Cdk5/p25(nck5a) interaction with synaptic proteins in bovine brain.

Cyclin-dependent kinase 5 (Cdk5) exists in large multimeric complexes, but its function and binding partners in these complexes are unclear. We explored these issues by chromatographic and immunochemical analyses of Cdk5 and p25(nck5a) (a neuronal Cdk5 activator) and their associated proteins from bovine brain. Mono-S column enzyme eluates were divided into three fractions and analyzed by gel filtration. The majority of p25(nck5a) from Mono-S fractions I, II, and III eluted from the gel filtration column at approximately 60, 200, and 400 kDa, respectively, and Cdk5 was abundant in fractions >400 kDa. We characterized these macromolecular structures by immunoprecipitating p25(nck5a), followed by a second immunoprecipitation of remaining unbound proteins using a Cdk5 antibody. The p25(nck5a) immunoprecipitates showed association with Cdk5. Amphiphysin was detected in the 400-kDa complex and synapsin I in the >400 kDa structure. The Cdk5 immunoprecipitates, however, revealed abundant retained Cdk5 but no remaining p25(nck5a), indicating that Cdk5 in macromolecular structures is mostly unassociated with p25(nck5a). Thus, we demonstrate: an amphiphysin-associated 400-kDa Cdk5/p25(nck5a) complex, a synapsin I-associated >400-kDa Cdk5/p25(nck5a) complex, and nck5a-free Cdk5 complexes (200 to >400 kDa). Amphiphysin acts as a Cdk5/p25(nck5a) substrate in the 400-kDa complex and we speculate that Cdk5/p25(nck5a) participates in amphiphysin-mediated endocytosis.

Complete nucleotide sequence of a strain of coxsackie B4 virus of human origin that induces diabetes in mice and its comparison with nondiabetogenic coxsackie B4 JBV strain.

The E2 strain of coxsackie B4 virus (CB4), which is of human origin, can induce a diabetes-like syndrome in mice. The cDNA of the genome of the E2 strain was cloned and sequenced. The E2 viral genome was found to comprise 7,396 bases, which appear to encode a polyprotein of 2,183 amino acids with an overall similarity of 94.91% to nondiabetogenic CB4 prototype JBV strain. The E2 genome is organized like other enteroviruses. It has a 5' noncoding region of 744 nucleotides, a single long open translational reading frame starting at nucleotide 745 and extending to nucleotide 7293, a 3' noncoding region of 100 nucleotides, and a poly (A) tract. Genomic sequence comparison of the E2 and JBV strains showed 1,369 nucleotide substitutions in the genome of the E2 strain, most of which are single and silent. There were 111 resultant amino acid changes arising from some of these substitutions, including 82 amino acid changes in the noncapsid proteins, and 29 amino acid changes in the capsid proteins VP1, VP2, VP3, and VP4, which showed 11, 13, 4, and 1 substitution(s), respectively. Noncapsid protein P2-C showed eight amino acid substitutions. On the basis of the sequence comparison of E2 and JBV strains of CB4, we suggest that some of the amino acid changes in the capsid and noncapsid proteins of the E2 strain may be involved in the determination of its diabetogenicity.