UNLABELLED: Serum response factor (SRF) is a transcription factor that binds to a CarG box motif within the serum response element of genes that are expressed in response to mitogens. SRF plays essential roles in muscle and nervous system development; however, little is known about the role of SRF during liver growth and function. To examine the function of SRF in the liver, we generated mice in which the Srf gene was specifically disrupted in hepatocytes. The survival of mice lacking hepatic SRF activity was lower than that of control mice; moreover, surviving mutant mice had lower blood glucose and triglyceride levels compared with control mice. In addition, Srf(loxP/loxP)AlfpCre mice were smaller and had severely depressed levels of serum insulin-like growth factor 1 (IGF-1). Srf-deficient livers were also smaller than control livers, and liver cell proliferation and viability were compromised. Gene array analysis of SRF depleted livers revealed a reduction in many messenger RNAs, including those encoding components of the growth hormone/IGF-1 pathway, cyclins, several metabolic regulators, and cytochrome p450 enzymes. CONCLUSION: SRF is essential for hepatocyte proliferation and survival, liver function, and control of postnatal body growth by regulating hepatocyte gene expression.
UNLABELLED: Serum response factor (SRF) is a transcription factor that binds to a CarG box motif within the serum response element of genes that are expressed in response to mitogens. SRF plays essential roles in muscle and nervous system development; however, little is known about the role of SRF during liver growth and function. To examine the function of SRF in the liver, we generated mice in which the Srf gene was specifically disrupted in hepatocytes. The survival of mice lacking hepatic SRF activity was lower than that of control mice; moreover, surviving mutant mice had lower blood glucose and triglyceride levels compared with control mice. In addition, Srf(loxP/loxP)AlfpCre mice were smaller and had severely depressed levels of serum insulin-like growth factor 1 (IGF-1). Srf-deficient livers were also smaller than control livers, and liver cell proliferation and viability were compromised. Gene array analysis of SRF depleted livers revealed a reduction in many messenger RNAs, including those encoding components of the growth hormone/IGF-1 pathway, cyclins, several metabolic regulators, and cytochrome p450 enzymes. CONCLUSION:SRF is essential for hepatocyte proliferation and survival, liver function, and control of postnatal body growth by regulating hepatocyte gene expression.
Authors: François Tronche; Christian Opherk; Richard Moriggl; Christoph Kellendonk; Andreas Reimann; Lukas Schwake; Holger M Reichardt; Katharina Stangl; Daniel Gau; Andreas Hoeflich; Hartmut Beug; Wolfgang Schmid; Günther Schütz Journal: Genes Dev Date: 2004-03-01 Impact factor: 11.361
Authors: Mary K Wojczynski; Laurence D Parnell; Toni I Pollin; Chao Q Lai; Mary F Feitosa; Jeff R O'Connell; Alexis C Frazier-Wood; Quince Gibson; Stella Aslibekyan; Kathy A Ryan; Michael A Province; Hemant K Tiwari; Jose M Ordovas; Alan R Shuldiner; Donna K Arnett; Ingrid B Borecki Journal: Metabolism Date: 2015-07-03 Impact factor: 8.694