Gene expression profiles of progressive pancreatic endocrine tumours and their liver metastases reveal potential novel markers and therapeutic targets
The intrinsic nature of tumour behaviour (stable vs progressive) and the presence of liver metastases are key factors in determining the outcome of patients with a pancreatic endocrine tumour (PET). Previous expression profile analyses of PETs were limited to non-homogeneous groups or to primary lesions only. The aim of this study was to investigate the gene expression profiles of a more uniform series of sporadic, non-functioning (NF) PETs with progressive disease and, for the first time, their liver metastases, on the Affymetrix human genome U133A and B GeneChip set. Thirteen NF PET samples (eight primaries and five liver metastases) from ten patients with progressive, metastatic disease, three cell lines (BON, QGP and CM) and four purified islet samples were analysed. The same samples were employed for confirmation of candidate gene expression by means of quantitative RT-PCR, while a further 37 PET and 15 carcinoid samples were analysed by immunohistochemistry. Analysis of genes differentially expressed between islets and primaries and metastases revealed 667 up-and 223 down-regulated genes, most of which have not previously been observed in PETs, and whose gene ontology molecular function has been detailed. Overexpression of bridging integrator 1 (BIN1) and protein Z dependent protease inhibitor (SERPINA10) which may represent useful biomarkers, and of lymphocyte specific protein tyrosine kinase (LCK) and bone marrow stromal cell antigen (BST2) which could be used as therapeutic targets, has been validated. When primary tumours were compared with metastatic lesions, no significantly differentially expressed genes were found, in accord with cluster analysis which revealed a striking similarity between primary and metastatic lesions, with the cell lines clustering separately. We have provided a comprehensive list of differentially expressed genes in a uniform set of aggressive NF PETs. A number of dysregulated genes deserve further in-depth study as potentially promising candidates for new diagnostic and treatment strategies. The analysis of liver metastases revealed a previously unknown high level of similarity with the primary lesions.
Pancreas Resection and Islet Autotransplantation for End-Stage Chronic Pancreatitis
ObjectiveTo assess the safety and efficacy of islet autotransplantation (IAT) combined with total pancreatectomy (TP) to prevent diabetes. Summary Background DataThere have been recent concerns regarding the safety of TP and IAT. This is thought to be related to the infusion of large volumes of unpurified pancreatic digest into the portal vein. Minimizing the volume of islet tissue by purifying the pancreatic digest has not been previously evaluated in terms of the postoperative rate of death and complications, pain relief, and insulin independence. MethodDuring a 54-month period, 24 patients underwent pancreas resection with IAT. Islets were isolated using collagenase and a semiautomated method of pancreas digestion. Where possible, islets were purified on a density gradient and COBE processor. Islets were embolized into the portal vein, within the spleen and portal vein, or within the spleen alone. The total median volume of digest was 9.9 mL. ResultsThe median number of islets transplanted was 140,419 international islet equivalents per kilogram. The median increase in portal pressure was 8 mmHg. Early complications included duodenal ischemia, a wedge splenic infarct, partial portal vein thrombosis, and splenic vein thrombosis. Intraabdominal adhesions were the main source of long-term problems. Eight patients developed transient insulin independence. Three patients were insulin-independent as of this writing. Patients had significantly decreased insulin requirements and glycosylated hemoglobin levels compared with patients undergoing TP alone. Of the patients alive and well as of this writing, four had failed to gain relief of their abdominal pain and were still opiate-dependent. ConclusionCombined TP and IAT can be a safe surgical procedure. Unfortunately, almost all patients were still insulin-dependent, but they had decreased daily insulin requirements and glycosylated hemoglobin levels compared with patients undergoing TP alone. A prospective randomized study is therefore needed to assess the long-term benefit of TP and IAT on diabetic complications.Chronic pancreatitis is a progressive inflammatory disease causing irreversible structural damage to the pancreatic parenchyma. It culminates in permanent impairment of pancreatic exocrine function and, in severe cases, diabetes mellitus. The incidence has quadrupled in the past 30 years, and patient management remains a major challenge.1 Patients generally have chronic, intractable abdominal pain that is often relieved only by large quantities of opiates, to which many patients develop tolerance and dependence. There is no agreement as to the best management strategy. Conservative approaches combine medical and supportive modalities (e.g., exocrine enzyme supplements, Octreotide, and antioxidants), nerve blockade (e.g., celiac plexus block, thoracoscopic splanchnic nerve division), or partial resection when the disease is localized. Although these management strategies can be successful, most reports Supported by the Leicester General Hospital NHS Trust.
Chimeric antigen receptor (CAR)19 T-cells exhibit powerful anti-leukemic effects in patients with B cell malignancies. However, the complexity of production of patient bespoke T cell products is a major barrier to the broader application of this approach. We are investigating a novel strategy to enable "off-the-shelf"' therapy with mismatched donor CAR19 T cells. Transcription activator-like effector nucleases (TALEN)s can be used to overcome HLA barriers by eliminating the risk of graft-versus-host disease (GvHD) through disruption of T cell receptor expression, and by simultaneously targeting CD52, cells can be rendered insensitive to the lymphodepleting agent Alemtuzumab. Administration of Alemtuzumab can then be exploited to prevent host-mediated rejection of HLA mismatched CAR19 T cells. We manufactured a bank of such cells from volunteer donor T cells under GMP conditions on behalf of Cellectis S.A for final stage validation studies using a third generation self inactivating lentiviral vector encoding a 4g7 CAR19 (CD19 scFv- 41BB- CD3ζ) linked to RQR8, an abbreviated sort/suicide gene encoding both CD34 and CD20 epitopes. Cells were then electroporated with two pairs of TALEN mRNA for multiplex targeting of both the T cell receptor alpha constant chain locus, and the CD52 gene locus. Following ex-vivo expansion, cells still expressing TCR were depleted using CliniMacs alpha/beta TCR depletion, yielding a T cell product with <1% TCR expression, 85% of which expressed CAR19, and 64% becoming CD52 negative. This universal CAR19 (UCART19) cell bank has been characterized in detail, including sterility, molecular and cytometric analyses and human/murine functional studies ahead of submissions for regulatory approvals and Phase 1 testing in trials for relapsed B cell leukaemia. In the interim we received a request for therapy on a compassionate basis for an infant with refractory relapsed B-ALL, and with the agreement of Cellectis, we treated this first patient under UK special therapy regulations. An 11 month girl with high risk CD19+infant ALL (t(11;19) rearrangement) relapsed in bone marrow 3 months after a myeloablative 8/10 mismatched unrelated donor transplant. Leukaemic blasts expressed CD19 but were CD52negative. Her disease progressed despite treatment with Blinatumomab (70% blasts in marrow) and we were unable to generate donor-derived CAR19 T cells on an existing study. Following institutional ethics review, detailed counseling, and parental consent, the patient received cytoreduction with Vincristine, Dexamethasone and Asparaginase followed by lymphodepleting conditioning with Fludarabine 90mg/m2, Cyclophosphamide 1.5g/m2 and Alemtuzumab 1mg/kg. Immediately prior to infusion of UCART19 cells, the bone marrow showed persisting disease (0.5% FISH positive). She received a single dose (4.5x106/kg) of UCART19 T cells without any significant toxicity. To date there has been no significant perturbation of cytokine levels in peripheral blood, and no indication of cytokine release syndrome. Although profoundly lymphopenic, UCART19 T cells were detectable by qPCR in the circulation by day 14 and at increased levels in both blood (VCN 0.35) and marrow (VCN 0.22) on day 28. The patient exhibited signs of count recovery and the bone marrow, while hypoplastic, was in cytogenetic and molecular remission. Chimerism was 90% donor, and a clearly demarcated population (7%) of third party cells indicated persistence of UCART19. A residual persistence of 3% recipient cells in the marrow suggests that leukemic clearance was not mediated by transplant mediated alloreactivity. Within the short period of follow up available, our intervention comprising lymphodepletion and infusion of UCART19 T cells has induced molecular remission where all other treatments had failed. This first-in-man application of TALEN engineered cells provides early proof of concept evidence for a ready-made T cell strategy that will now be tested in early phase clinical trials. Disclosures Qasim: CATAPULT: Research Funding; CELLMEDICA: Research Funding; CALIMMUNE: Research Funding; MILTENYI: Research Funding; AUTOLUS: Consultancy, Equity Ownership, Research Funding; CELLECTIS: Research Funding. Off Label Use: UCART19 T Cells are an unlicensed investigational medicinal product and in this case were used under MHRA special licence arrangements. Stafford:CELLECTIS: Research Funding. Peggs:Cellectis: Research Funding; Autolus: Consultancy, Equity Ownership. Thrasher:CATAPULT: Patents & Royalties, Research Funding; MILTENYI: Research Funding; AUTOLUS: Consultancy, Equity Ownership, Research Funding. Pule:AUTOLUS: Employment, Equity Ownership, Research Funding; CELLECTIS: Research Funding; AMGEN: Honoraria; UCLB: Patents & Royalties.
There are many factors which can explain the failure of achieving insulin-independence after islet allotransplantation. These include the use of diabetogenic immunosuppressive agents to abrogate both islet allo-immunity and auto-immunity, the critical islet mass to achieve insulin-independence and the detrimental effects of transplanting islets in an ectopic site. However recent evidence most notably from the Edmonton group demonstrates that islet allotransplantation still has great potential to become an established treatment option for diabetic patients.
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