James Henry

Vascular endothelial growth factor gene delivery for revascularization in transplanted human islets.

AbstractPurpose. Islet transplantation is limited by islet graft failure because of poor revascularization, host immune rejection, and nonspecific inflammatory response. Human vascular endothelial growth factor (hVEGF) gene delivery is likely to promote islet revascularization and survival. Methods. We evaluated gene expression from a bicistronic plasmid encoding hVEGF and enhanced green fluorescent protein (EGFP) (pCMS-EGFP-hVEGF). Glucose responsiveness of islets was evaluated both in vitro and in vivo, and revascularization in islet graft was evaluated by immunohistochemistry. Results. After transfection, hVEGF and EGFP expression levels were comparable with original monocistronic plasmids in Jurkat cells but higher and prolonged hVEGF expression in islets transfected with the bicistronic plasmid was observed, possibly as the result of differences in promoter strength and hypoxia response. The 3:1 w/w complexes showed little toxicity to islets at a dose of 5 μg DNA per 2000 islets. On glucose challenge, insulin release from transfected islets as well as secretion from islets after transplantation under the mouse kidney capsules in response to glucose stimulation, increased with time. Immunohistochemical staining of transplanted islets using mouse anti-human insulin, mouse anti-human von Willebrand factor, and rat anti-mouse CD31 antibodies suggests that islets are functional and there is new blood vessel formation. Conclusions. These findings suggest that transient hVEGF gene expression by the islets may promote islet revascularization and prolong islet survival after transplantation.

Quantitative measurement of P- and E-selectin adhesion molecules in acute pancreatitis : Correlation with distant organ injury

OBJECTIVE To determine whether expression of P- and E-selectin molecules is associated with the development of systemic organ manifestations in acute pancreatitis (AP). SUMMARY BACKGROUND DATA Overproduction of inflammatory cytokines in AP induces expression of adhesion molecules, which may lead to increased leukocytic infiltration and tissue damage. Understanding the temporal expression of these molecules could afford better measures for therapeutic intervention. METHODS Acute pancreatitis was induced in 30-day-old female C57/ bI/6J mice by feeding a choline-deficient/ethionine-supplemented diet (n = 95). Mice were divided into three groups. Group I (n = 35) was used to study the biochemical and histologic manifestations of AP and to evaluate the neutrophilic infiltration by myeloperoxidase activity and immunofluorescence. Groups II (n = 35) and III (n = 25) were used to evaluate expression of P- and E-selectin by the dual radiolabeled monoclonal antibody technique. RESULTS Biochemical and histologic evidence of AP developed in all mice. The inflammatory cytokine tumor necrosis factor-alpha gradually increased in serum as early as 18 hours, reaching more than 800-fold background levels by 72 hours. Biphasic P-selectin expression in the lung was seen with peaks at 24 and 48 hours; E-selectin expression peaked at 48 hours. CD18-positive leukocytes and increased myeloperoxidase activity in the lung were demonstrated at 24 hours, correlating with the onset of selectin upregulation. Histologic scoring of lung tissue demonstrated mild damage at 24 hours, with progressive injury occurring from 48 to 72 hours. CONCLUSIONS In AP, the production of inflammatory cytokines precedes up-regulation of P- and E-selectin, whose expression coincided with the increased infiltration of CD18-positive cells and neutrophil sequestration in lung tissue. Temporally, these events correlate with evidence of histologic pulmonary injury and underscore the role of adhesion molecules as mediators of pathophysiologic events. This mechanistic pathway may afford novel therapeutic interventions in clinical disease by using blocking agents to ameliorate the systemic manifestations of AP.

Cationic Lipid and Polymer-based Gene Delivery to Human Pancreatic Islets

Transplantation of pancreatic islets has great potential for treating Type I diabetes. Ex vivo gene therapy may promote re-vascularization or inhibit apoptosis of the islets and promote graft. In this study, we investigated the feasibility of non-viral gene delivery using Enhanced Green Fluorescent Protein (EGFP) and human Vascular Endothelial Growth Factor (hVEGF(165)) expression plasmids as model reporter and therapeutic genes. LipofectAMINE/pDNA and Superfect/pDNA complexes showed high transfection efficiency in rapidly dividing Jurkat cells, but low transfection in non-dividing human islets. LipofectAMINE/pCAGGS-hVEGF transfected islets showed relatively higher levels of hVEGF than in those transfected with LipofectAMINE/pCMS-EGFP complexes or 5% glucose. To exclude endogenously secreted hVEGF, real time RT-PCR experiment was repeated using pCAGGS vector-specific forward primer and hVEGF gene-specific reverse primer. In this case, both non-transfected islets and the islets transfected with LipofectAMINE/pCMS-EGFP complexes showed negligible amplification of hVEGF. On glucose challenge, insulin release from LipofectAMINE/pCAGGS-hVEGF transfected human islets increased from 10.78 +/- 4.56 to 65 +/- 5 ng/ml, suggesting little adverse effect on islet beta cell response to glucose challenge. The low transfection efficiency is due to the islets being a cluster of approximately 1000 non-dividing cells. This underscores the importance of experimentation with the actual human islets.

Trypsin stimulates production of cytokines from peritoneal macrophages in vitro and in vivo.

Acute pancreatitis (AP) is characterized by release of proteolytic enzymes from the pancreas and a powerful inflammatory cytokine cascade that mediates the systemic manifestations and contributes to the mortality of the disease. The purpose of this study was to examine a potential link between pancreatic proteolytic enzymes, which are increased in AP, and cytokine production. To evaluate this, we incubated rat peritoneal macrophages (PMØ) with increasing concentrations of trypsin and measured cytokine production. Supernatants from the cell cultures were assayed for TNF-&agr; and IL-1&bgr;, and the PMØ were collected for the evaluation of cytokine mRNA by polymerase chain reaction (PCR). Further to evaluate the role of pancreatic proteases in triggering the cytokine cascade in AP, trypsin was injected into the peritoneal cavity of Sprague–Dawley rats, and the production of cytokines was measured in the peritoneal fluid. Controls included injection of inactivated trypsin. Incubation of PMØ with trypsin in vitro resulted in a dose-dependent increase in TNF-&agr; production with maximal response (2,660.5 ± 748.8 pg/mL) at 10 &mgr;g/mL protease. Peak TNF-&agr; and IL-1&bgr; release was noted 16 h after stimulation of the PMØ (2,759.5 ± 698.0 pg/mL and 160,596 ± 4,065 cpm, respectively). Trypsin-induced TNF-&agr; production was not due to release of cell-associated cytokine, inasmuch as activation of PMØ with this protease causing an increase in TNF-&agr; mRNA by 30 minutes, reaching a 14-fold increase at 4 h. Trypsin-injected animals produced TNF-&agr;–containing ascitic fluid in a dose-dependent manner with peak TNF-&agr; at 2 h (371.3 ± 180 pg/mL) versus control (53.8 ± 11.2 pg/mL;p < 0.022). No TNF-&agr; was found in ascites of rats injected with heat-inactivated trypsin. Histologic examination of trypsin-injected animals revealed evidence of pulmonary inflammation at 2 and 4 hours. We conclude that the proteolytic enzyme trypsin stimulates cytokine production from macrophages in vitro and in vivo. This model demonstrates for the first time that trypsin is a potential mediator of the cytokine response seen during AP.

Acute pancreatitis induces cytokine production in endotoxin-resistant mice.

OBJECTIVE The purpose of this study was to determine whether pathologic progression and cytokine responses in acute pancreatitis (AP) are altered in the absence of endotoxemia. SUMMARY BACKGROUND DATA Previous studies have demonstrated that AP is characterized by rapid production and release of inflammatory cytokines, which play a major role in the local pancreatic and systemic complications of this disease. Infection and endotoxemia have been implicated as a major source of morbidity and death in AP and as possible stimuli for the overwhelming cytokine response seen in this disease. METHODS AP was induced by a choline-deficient and ethionine-supplemented diet for 4 days in normal C57BL/6J mice (controls, n = 23) and in CD14 knockout mice (CD14KO, n = 23), which cannot produce circulating cytokines in response to endotoxin. Control and endotoxin-resistant mice were killed at time 0, then at 24, 48, 72, and 96 hours after the start of the diet. At each time point serum was collected for amylase, glucose, and cytokine measurements (tumor necrosis factor-alpha [TNFalpha] and interleukin-1beta [IL1beta]), and the pancreas was removed for histologic examination. TNFalpha was measured with a bioassay using WEHI-2F cells and IL1beta with a bioassay using D10.G4.1 cells. RESULTS CD14KO mice developed biochemical manifestations of AP with alterations in amylase levels, hypoglycemia, weight loss, and histologic changes of pancreatitis similar to the pattern seen in control mice. TNFalpha and IL1beta production had similar kinetics in both groups, with significant peak TNFalpha serum levels at 72 hours and a progressive rise of IL1beta levels throughout the study period. Histologic changes appeared earlier and were more pronounced in the control versus the CD14KO mice. However, the mortality rate was identical (20% at 96 hours) for both groups. CONCLUSIONS These results demonstrate that the progression of AP, the cytokine response associated with the disease, and early death are independent of endotoxin action. These findings, which suggest that an uncharacterized stimulus is responsible for triggering the cytokine cascade in this disease, may have significant implications for the management of patients with AP.

Trypsinogen and Other Pancreatic Enzymes in Patients with Renal Disease : A Comparison of High-Efficiency Hemodialysis and Continuous Ambulatory Peritoneal Dialysis

Although serum amylase and lipase levels have been studied extensively in patients with renal disease, there are fewer data regarding trypsinogen levels in patients with end-stage renal disease (ESRD) treated with different dialytic modalities. We therefore evaluated the blood concentrations of trypsinogen, amylase, and lipase in asymptomatic patients with chronic renal insufficiency (CRI) and ESRD, to determine whether treatment modality or renal handling of these enzymes is important in determining steady-state levels in asymptomatic patients with chronic renal disease. Mean trypsinogen concentration levels were higher in hemodialysis (HD) patients and patients with CRI compared with normal subjects when values in the different groups were compared. There was no difference in the mean trypsinogen levels between patients treated with HD and those with CRI, between patients treated with chronic ambulatory peritoneal dialysis (CAPD) and those treated with HD, or between CAPD patients and patients with CRI. The mean circulating trypsinogen concentration was elevated more frequently and to a higher level than amylase or lipase in patients with CRI and ESRD. HD treatment did not result in a lowering of mean circulating pancreatic enzyme levels. We propose that decreased peripheral clearance, pancreatic overproduction, increased release from the pancreas, or a combination of these mechanisms is responsible, at least in part, for the increased plasma concentration of trypsinogen in patients with CRI, rather than simply a decrease in renal clearance.

Pancreatic function tests in the rat model of chronic pancreatic insufficiency.

It has recently been shown that the infusion of oleic acid into the rat pancreaticobiliary duct causes a reproducible and long-lasting atrophy of the exocrine pancreas. The effects of this pancreatic atrophy on noninvasive pancreatic function tests have not been fully characterized. This study was undertaken to determine which pancreatic function test was most useful in determining pancreatic insufficiency in this model. Pancreatic insufficiency (PI) was induced in male Wistar rats by oleic acid infusion and three pancreatic function tests were compared in these animals and saline controls. The coefficient of fat absorption on a 5 or 45% fat diet and bentiromide testing could not differentiate animals with or without PI, but fecal chymotrypsin levels were excellent discriminators. All animals with PI had fecal chymotrypsin levels below 67 U/g feces whereas all saline controls were above this level. We conclude that, in this model of PI, the fecal chymotrypsin concentration is the best noninvasive test to determine pancreatic insufficiency.