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Articles by N Gao
Total Records ( 2 ) for N Gao
  S Rieck , P White , J Schug , A. J Fox , O Smirnova , N Gao , R. K Gupta , Z. V Wang , P. E Scherer , M. P Keller , A. D Attie and K. H. Kaestner
 

The inability of the ß-cell to meet the demand for insulin brought about by insulin resistance leads to type 2 diabetes. In adults, ß-cell replication is one of the mechanisms thought to cause the expansion of ß-cell mass. Efforts to treat diabetes require knowledge of the pathways that drive facultative ß-cell proliferation in vivo. A robust physiological stimulus of ß-cell expansion is pregnancy and identifying the mechanisms underlying this stimulus may provide therapeutic leads for the treatment of type 2 diabetes. The peak in ß-cell proliferation during pregnancy occurs on d 14.5 of gestation in mice. Using advanced genomic approaches, we globally characterize the gene expression signature of pancreatic islets on d 14.5 of gestation during pregnancy. We identify a total of 1907 genes as differentially expressed in the islet during pregnancy. The islet’s ability to compensate for relative insulin deficiency during metabolic stress is associated with the induction of both proliferative and survival pathways. A comparison of the genes induced in three different models of islet expansion suggests that diverse mechanisms can be recruited to expand islet mass. The identification of many novel genes involved in islet expansion during pregnancy provides an important resource for diabetes researchers to further investigate how these factors contribute to the maintenance of not only islet mass, but ultimately ß-cell mass.

  N Gao , J Le Lay , W Qin , N Doliba , J Schug , A. J Fox , O Smirnova , F. M Matschinsky and K. H. Kaestner
 

Foxa1 and Foxa2 play both redundant and distinct roles in early pancreas development. We demonstrate here that inducible ablation of both transcription factors in mature mouse β-cells leads to impaired glucose homeostasis and insulin secretion. The defects in both glucose-stimulated insulin secretion and intracellular calcium oscillation are more pronounced than those in β-cells lacking only Foxa2. Unexpectedly, in contrast to the severe reduction of β-cell-enriched factors contributing to metabolic and secretory pathways, expression of a large number of genes that are involved in neural differentiation and function is significantly elevated. We further demonstrate that expression of carbohydrate response element-binding protein (ChREBP or Mlxipl), an important transcriptional regulator of carbohydrate metabolism, is significantly affected in compound Foxa1/a2 mutant β-cells. ChREBP expression is directly controlled by Foxa1 and Foxa2 in both the fetal endocrine pancreas as well as mature islets. These data demonstrate that Foxa1 and Foxa2 play crucial roles in the development and maintenance of β-cell-specific secretory and metabolic pathways.

 
 
 
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