Abstract
The interplay between the transforming growth factor β (TGF-β) signaling proteins, SMAD family member 2 (SMAD2) and 3 (SMAD3), and the TGF-β-inhibiting SMAD, SMAD7, seems to play a vital role in proper pancreatic endocrine development and also in normal β-cell function in adult pancreatic islets. Here, we generated conditional SMAD7 knockout mice by crossing insulin1Cre mice with SMAD7fx/fx mice. We also created a β cell-specific SMAD7-overexpressing mouse line by crossing insulin1Dre mice with HPRT-SMAD7/RosaGFP mice. We analyzed β-cell function in adult islets when SMAD7 was either absent or overexpressed in β cells. Loss of SMAD7 in β cells inhibited proliferation, and SMAD7 overexpression enhanced cell proliferation. However, alterations in basic glucose homeostasis were not detectable following either SMAD7 deletion or overexpression in β cells. Our results show that both the absence and overexpression of SMAD7 affect TGF-β signaling and modulates β-cell proliferation but does not appear to alter β-cell function. Reversible SMAD7 overexpression may represent an attractive therapeutic option to enhance β-cell proliferation without negative effects on β-cell function.
Highlights
The interplay between the transforming growth factor  (TGF-) signaling proteins, SMAD family member 2 (SMAD2) and 3 (SMAD3), and the TGF-–inhibiting SMAD, SMAD7, seems to play a vital role in proper pancreatic endocrine development and in normal -cell function in adult pancreatic islets
Dre recombinase– dependent SMAD7 overexpression in mice allows for the use of Cre recombinase for other purposes, without affecting SMAD7 overexpression
In our mice, the expression of SMAD7 is up-regulated by doxycycline, rather than down-regulated, and is independent of ongoing pdx1 or insulin promoter activity, which may be unpredictable during altered -cell states
Summary
The interplay between the transforming growth factor  (TGF-) signaling proteins, SMAD family member 2 (SMAD2) and 3 (SMAD3), and the TGF-–inhibiting SMAD, SMAD7, seems to play a vital role in proper pancreatic endocrine development and in normal -cell function in adult pancreatic islets. We compare the effects of a seemingly more elegant  cell–specific SMAD7 deletion or overexpression system on -cell mass and function in an adult mouse islet. The data confirm that  cell–specific doxycycline-dependent SMAD7 overexpression disrupted TGF- signaling in adult pancreatic islets/ cells.
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