A peptide mimetic of calcium.

AUTOR(ES)

Dillon, J

RESUMO

Proteins of the troponin superfamily use homologous amino acid sequences as binding sites for Ca2+ and seem to have evolved from an ancestral Ca2+ binding site. We have utilized this ancestral sequence to construct a peptide (Ca(2+)-like peptide) with inverted hydropathy to the calcium-coordinating region of this protein. This synthetic peptide acted like Ca2+ in that (i) it increased the calmodulin-dependent hydrolysis of cAMP by phosphodiesterase, (ii) it interacted with EDTA, and (iii) it enhanced contraction of urinary bladder smooth muscle in vitro. Unlike Ca2+, the peptide's effects were destroyed by acid hydrolysis. These findings demonstrate the synthesis of a peptide that can substitute for Ca2+ and may have considerable utility for the study of Ca(2+)-regulated pathways and possible therapeutic value as a pharmacologic agent.

Documentos Relacionados

• Erythropoiesis in vitro. Role of calcium.
• Uncoupling of electrotonic synapses by calcium.
• Connexin-mimetic peptide Gap 27 decreases osteoclastic activity
• Simultaneous measurement of ciliary beating and intracellular calcium.
• Translocation of Calcium. Exchange versus Mass Flow 123