Allosteric sites of phosphodiesterase-5 (PDE5). A potential role in negative feedback regulation of cGMP signaling in corpus cavernosum.

To date, relative cellular levels of cGMP and cGMP-binding proteins have not been considered important in the regulation of smooth muscle or any other tissue. In rabbit penile corpus cavernosum, intracellular cGMP was determined to be 18 +/- 4 nM, whereas the cGMP-binding sites of types Ialpha and Ibeta cGMP-dependent protein kinase (PKG) and cGMP-binding cGMP-specific phosphodiesterase (PDE5) were 58 +/- 14 nM and 188 +/- 6 nM, respectively, as estimated by two different methods for each protein. Thus, total cGMP-binding sites (246 nM) greatly exceed total cGMP. Given this excess of cGMP-binding sites and the high affinities of PKG and PDE5 for cGMP, it is likely that a large portion of intracellular cGMP is associated with these proteins, which could provide a dynamic reservoir for cGMP. Phosphorylation of PDE5 by PKG is known to increase the affinity of PDE5 allosteric sites for cGMP, suggesting the potential for regulation of a reservoir of cGMP bound to this protein. Enhanced binding of cGMP by phosphorylated PDE5 could reduce the amount of cGMP available for activation of PKG, contributing to feedback inhibition of smooth muscle relaxation or other processes. This introduces a new concept for cyclic nucleotide signaling.

cAMP response element-binding protein (CREB) interacts with transcription factors IIB and IID.

cAMP response element-binding protein (CREB) participates in both constitutive and cAMP-induced transcription of cAMP-responsive genes. CREB-mediated constitutive transcription requires only CREB-binding sites and a minimal promoter region (containing the TATA through start sequences), indicating that CREB interacts directly with components of the general transcription machinery. In this study, a coimmunoprecipitation assay was used to test for interaction of CREB with the general transcription factors (TF) TFIIB and TFIID and the core component of TFIID, TATA-binding protein (TBP). Human TFIIB and TBP, tagged with distinct epitopes (eTFIIB and eTBP), were expressed in and purified from Escherichia coli, and holo-eTFIID, containing eTBP, was obtained from the HeLa cell line LTR alpha 3. 35S-Labeled CREB, synthesized in vitro and incubated with eTFIIB, was coimmunoprecipitated with antibody recognizing eTFIIB, indicating that CREB specifically binds to TFIIB. 35S-CREB was coimmunoprecipitated with antibody against eTBP, but only when incubated with the holo-eTFIID complex, not with eTBP alone. TFIIB interacted with TBP, but CREB was not coprecipitated with the eTBP antibody when incubated with eTBP plus TFIIB, so CREB did not form a stable ternary complex with TFIIB and TBP. Conversely, depletion of TFIIB from the holo-TFIID preparation did not diminish the level of interaction between CREB and TFIID. Thus, CREB interacts independently with TFIIB and TFIID, but not directly with TBP. A protein kinase A phosphorylation site mutant of CREB and wild-type CREB exhibited equivalent interaction with TFIIB, indicating that this phosphorylation is not required. Consistent with the role of CREB in promoting constitutive or basal transcription, the constitutive activation domain of CREB was sufficient for interaction with both TFIIB and TFIID.