Islet product characteristics and factors related to successful human islet transplantation from the Collaborative Islet Transplant Registry (CITR) 1999-2010.

The Collaborative Islet Transplant Registry (CITR) collects data on clinical islet isolations and transplants. This retrospective report analyzed 1017 islet isolation procedures performed for 537 recipients of allogeneic clinical islet transplantation in 1999-2010. This study describes changes in donor and islet isolation variables by era and factors associated with quantity and quality of final islet products. Donor body weight and BMI increased significantly over the period (p<0.001). Islet yield measures have improved with time including islet equivalent (IEQ)/particle ratio and IEQs infused. The average dose of islets infused significantly increased in the era of 2007-2010 when compared to 1999-2002 (445.4±156.8 vs. 421.3±155.4×0(3) IEQ; p<0.05). Islet purity and total number of ß cells significantly improved over the study period (p<0.01 and <0.05, respectively). Otherwise, the quality of clinical islets has remained consistently very high through this period, and differs substantially from nonclinical islets. In multivariate analysis of all recipient, donor and islet factors, and medical management factors, the only islet product characteristic that correlated with clinical outcomes was total IEQs infused. This analysis shows improvements in both quantity and some quality criteria of clinical islets produced over 1999-2010, and these parallel improvements in clinical outcomes over the same period.

Pretreatment of donor pigs with a diet rich in soybean oil increases the yield of isolated islets.

INTRODUCTION: The pig is considered the donor species of choice for islet xenotransplantation. However, isolation of porcine islets is difficult, particularly from young pigs. Early life exposure to a high-fat diet (HFD) reportedly encourages islet ß-cell expansion in neonatal rodents and improves islet viability in culture from pretreated weanling pigs. In this study, we examined the influence of young donor pretreatment with a soybean oil-enriched HFD on porcine islet mass and yield after islet isolation. MATERIALS AND METHODS: Postweaning and between days 70 and 250, pigs were fed either a standard diet (control group; n = 5) or an HFD (experimental group; n = 6). Biochemical blood parameters and acute C-peptide response to intravenous glucose were monitored before pancreas procurement. The study was blinded to objectively evaluate the influence of treated diet. After procurement, pancreas biopsy samples were taken from control and pretreated donor pigs to assess islet number by using a dithizone scoring method and histologic islet area fraction determination. Control and HFD donor pig islets were isolated by using our standard isolation protocol to determine islet yield. Islet isolation characteristics and islet quality were assessed in both groups, and the results were compared. RESULTS: There were no significant differences in the donor characteristics (age, body weight, glucose disposal rate, acute C-peptide response to intravenous glucose, cholesterol, and aspartate aminotransferase) except fasting blood glucose level between the control and treatment groups (84 ± 6 vs 99 ± 12 mg/dL; P = .0317). The stimulated insulin and C-peptide levels between groups were similar. However, the dithizone score was slightly higher in the treatment group compared with the control group (95.4 ± 38.5 vs 62.6 ± 23.9; P = .1208). Digestion time, digested pancreas weight, pellet volume, and the fragility index were similar in both groups. However, the average islet count (islet equivalent number/g pancreas) at the digest level was significantly higher in the HFD group than in the control group (1578 ± 994 vs 738 ± 202; P = .0344). The functional viability of 2- and 7 day-cultured islets, as assessed by using oxygen consumption rate corrected for DNA, was similar in both groups. CONCLUSIONS: Pretreatment of pigs with HFD enriched with soybean oil could potentially be used to improve the islet mass in donor pigs. Further studies are needed to confirm and optimize the use of HFD for the purpose of increasing islet yield from young donor pigs.

Abnormal 5-HT modulation of stress behaviors in the Kv4.2 knockout mouse.

The Kv4.2 gene codes for an essential subunit of voltage-gated A-type potassium channels that are involved in dendritic signal integration and synaptic plasticity. Detailed cellular characterization in CA1 pyramidal neurons of the hippocampus has shown that knocking out the Kv4.2 gene increases neuronal excitability and promotes long-term potentiation. However, the overall behavioral consequences of these modifications have not been fully explored. Given the growing connection between neuronal plasticity and affect processing in the hippocampus and other Kv4.2 expressing regions, we proposed to investigate whether the absence of this gene would alter the stress response of mice to the forced swimming and tail suspension tests (TSTs) for depression-like behavior. Kv4.2 knockout (KO) mice, generated in the 129SvEv background, demonstrated elevated immobility and a loss of swimming, as well as antidepressant resistance to the selective 5-HT reuptake inhibitor fluoxetine (FLX). Characterization of a relatively new head movement behavior category, responsive to serotonergic treatment in wildtype (WT) mice, supported conclusions of abnormal 5-HT modulation. Electrophysiology recordings in the prefrontal cortex showed a blunting of postsynaptic response to direct 5-HT application following a single period of swim stress only in the animals without the Kv4.2 subunit. Based on our findings, we hypothesize that Kv4.2 KO mice may have an exaggerated 5-HT response to stress leading to a premature desensitization of postsynaptic receptors and a loss of continued behavior modulation. These results may shed some light on the involvement of A-type potassium channels in the effective action of selective serotonin reuptake inhibitor (SSRI) antidepressants.

Electrical coupling between glial cells in the rat retina.

The strength of electrical coupling between retinal glial cells was quantified with simultaneous whole-cell current-clamp recordings from astrocyte-astrocyte, astrocyte-Müller cell, and Müller cell-Müller cell pairs in the acutely isolated rat retina. Experimental results were fit and space constants determined using a resistive model of the glial cell network that assumed a homogeneous two-dimensional glial syncytium. The effective space constant (the distance from the point of stimulation to where the voltage falls to 1/e) equaled 12.9, 6.2, and 3.7 microm, respectively for astrocyte-astrocyte, astrocyte-Müller cell, and Müller cell-Müller cell coupling. The addition of 1 mM Ba(2+) had little effect on network space constants, while 0.5 mM octanol shortened the space constants to 4.7, 4.4, and 2.6 microm for the three types of coupling. For a given distance separating cell pairs, the strength of coupling showed considerable variability. This variability in coupling strength was reproduced accurately by a second resistive model of the glial cell network (incorporating discrete astrocytes spaced at varying distances from each other), demonstrating that the variability was an intrinsic property of the glial cell network. Coupling between glial cells in the retina may permit the intercellular spread of ions and small molecules, including messengers mediating Ca(2+) wave propagation, but it is too weak to carry significant K(+) spatial buffer currents.