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Decreased pancreatic islet response to L-leucine in the spontaneously diabetic GK rat: enzymatic, metabolic and secretory data (1999)

Giroix, M.-H. ; Saulnier, C. ; Portha, B.

Springer

Diabetologia 42 (1999), S. 965-977

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ISSN: 1432-0428

Keywords: Keywordsl-leucine ; pancreatic islets ; GK rat ; non-insulin-dependent diabetes.

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Aims/hypothesis. Pancreatic islets from hereditarily non-insulin-dependent diabetic Goto-Kakizaki (GK) rats have a deficient insulin response not only to d-glucose but also to l-leucine. Our aim was to explain the cellular mechanism(s) underlying the beta-cell unresponsiveness to this amino acid. Methods. Freshly collagenase isolated islets from GK rats and healthy Wistar control rats matched with them for sex and age were compared. Leucine uptake, metabolic fluxes and insulin secretory capacity were investigated on batch incubated-islets. Enzymatic activities were measured on sonicated islets. Results. In GK rat islets, neither leucine transport nor leucine transaminase activity was disturbed. By contrast, 14CO2 production from either l-[U-14C]leucine or l-[1-14C]leucine was decreased. The l-[U-14C]leucine oxidation : l -[1- 14C]leucine decarboxylation ratio was unaffected, indicating that the acetyl-CoA generated from leucine undergoes normal oxidation in the Krebs cycle. The leucine non-metabolizable analogue 2-amino-bicyclo[2,2,1]heptane-2-carboxylic acid induced insulin release and enhanced the secretory response to leucine as in controls, whereas leucine failed to amplify the response to the leucine analogue. Moreover, the potentiating action of l-glutamine on leucine-mediated insulin release was preserved. This coincided with normal glutamate dehydrogenase activity and l-[U-14C]glutamine oxidation. Finally, the secretory response to the leucine deamination product 2-ketoisocaproate was decreased, as was the 2-keto[1-14C]isocaproate oxidation. Conclusion/interpretation. In islet beta cells from GK rats, the defective secretory response to leucine cannot be ascribed to a deteriorated leucine-stimulated glutamate metabolism but rather to an impaired leucine catabolism. A reduced generation of acetyl-CoA from 2-ketoisocaproate, due to the defective oxidative decarboxylation of this keto-acid by the mitochondrial branched-chain 2-ketoacid dehydrogenase, is incriminated. [Diabetologia (1999) 42: 965–977]

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s001250051255

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Beta-cell growth in the neonatal Goto-Kakisaki rat and regeneration after treatment with streptozotocin at birth (1999)

Movassat, J. ; Portha, B.

Springer

Diabetologia 42 (1999), S. 1098-1106

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ISSN: 1432-0428

Keywords: Keywords Regeneration ; neogenesis ; beta-cell proliferation ; beta-cell apoptosis ; GK rat ; Type II diabetes.

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Aims/hypothesis. In the Goto-Kakisaki rat, a genetic model of non-insulin dependent diabetes, we have recently reported that as early as fetal age, there is a restriction of the beta-cell mass which is maintained in the adult animal and is detectable before the onset of hyperglycaemia. It is therefore important to investigate the beta-cell growth potential in young Goto-Kakisaki rats. Methods. We have studied in 4 and 7-day-old Goto-Kakisaki neonates: 1. the in vivo replication rate of the beta cell; 2. the occurrence of beta-cell apoptosis; 3. the effectiveness of beta-cell regeneration after damage caused by neonatal treatment with streptozotocin. Results. The replication rate in vivo of beta cells and the beta-cell apoptosis were similar in untreated Wistar and Goto-Kakisaki neonates on days 4 and 7 whereas the total beta-cell masses were reduced to 50 % in the Goto-Kakisaki groups. Treatment with streptozotocin reduced the total beta-cell mass to the same extent in both Wistar and Goto-Kakisaki rats on day 4 compared with the corresponding normal values in Wistar and Goto-Kakisaki neonates. From day 4 to day 7, spontaneous beta-cell regeneration was manifest in both groups. Compared with the Wistar streptozotocin group, the net value of the beta-cell mass added during this period was more limited in the Goto-Kakisaki streptozotocin group, despite the replication activity of the residual beta cells being increased in this group to the same extent as in the Wistar streptozotocin group. Conclusion/interpretation. We therefore suggest: 1. that the reduced beta-cell mass in the untreated neonatal Goto-Kakisaki rat does not appear to reflect a reduction in the rate of beta-cell replication or an increased beta-cell death by apoptosis but is potentially due to an impaired rate of beta-cell neogenesis, and 2. that beta-cell regeneration can be reactivated after streptozotocin insult in the neonatal Goto-Kakisaki rat, although to a lesser extent compared with that in streptozotocin-treated Wistar neonates. [Diabetologia (1999) 42: 1098–1106]

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s001250051277

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Impaired development of pancreatic beta-cell mass is a primary event during the progression to diabetes in the GK rat (1997)

Movassat, J. ; Saulnier, C. ; Serradas, P. ; [et al.]

Springer

Diabetologia 40 (1997), S. 916-925

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ISSN: 1432-0428

Keywords: Keywords Beta-cell development ; beta-cell mass ; alpha-cell mass ; pathogenesis ; GK rat ; non-insulin-dependent diabetes mellitus

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary In the endocrine pancreas of the GK rat, a genetic model of non-insulin-dependent diabetes mellitus (NIDDM), it is not clear whether the histopathological changes reported up to now are related to the pathogenesis of hyperglycaemia or whether they occur secondarily to metabolic alterations. Using GK rats from the Paris colony, our study chronicles for the first time the pathophysiologic changes that occur in the GK pancreas from the late fetal period (day 21.5) until adult age (18 weeks). As compared to Wistar controls, GK fetuses exhibited higher plasma glucose level, lower plasma insulin level and normal plasma glucagon level. Their pancreatic insulin content and the relative volume and the total mass of their beta cells were sharply decreased, representing only 23, 38 and 23 % of control values, respectively. During the period from 4 days to 14 days after birth, GK neonates exhibited normal basal plasma glucose and glucagon levels despite decreased plasma insulin level. Their pancreatic insulin content represented only 31–40 % of values found in the age-related control pancreases and their total beta-cell mass was only 35 % on day 4, 30 % on day 7 and 37 % on day 14. The adult diabetic GK rats exhibited higher basal plasma glucose and insulin levels while their basal plasma glucagon level remained normal. Their pancreatic insulin content and the total beta-cell mass remained decreased, representing only 32 % and 47 % of control values, respectively. Moreover, the adult GK pancreases exhibited noticeable alteration in the architecture of the large islet sub-population which displayed considerable fibrosis with clusters of beta cells widely separated from each other by strands of connective tissue. Concerning the development of alpha cells in the GK rats, their relative volume was found to be normal during fetal and early neonatal periods. It was found to be moderately decreased (representing 64–67 % of corresponding control values) in 14-day-old neonates and adult GK rats. Our findings demonstrate that in the GK rat, the deficit of total beta-cell mass as observed in the adult animal is related to impaired beta-cell development. The restriction of the beta-cell mass must be considered as a primary and crucial event in the sequence leading to overt diabetes in this NIDDM model. [Diabetologia (1997) 40: 916–925]

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s001250050768

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