Compensatory phosphorylation and protein-protein interactions revealed by loss of function and gain of function mutants of multiple serine phosphorylation sites in endothelial nitric-oxide synthase

Philip M. Bauer, David J Fulton, Yong Chool Boo, George P. Sorescu, Bruce E. Kemp, Hanjoong Jo, William C. Sessa

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Abstract

We examined the influence of individual serine phosphorylation sites in endothelial nitric-oxide synthase (eNOS) on basal and stimulated NO release, cooperative phosphorylation, and co-association with hsp90 and Akt. Mutation of the serine phosphorylation sites 116, 617, and 1179 to alanines affected the phospho-state of at least one other site, demonstrating cooperation between multiple phosphorylation events, whereas mutation of serine 635 to alanine did not cause compensation. Mutation of serines 116 and 617 to alanine promoted a greater protein-protein interaction with hsp90 and Akt and greater phosphorylation on serine 1179, the major site for Akt phosphorylation. More importantly, using alanine substitutions, Ser-116 is important for agonist, but not basal NO release, Ser-635 is important for basal, but not stimulated, Ser-617 negatively regulates basal and stimulated NO release, and Ser-1179 phosphorylation is stimulatory for both basal and agonist-mediated NO release. Using putative "gain of function" mutants (serine to aspartate) serines 635 and 1179 are important positive regulators of basal and stimulated NO release. S635D eNOS is the most efficacious, yielding 5-fold increases in basal and 2-fold increases in stimulated NO release from cells. However, S617A and S617D eNOS both increased NO release with opposite actions in NOS activity assays. Thus, multiple serine phosphorylation events regulate basal and stimulate NO release with Ser-635 and Ser-1179 being important positive regulatory sites and Ser-116 as a negative regulatory. Ser-617 may not be important for directly regulating NO release but is important as a modulator of phosphorylation at other sites and protein-protein interactions.

Original languageEnglish (US)
Pages (from-to)14841-14849
Number of pages9
JournalJournal of Biological Chemistry
Volume278
Issue number17
DOIs
StatePublished - Apr 25 2003
Externally publishedYes

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Phosphorylation
Nitric Oxide Synthase Type III
Serine
Alanine
Proteins
Mutation
Aspartic Acid
Modulators
Assays
Substitution reactions
Association reactions

ASJC Scopus subject areas

  • Biochemistry
  • Molecular Biology
  • Cell Biology

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Compensatory phosphorylation and protein-protein interactions revealed by loss of function and gain of function mutants of multiple serine phosphorylation sites in endothelial nitric-oxide synthase. / Bauer, Philip M.; Fulton, David J; Boo, Yong Chool; Sorescu, George P.; Kemp, Bruce E.; Jo, Hanjoong; Sessa, William C.

In: Journal of Biological Chemistry, Vol. 278, No. 17, 25.04.2003, p. 14841-14849.

Research output: Contribution to journalArticle

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abstract = "We examined the influence of individual serine phosphorylation sites in endothelial nitric-oxide synthase (eNOS) on basal and stimulated NO release, cooperative phosphorylation, and co-association with hsp90 and Akt. Mutation of the serine phosphorylation sites 116, 617, and 1179 to alanines affected the phospho-state of at least one other site, demonstrating cooperation between multiple phosphorylation events, whereas mutation of serine 635 to alanine did not cause compensation. Mutation of serines 116 and 617 to alanine promoted a greater protein-protein interaction with hsp90 and Akt and greater phosphorylation on serine 1179, the major site for Akt phosphorylation. More importantly, using alanine substitutions, Ser-116 is important for agonist, but not basal NO release, Ser-635 is important for basal, but not stimulated, Ser-617 negatively regulates basal and stimulated NO release, and Ser-1179 phosphorylation is stimulatory for both basal and agonist-mediated NO release. Using putative {"}gain of function{"} mutants (serine to aspartate) serines 635 and 1179 are important positive regulators of basal and stimulated NO release. S635D eNOS is the most efficacious, yielding 5-fold increases in basal and 2-fold increases in stimulated NO release from cells. However, S617A and S617D eNOS both increased NO release with opposite actions in NOS activity assays. Thus, multiple serine phosphorylation events regulate basal and stimulate NO release with Ser-635 and Ser-1179 being important positive regulatory sites and Ser-116 as a negative regulatory. Ser-617 may not be important for directly regulating NO release but is important as a modulator of phosphorylation at other sites and protein-protein interactions.",
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T1 - Compensatory phosphorylation and protein-protein interactions revealed by loss of function and gain of function mutants of multiple serine phosphorylation sites in endothelial nitric-oxide synthase

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AU - Fulton, David J

AU - Boo, Yong Chool

AU - Sorescu, George P.

AU - Kemp, Bruce E.

AU - Jo, Hanjoong

AU - Sessa, William C.

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N2 - We examined the influence of individual serine phosphorylation sites in endothelial nitric-oxide synthase (eNOS) on basal and stimulated NO release, cooperative phosphorylation, and co-association with hsp90 and Akt. Mutation of the serine phosphorylation sites 116, 617, and 1179 to alanines affected the phospho-state of at least one other site, demonstrating cooperation between multiple phosphorylation events, whereas mutation of serine 635 to alanine did not cause compensation. Mutation of serines 116 and 617 to alanine promoted a greater protein-protein interaction with hsp90 and Akt and greater phosphorylation on serine 1179, the major site for Akt phosphorylation. More importantly, using alanine substitutions, Ser-116 is important for agonist, but not basal NO release, Ser-635 is important for basal, but not stimulated, Ser-617 negatively regulates basal and stimulated NO release, and Ser-1179 phosphorylation is stimulatory for both basal and agonist-mediated NO release. Using putative "gain of function" mutants (serine to aspartate) serines 635 and 1179 are important positive regulators of basal and stimulated NO release. S635D eNOS is the most efficacious, yielding 5-fold increases in basal and 2-fold increases in stimulated NO release from cells. However, S617A and S617D eNOS both increased NO release with opposite actions in NOS activity assays. Thus, multiple serine phosphorylation events regulate basal and stimulate NO release with Ser-635 and Ser-1179 being important positive regulatory sites and Ser-116 as a negative regulatory. Ser-617 may not be important for directly regulating NO release but is important as a modulator of phosphorylation at other sites and protein-protein interactions.

AB - We examined the influence of individual serine phosphorylation sites in endothelial nitric-oxide synthase (eNOS) on basal and stimulated NO release, cooperative phosphorylation, and co-association with hsp90 and Akt. Mutation of the serine phosphorylation sites 116, 617, and 1179 to alanines affected the phospho-state of at least one other site, demonstrating cooperation between multiple phosphorylation events, whereas mutation of serine 635 to alanine did not cause compensation. Mutation of serines 116 and 617 to alanine promoted a greater protein-protein interaction with hsp90 and Akt and greater phosphorylation on serine 1179, the major site for Akt phosphorylation. More importantly, using alanine substitutions, Ser-116 is important for agonist, but not basal NO release, Ser-635 is important for basal, but not stimulated, Ser-617 negatively regulates basal and stimulated NO release, and Ser-1179 phosphorylation is stimulatory for both basal and agonist-mediated NO release. Using putative "gain of function" mutants (serine to aspartate) serines 635 and 1179 are important positive regulators of basal and stimulated NO release. S635D eNOS is the most efficacious, yielding 5-fold increases in basal and 2-fold increases in stimulated NO release from cells. However, S617A and S617D eNOS both increased NO release with opposite actions in NOS activity assays. Thus, multiple serine phosphorylation events regulate basal and stimulate NO release with Ser-635 and Ser-1179 being important positive regulatory sites and Ser-116 as a negative regulatory. Ser-617 may not be important for directly regulating NO release but is important as a modulator of phosphorylation at other sites and protein-protein interactions.

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