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

Abstract

Replication, neogenesis, and apoptosis play a main role in neonatal endocrine pancreas remodeling. IGFs are major contributors to β-cell growth and function and are highly sensitive to nutritional status. We previously showed that maternal malnutrition caused an increase in β-cell mass in fetuses related to the stimulation of β-cell proliferation due to increased pancreatic IGF-1. At 4 days of life, the β-cell mass was decreased in undernourished neonates and persisted until adult age. To clarify whether undernutrition disrupts islet remodeling, we quantified β-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 β-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 β-cell ontogeny. However, although malnutrition causes β-cell deficiency in neonates, an active process of β-cell neogenesis and a lower incidence of β-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 β-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.