BACKGROUND/AIMS: Transcription factors coupled to cyclic adenosine mono phosphate (cAMP) signalling in the cAMP-responsive elements binding (CREB)/ATF family constitute a family of activators or repressors that bind to cAMP-responsive promoter elements (CREs) in the regulatory regions of cAMP-inducible genes. A role for CREB/ATF family has been advocated in the control of hepatocellular carcinoma progression. CREB appears to be activated by the X protein of hepatitis B virus, which links to the unphosphorylated form of CREB and activates transcription, thus obviating an otherwise indispensable Ser-133 phosphorylation. Identification of factors capable of triggering transcription via cAMP-responsive elements modulator (CREM)/CREB signalling in the absence of Ser phosphorylation will improve our knowledge of the molecular mechanism of liver cell proliferation. METHODS: To isolate and study proteins binding and activating CREB and/or CREM in the liver, we performed the screening of a mouse liver cDNA library using the Two-Hybrid System. RESULTS: We report the identification and characterization of a novel peptide, VTIP-peptide (VTIP-P), which binds and enhances the activation of CREM/CREB, obviating the need for transcription factor phosphorylation. We demonstrated that VTIP-P physically interacts with the activation domain (AD) of the transcription factors CREB/CREM and activates transcription by modifying their phosphorylation pattern in hepatoma cells. The data allowed the conclusion that VTIP-P binds the AD of CREB and CREM by stabilizing their phosphorylation. CONCLUSION: The characterization of molecules capable of interfering in the liver with an important pathway such as CREB could be significant in designing and/or developing new therapeutic approaches to the control of liver cell proliferation.
BACKGROUND/AIMS: Transcription factors coupled to cyclic adenosine mono phosphate (cAMP) signalling in the cAMP-responsive elements binding (CREB)/ATF family constitute a family of activators or repressors that bind to cAMP-responsive promoter elements (CREs) in the regulatory regions of cAMP-inducible genes. A role for CREB/ATF family has been advocated in the control of hepatocellular carcinoma progression. CREB appears to be activated by the X protein of hepatitis B virus, which links to the unphosphorylated form of CREB and activates transcription, thus obviating an otherwise indispensable Ser-133 phosphorylation. Identification of factors capable of triggering transcription via cAMP-responsive elements modulator (CREM)/CREB signalling in the absence of Ser phosphorylation will improve our knowledge of the molecular mechanism of liver cell proliferation. METHODS: To isolate and study proteins binding and activating CREB and/or CREM in the liver, we performed the screening of a mouse liver cDNA library using the Two-Hybrid System. RESULTS: We report the identification and characterization of a novel peptide, VTIP-peptide (VTIP-P), which binds and enhances the activation of CREM/CREB, obviating the need for transcription factor phosphorylation. We demonstrated that VTIP-P physically interacts with the activation domain (AD) of the transcription factors CREB/CREM and activates transcription by modifying their phosphorylation pattern in hepatoma cells. The data allowed the conclusion that VTIP-P binds the AD of CREB and CREM by stabilizing their phosphorylation. CONCLUSION: The characterization of molecules capable of interfering in the liver with an important pathway such as CREB could be significant in designing and/or developing new therapeutic approaches to the control of liver cell proliferation.