Increased IRS-2 content and activation of IGF-I pathway contribute to enhance β-cell mass in fetuses from undernourished pregnant rats

Fernández, Eduardo J.; Fajardo, Susan; Escrivá, Fernando; Álvarez, Carmen

doi:10.1152/ajpendo.00283.2006

Cited by 17 publications

(11 citation statements)

References 47 publications

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“…In this context, the lack of expression of IGF-2 has been associated with developmental apoptosis in the pancreatic islet cells of neonatal rat (Petrik et al 1998), whereas IGF-2 overexpression abolishes islet cell death (Hill et al 2000). Interestingly, we have found in the present study that undernutrition enhances pancreatic IGF-2 expression in neonates, in agreement with previous works that have reported nutritional upregulation of IGFs in pancreas under conditions of global food restriction , Fernández et al 2007, Gatford et al 2008. However, it contrasts with the effect of low-protein diet on the IGF axis, which induces a reduction in pancreatic IGF-2 expression (Petrik et al 1999).…”

Section: Discussionsupporting

confidence: 92%

“…We previously reported that protein-caloric food restriction (65% of ad libitum intake) applied during the last third of gestation caused an increase of b-cell mass in fetuses at term , associated to the stimulation of b-cell proliferation due to locally increased pancreatic IGF-1 and islet IRS-2 production , Fernández et al 2007. Nevertheless, food restriction continued after birth induced a decrease in b-cell mass at 4 days of life and this effect persisted until adult age .…”

Section: Introductionmentioning

confidence: 98%

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Maternal undernutrition increases pancreatic IGF-2 and partially suppresses the physiological wave of β-cell apoptosis during the neonatal period

Fernández-Millán¹,

Escrivá²,

Álvarez

2009

Journal of Molecular Endocrinology

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Replication, neogenesis, and apoptosis play a main role in neonatal endocrine pancreas remodeling. IGFs are major contributors to b-cell growth and function and are highly sensitive to nutritional status. We previously showed that maternal malnutrition caused an increase in b-cell mass in fetuses related to the stimulation of b-cell proliferation due to increased pancreatic IGF-1. At 4 days of life, the b-cell mass was decreased in undernourished neonates and persisted until adult age. To clarify whether undernutrition disrupts islet remodeling, we quantified b-cell mass, neogenesis, replication, and apoptosis on days 4, 14, and 23. To determine the impact of food restriction on IGF ontogeny and the consequences for b-cell growth, we measured IGF-1/-2 protein content in pancreas and liver and pancreatic IGF-1 receptor (IGF-1R)-signaling pathway at the same days. Our results indicate that undernutrition alters the timing and intensity of neonatal b-cell ontogeny. However, although malnutrition causes b-cell deficiency in neonates, an active process of b-cell neogenesis and a lower incidence of b-cell apoptosis maintain the regenerative capacity of the endocrine pancreas. Interestingly, our data provide evidence that local production of IGFs seems to be instrumental in these processes. In particular, increased pancreatic IGF-2 in undernourished rats may contribute to the partial suppression of the developmental wave of b-cell apoptosis probably through the inhibition of glycogen synthase kinase-3. In addition, decreased pancreatic levels of IGFBP-1/-2/-3 in undernourished neonates could enhance IGF availability for interacting with IGF-1R/IR.

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Section: Discussionsupporting

confidence: 92%

Section: Introductionmentioning

confidence: 98%

Maternal undernutrition increases pancreatic IGF-2 and partially suppresses the physiological wave of β-cell apoptosis during the neonatal period

Fernández-Millán¹,

Escrivá²,

Álvarez

2009

Journal of Molecular Endocrinology

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“…A recent study described that fetal rat islets isolated from litters of undernourished mothers differed from islets from litters of control mothers, in regard to increased islet replication. This was coupled to an increased IRS2 protein content and an enhanced glucose/IGF-1 stimulation of the IRS2/PI3K/PKB pathway (Fernandez, et al 2007). From these reports, it is not possible to deduce if IRS2-signaling is strictly necessary for beta cell mass expansion during the embryonal development of the endocrine pancreas although signalling through IRS2 positively affects the beta cell mass.…”

Section: Discussionmentioning

confidence: 98%

A role of FRK in regulation of embryonal pancreatic beta cell formation

Åkerblom

Annerén

Welsh

2007

Molecular and Cellular Endocrinology

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To cite this version:Björn Åkerblom, Cecilia Annerén, Michael Welsh. A role of frk in regulation of embryonal pancreatic beta cell formation. Molecular and Cellular Endocrinology, Elsevier, 2007, 270 (1-2) This is a PDF file of an unedited manuscript that has been accepted for publication. As a service to our customers we are providing this early version of the manuscript. The manuscript will undergo copyediting, typesetting, and review of the resulting proof before it is published in its final form. Please note that during the production process errors may be discovered which could affect the content, and all legal disclaimers that apply to the journal pertain.A c c e p t e d M a n u s c r i p t A c c e p t e d M a n u s c r i p t 2 SummaryThe Fyn-Related-Kinase is a non-receptor tyrosine kinase expressed in various tissues, among them, the islets of Langerhans. The role of FRK in pancreatic beta cells has been addressed by studies of knockout or FRK-transgenic mice. These experiments have shown that FRK overexpression in beta cells leads to an increased susceptibility to the beta cell toxin streptozotocin and to cytotoxic cytokines, suggesting that FRK may participate in events leading to beta cell destruction.However, these mice also exhibit an increased relative beta cell volume and increased beta cell replication following partial pancreatectomy, suggesting a positive role for FRK in the regulation of beta cell number as well.To further assess the significance of FRK for beta cell replication, we studied the beta cell area and islet cell replication in FRK null mice. We currently observe that the FRK-knockout mouse showed no difference in the insulin positive cell area or in the percentage of Ki67-stained proliferating islet cells at adulthood, when compared to wild-type control. In addition, adult FRK-/-mice performed normally when subjected to an intravenous glucose tolerance test.To elucidate whether FRK affects pancreatic beta cell number during embryogenesis and shortly after birth, pancreata were collected from FRK-/-mice at these stages.Histological analysis of insulin stained pancreatic sections showed that the insulin positive cell area in FRK-/-mice was reduced at embryonal day 15 and at birth to 31% and 70% of that of wild-type mice, respectively. FRK -/-pancreas weight on day 1 neonatally was similar to that of the control, indicating that the obtained resultswere not due to altered pancreatic growth.Taken together these results show that FRK affects beta cell number during embryogenesis and early in life, but is probably redundant for beta cell number and function in adult animals under normal conditions.

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“…Islet isolation and culture, and measurement of glucagon secretion and content Islets were isolated as previously described [19,21] (electronic supplementary material [ESM] Methods). Glucagon secretion was measured by RIA in isolated islets after exposure to different glucose concentrations (ESM Methods).…”

Section: Methodsmentioning

confidence: 99%

Role of endogenous IL-6 in the neonatal expansion and functionality of Wistar rat pancreatic alpha cells

et al. 2013

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Aims/hypothesis Plasma glucagon concentrations rise sharply during the early postnatal period. This condition is associated with increased alpha cell mass. However, the trophic factors that regulate alpha cell turnover during the perinatal period have not been studied. Macrophage infiltrations are present in the neonatal pancreas, and this cell type releases cytokines such as IL-6. Alpha cells have been identified as a primary target of IL-6 actions. We therefore investigated the physiological relevance of IL-6 to neonatal pancreatic alpha cell maturation. Methods Histochemical analyses were performed to quantify alpha cell mass, replication and apoptosis. Pancreatic Il6 expression was determined by quantitative RT-PCR. The biological effect of IL-6 was tested in two in vivo rat models of IL-6 blockade and chronic undernutrition. Results Alpha cell mass increased sharply shortly after birth but decreased significantly after weaning. Pancreatic alpha cell proliferation was as high as 2.5% at the beginning of suckling but diminished with time to 1.2% in adulthood. Similarly, alpha cell neoformation was remarkably high on postnatal day (PN) 4, whereas alpha cell apoptosis was low throughout the neonatal period. Moreover, Il6 mRNA exhibited developmental upregulation in the pancreas of suckling rats, with the highest expression on PN2. Neutralisation of IL-6 reduced alpha cell mass expansion and glucagon production. IL-6 staining was detected within the islets, mainly in the alpha cells. Finally, undernourished neonates showed altered alpha cell number and function and delayed appearance of IL-6 in the pancreas. Conclusions/interpretation These data point to a potential role for local IL-6 in the regulation of alpha cell growth and function during suckling.

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Increased IRS-2 content and activation of IGF-I pathway contribute to enhance β-cell mass in fetuses from undernourished pregnant rats

Cited by 17 publications

References 47 publications

Maternal undernutrition increases pancreatic IGF-2 and partially suppresses the physiological wave of β-cell apoptosis during the neonatal period

Maternal undernutrition increases pancreatic IGF-2 and partially suppresses the physiological wave of β-cell apoptosis during the neonatal period

A role of FRK in regulation of embryonal pancreatic beta cell formation

Role of endogenous IL-6 in the neonatal expansion and functionality of Wistar rat pancreatic alpha cells

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