- Made available online as an Accepted Preprint 11 March 2010
- Accepted Preprint first posted online on 11 March 2010
Consequences of a compromised intrauterine environment on islet function
- Department of Animal Sciences, University of Arizona, 1650 East Limberlost Drive, Tucson, Arizona 85719, USA
1Department of Pediatrics, University of Colorado, Denver, Colorado 80045, USA
- (Correspondence should be addressed to S W Limesand; Email: limesand{at}ag.arizona.edu)
Abstract
Low birth weight is an important risk factor for impaired glucose tolerance and diabetes later in life. One hypothesis is that fetal β-cells inherit a persistent defect as a developmental response to fetal malnutrition, a primary cause of intrauterine growth restriction (IUGR). Our understanding of fetal programing events in the human endocrine pancreas is limited, but several animal models of IUGR extend our knowledge of developmental programing in β-cells. Pathological outcomes such as β-cell dysfunction, impaired glucose tolerance, and diabetes are often observed in adult offspring from these animal models, similar to the associations of low birth weight and metabolic diseases in humans. However, the identified mechanisms underlying β-cell dysfunction across models and species are varied, likely resulting from the different methodologies used to induce experimental IUGR, as well as from intraspecies differences in pancreas development. In this review, we first present the evidence for human β-cell dysfunction being associated with low birth weight or IUGR. We then evaluate relevant animal models of IUGR, focusing on the strengths of each, in order to define critical periods and types of nutrient deficiencies that can lead to impaired β-cell function. These findings frame our current knowledge of β-cell developmental programing and highlight future research directions to clarify the mechanisms of β-cell dysfunction for human IUGR.
- Received in final form 5 March 2010
- Accepted 11 March 2010
- © 2010 Society for Endocrinology