels of circulating CMV Ag-specific lymphocytes determine CMV reactivation risk in immunocompromised individuals.

METHODS

Frequencies of T cells producing cytokines after stimulation by CMV Ag were measured in hematopoietic stem-cell donors using flow cytometry.

RESULTS

In seropositive individuals (n = 75) the mean number of CD8(+) (CD8(bright), CD8(dim)) and CD4(+) cells producing IFN-gamma was respectively 3.1% (12.6/microL) and 0.38% (3.2/microL), over 10-fold higher than in seronegative subjects (n = 22). CMV stimulation induced tumor necrosis factor-alpha (TNF-alpha) and interferon-gamma (IFN-gamma) in both CD4(+) and CD8(+) cells (usually together), with a shift from memory- to effector-cell phenotype, while only a small proportion of CD4(+) cells produced IL-4. Although the normal range was wide, neither age, sex nor HLA type affected the frequency.

DISCUSSION

These quantitative studies and the recognition of CD4(+) cells as potential effectors of CMV immunity are of relevance for immunotherapeutic approaches to prevent CMV disease after stem-cell transplantation.

CD8+ T cells in large granular lymphocyte leukemia are not defective in activation- and replication-related apoptosis

Persistent lymphocytosis in large granular lymphocyte leukemia (LGL) may result from defects in activation- or Fas crosslinking-induced cell death. Here we show that Fas crosslinking and CD3 activation causes apoptosis of in vitro activated CD8 T cells, but not of freshly isolated CD8 T cells. Death was partially blocked by a neutralizing antibody to FasL. Inhibition of metalloproteinase-mediated FasL solubilization significantly potentiated induction of cell death. Furthermore, CD3 plus CD28 stimulation resulted in telomeric erosion in LGL cells, and ultimately proliferation ceased. Together, these data indicate that activation- and proliferation-related cell death mechanisms are functional in LGL cells.

Large granular lymphocyte leukaemia is characterized by a clonal T-cell receptor rearrangement in both memory and effector CD8(+) lymphocyte populations

Large granular lymphocyte (LGL) leukaemia is a disease with increased numbers of circulating granular lymphocytes and an increased percentage of clonally rearranged CD8(+)CD57(+) cells. To determine whether LGL cells are also found in other lymphocyte subsets, CD8(+) cells from 10 LGL patients were sorted into CD57(+) and CD57(-) fractions and analysed for clonality using a T-cell receptor gamma (TCR gamma) polymerase chain reaction (PCR). In nine patients, a clonal TCR rearrangement was identified in the CD8(+)CD57(+) cells, and in one patient, the TCR rearrangement was oligoclonal in the CD8(+)CD57(+) fraction. In eight out of nine of the clonally rearranged patients, the same band was also present in the CD8(+)CD57(-) fraction. To define the relationship between CD57(-) and CD57(+) LGL populations, CD8(+)CD57(-) and CD8(+)CD57(+) cells were sorted from five patients and cultured in the presence of anti-CD3 plus CD28 antibodies. The CD57(+) cells died of apoptosis before d 7, while the CD57(-) cells proliferated and differentiated into CD57(+) cells. Clonal analysis identified the same band in both cultured subpopulations and in the uncultured CD8(+) cells. Immunophenotypical analysis showed that CD8(+)CD57(-) cells expressed memory cell markers, while the CD8(+)CD57(+) cells exhibited effector characteristics. These results suggest that LGL disease originates in a CD57(-) memory T-cell compartment that continually generates CD57(+) (effector cell) progeny.

T cells selectively infiltrate bone marrow areas with residual haemopoiesis of patients with acquired aplastic anaemia

Aplastic anaemia (AA) is characterized by pancytopenia and bone marrow (BM) hypocellularity. In some patients AA may be mediated by T cells. To localize inflammatory cell infiltrates, we carried out a quantitative immunohistochemical analysis of BM biopsies of AA patients. In five out of eight biopsies, significantly higher numbers T cells were found in the areas with residual haemopoiesis (RH). The significantly increased numbers of CD3+ T cells in areas with RH supports the hypothesis of a site-directed infiltration and/or a local proliferation of T cells in the BM of patients with AA.

Analysis of T-cell clonality in bone marrow of patients with acquired aplastic anaemia

Acquired aplastic anaemia (AA) represents a state of bone marrow (BM) failure which is characterized by BM hypocellularity and pancytopenia. It has been hypothesized that in some AA patients, bone marrow failure is secondary to the targeted destruction of haemopoietic stem cells by autoreactive T cells. The response of T cells to antigenic stimulation has been shown, in a number of animal models and in autoimmune diseases, to result in the (oligo)clonal expansion of positively reacting T cells. For this reason, we studied the utilization of 24 T-cell receptor-variable gene segments (TCRBV) and the clonality in BM aspirates and peripheral blood (PB) of seven AA patients. BM from transplant donors served as controls. Determination of TCRBV gene segment usage revealed no significant differences between patients and controls. Clonality within each family was analysed by single-strand conformation polymorphism (SSCP) analysis. Clonal and clonally predominant bands were seen in BM of three AA patients in five to eight TCRBV families. Clonal rearrangements were encountered less often in BM of control subjects. In conclusion, our results suggest an antigen-driven T-cell response in the BM of predominantly AA patients resulting in oligoclonal T-cell outgrowth.

Persistent clonal excess and skewed T-cell repertoire in T cells from patients with hairy cell leukemia

Hairy cell leukemia (HCL) is characterized by a severe T-cell-mediated immune deficiency. At the same time, spontaneous T-cell activation is noted when splenic T cells are studied in vivo and in vitro. Therefore, we searched for oligoclonal T-cell populations in the blood and spleens of 25 patients with HCL using a T-cell receptor gamma-polymerase chain reaction (TCR gamma-PCR). Subsequently, in 6 patients, the CDR3 length and conformation from 22 different TCRBV subfamilies were analyzed after PCR amplification of cDNA using TCRBV subfamily-specific primers. T cells from 15 of 25 HCL patients showed clonal excess by the TCR gamma-PCR. In fluorescence-activated cell sorted T-cell subsets, more clonal bands were observed than in the unseparated T cells, with most of these in CD8+ subsets, but also in CD4+, CD3+ gamma/delta+, and a double-negative CD3+ alpha/beta+ subset. In other B-cell malignancies, 6 of 16 samples showed oligoclonal T cells, whereas only 2 of 18 normal spleen and blood samples showed abnormal bands. Analysis of the TCRBV subfamilies disclosed in all 6 HCL patients a markedly abnormal pattern, with many clonal bands in 5 to 15 subfamilies, and absent or abnormal weak patterns in another 1 to 8 subfamilies. In comparison, 6 normal samples (2 spleens and 4 blood samples) showed in only 1 blood donor 1 clonal band. Two patients with active HCL but without infections or treatment were tested several times during the course of the disease and showed a complete identical skewed T-cell repertoire with the same oligoclonal T-cell populations. In conclusion, T cells in the blood and spleen of HCL patients show impressive abnormalities with many oligoclonal T-cell populations and a very restricted and skewed TCRBV repertoire.

Aplastic anaemia patients with clonal X-chromosome inactivation pattern in haemopoietic cells exhibit polyclonal TCRgamma and IgH gene rearrangements

Previously, we reported that 13/18 (72%) female patients with aplastic anaemia (AA) exhibited a clonal X-chromosome inactivation (XCI) pattern in all haemopoietic lineages. To study the consequences of a clonal haemopoiesis for the randomness of immunoreceptor rearrangements in lymphocytes we determined clonality of T-cell receptor gamma (TCRgamma) and immunoglobulin heavy chain (IgH) gene rearrangements in purified cell fractions. Peripheral blood granulocytes, monocytes, and B and T lymphocytes from 18 female patients in remission from AA were studied by PCR for randomness of XCI and rearrangement at the IgH and TCRgamma locus. 13 patients were informative at the phosphoglycerate kinase-1 (PGK1) and monoamine oxidase A (MAOA) loci. Five of them displayed an clonal XCI pattern in all lineages studied and one patient had a clonal XCI in all lineages, except the T cells. In three cases skin biopsies were also available, exhibiting a polyclonal pattern in two of them, and a reversed skewed pattern in the third. Analysis of the rearrangement patterns at the immunoreceptor loci revealed a polyclonal ladder of bands, irrespective of XCI status in the lymphocyte populations. These results demonstrated that in AA a clonal XCI pattern of the lymphoid compartment is compatible with a polyclonal immunoreceptor rearrangement pattern.

Are thrombocyte membranes altered in Alzheimer's disease? A morphometric and biochemical study

Morphometric analysis of thrombocytes from patients with Alzheimer's disease, from patients with multi-infarct dementia, and from young and age-matched healthy control donors, did not reveal any Alzheimer-related increase in internal membranes. Biochemical analysis showed a reduced cholesterol content of thrombocyte membrane preparations from Alzheimer patients relative to age-matched controls, but not relative to multi-infarct dementia patients. Overall distribution of protein kinase C activity (PKC) between cytosol and membrane, in resting as well as in activated thrombocytes from Alzheimer patients, was similar to that in the control groups. However, both Alzheimer and multi-infarct dementia patients had lower cytosolic levels of basal kinase and PKC activities than age-matched controls, while only Alzheimer patients had lower cytoskeletal PKC activity than controls.

Different mutations in the COL4A5 collagen gene in two patients with different features of Alport syndrome

Alport syndrome is a hereditary renal disease in which progressive renal failure is often accompanied by sensorineural deafness and ocular abnormalities. Recently, mutations were detected in the type IV collagen alpha 5 chain gene in Alport syndrome patients. We searched for mutations in this gene in 18 unrelated patients, and in two patients abnormalities were detected. In the gene of patient BB we identified a complex deletion, which included the exons encoding the non-collagenous domain and part of the collagenous region. This patient showed early onset nephritis (end-stage renal disease at 17 years) with deafness. Within a year after receiving a kidney from an unrelated donor, he developed an antiglomerular basement membrane nephritis. In patient WJ a point-mutation was detected, changing a tryptophane into a serine in the non-collagenous domain. His clinical features are milder (renal failure at 33 years, no hearing loss), and a recent renal allograft did not provoke antiglomerular basement membrane disease. These initial data suggest that differences in the extent of disruption of the non-collagenous domain may correlate with the severity and/or heterogeneity of Alport syndrome and with the development of nephritis in renal allografts.