TY - JOUR
T1 - The MafA transcription factor becomes essential to islet β-cells soon after birth
AU - Hang, Yan
AU - Yamamoto, Tsunehiko
AU - Benninger, Richard K.P.
AU - Brissova, Marcela
AU - Guo, Min
AU - Bush, Will
AU - Piston, David W.
AU - Powers, Alvin C.
AU - Magnuson, Mark
AU - Thurmond, Debbie C.
AU - Stein, Roland
PY - 2014/6
Y1 - 2014/6
N2 - The large Maf transcription factors, MafA and MafB, are expressed with distinct spatial+temporal patterns in rodent islet cells. Analysis of Mafa2/2 and pancreasspecific Mafaδpanc deletion mutant mice demonstrated a primary role for MafA in adult β-cell activity, different from the embryonic importance of MafB. Our interests here were to precisely define when MafA became functionally significant to β-cell, to determine how this was affected by the brief period of postnatal MafB production, and to identify genes regulated by MafA during this period. We found that islet cell organization, β-cell mass, and β-cell function were influenced by 3 weeks of age in MafaDpanc mice and compromised earlier in Mafa δpanc;Mafb+/- mice. A combination of genome-wide microarray profiling, electron microscopy, and metabolic assays were used to reveal mechanisms of MafA control. For example, β-cell replication was produced by actions on cyclin D2 regulation, while effects on granule docking affected first-phase insulin secretion. Moreover, notable differences in the genes regulated by embryonic MafB and postnatal MafA gene expression were found. These results not only clearly define why MafA is an essential transcriptional regulator of islet β-cell, but also why cell maturation involves coordinated actions with MafB.
AB - The large Maf transcription factors, MafA and MafB, are expressed with distinct spatial+temporal patterns in rodent islet cells. Analysis of Mafa2/2 and pancreasspecific Mafaδpanc deletion mutant mice demonstrated a primary role for MafA in adult β-cell activity, different from the embryonic importance of MafB. Our interests here were to precisely define when MafA became functionally significant to β-cell, to determine how this was affected by the brief period of postnatal MafB production, and to identify genes regulated by MafA during this period. We found that islet cell organization, β-cell mass, and β-cell function were influenced by 3 weeks of age in MafaDpanc mice and compromised earlier in Mafa δpanc;Mafb+/- mice. A combination of genome-wide microarray profiling, electron microscopy, and metabolic assays were used to reveal mechanisms of MafA control. For example, β-cell replication was produced by actions on cyclin D2 regulation, while effects on granule docking affected first-phase insulin secretion. Moreover, notable differences in the genes regulated by embryonic MafB and postnatal MafA gene expression were found. These results not only clearly define why MafA is an essential transcriptional regulator of islet β-cell, but also why cell maturation involves coordinated actions with MafB.
UR - http://www.scopus.com/inward/record.url?scp=84901293490&partnerID=8YFLogxK
U2 - 10.2337/db13-1001
DO - 10.2337/db13-1001
M3 - Article
C2 - 24520122
AN - SCOPUS:84901293490
SN - 0012-1797
VL - 63
SP - 1994
EP - 2005
JO - Diabetes
JF - Diabetes
IS - 6
ER -