FoxM1 is up-regulated by obesity and stimulates β-cell proliferation

Dawn Belt Davis, Jeremy Arlin Lavine, Joshua I. Suhonen, Kimberly A. Krautkramer, Mary E. Rabaglia, Jamie M. Sperger, Luis A. Fernandez, Brian S. Yandell, Mark P. Keller, I. Ming Wang, Eric E. Schadt, Alan D. Attie

Research output: Contribution to journalArticlepeer-review

77 Scopus citations


β-Cell mass expansion is one mechanism by which obese animals compensate for insulin resistance and prevent diabetes. FoxM1 is a transcription factor that can regulate the expression of multiple cell cycle genes and is necessary for the maintenance of adult β-cell mass, β-cell proliferation, and glucose homeostasis. We hypothesized that FoxM1 is up-regulated by nondiabetic obesity and initiates a transcriptional program leading to β-cell proliferation. We performed gene expression analysis on islets from the nondiabetic C57BL/6 Leptinob/ob mouse, the diabetic BTBR Leptinob/ob mouse, and an F2 Leptinob/ob population derived from these strains. We identified obesity-driven coordinated up-regulation of islet Foxm1 and its target genes in the nondiabetic strain, correlating with β-cell mass expansion and proliferation. This up-regulation was absent in the diabetic strain. In the F2 Leptin ob/ob population, increased expression of Foxm1 and its target genes segregated with higher insulin and lower glucose levels. We next studied the effects of FOXM1b overexpression on isolated mouse and human islets. We found that FoxM1 stimulated mouse and human β-cell proliferation by activating many cell cycle phases. We asked whether FOXM1 expression is also responsive to obesity in human islets by collecting RNA from human islet donors (body mass index range: 24-51). We found that the expression of FOXM1 and its target genes is positively correlated with body mass index. Our data suggest that β-cell proliferation occurs in adult obese humans in an attempt to expand β-cell mass to compensate for insulin resistance, and that the FoxM1 transcriptional program plays a key role in this process.

Original languageEnglish (US)
Pages (from-to)1822-1834
Number of pages13
JournalMolecular Endocrinology
Issue number9
StatePublished - Sep 2010

ASJC Scopus subject areas

  • Endocrinology
  • Molecular Biology


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