Nitric-oxide Synthase (NOS) Reductase Domain Models Suggest a New Control Element in Endothelial NOS That Attenuates Calmodulin-dependent Activity
Autor: | Clinton R. Nishida, Paul R. Ortiz de Montellano, Sean D. Mooney, Giselle M. Knudsen |
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Rok vydání: | 2003 |
Předmět: |
Models
Molecular Gene isoform animal structures Nitric Oxide Synthase Type III Calmodulin Molecular Sequence Data Reductase Endothelial NOS Biochemistry Electron Transport Electron transfer Enos Animals Humans Amino Acid Sequence Molecular Biology DNA Primers Base Sequence Sequence Homology Amino Acid biology Chemistry Cell Biology biology.organism_classification Cell biology Nitric oxide synthase biology.protein Nitric Oxide Synthase Oxidoreductases Function (biology) |
Zdroj: | Journal of Biological Chemistry. 278:31814-31824 |
ISSN: | 0021-9258 |
DOI: | 10.1074/jbc.m303267200 |
Popis: | Inducible (iNOS) and constitutive (eNOS, nNOS) nitric-oxide synthases differ in their Ca2+-calmodulin (CaM) dependence. iNOS binds CaM irreversibly but eNOS and nNOS, which bind CaM reversibly, have inserts in their reductase domains that regulate electron transfer. These include the 43-45-amino acid autoinhibitory element (AI) that attenuates electron transfer in the absence of CaM, and the C-terminal 20-40-amino acid tail that attenuates electron transfer in a CaM-independent manner. We constructed models of the reductase domains of the three NOS isoforms to predict the structural basis for CaM-dependent regulation. We have identified and characterized a loop (CD2A) within the NOS connecting domain that is highly conserved by isoform and that, like the AI element, is within direct interaction distance of the CaM binding region. The eNOS CD2A loop (eCD2A) has the sequence 834KGSPGGPPPG843, and is truncated to 809ESGSY813 (iCD2A) in iNOS. The eCD2A contributes to the Ca2+ dependence of CaM-bound activity to a level similar to that of the AI element. The eCD2A plays an autoinhibitory role in the control of NO, and CaM-dependent and -independent reductase activity, but this autoinhibitory function is masked by the dominant AI element. Finally, the iCD2A is involved in determining the salt dependence of NO activity at a post-flavin reduction level. Electrostatic interactions between the CD2A loop and the CaM-binding region, and CaM itself, provide a structural means for the CD2A to mediate CaM regulation of intra-subunit electron transfer within the active NOS complex. |
Databáze: | OpenAIRE |
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