Elaine G. Goldstein scite author profile

AMP-activated protein kinase (AMPK) and Ca 2؉/calmodulin (CaM)-dependent protein kinase I (CaMKI) are protein kinases that are regulated both by allosteric activation (AMP and Ca 2؉ /CaM, respectively) and by phosphorylation by upstream protein kinases (AMPK kinase (AMPKK) and CaMKI kinase (CaMKIK), respectively). We now report that AMPKK can activate CaMKI and that, conversely, CaMKIK can activate AMPK. CaMKIK is 68-fold more effective at activating CaMKI than AMPK, while AMPKK is 17-fold more effective at activating AMPK than CaMKI. Our results suggest that CaMKIK and AMPKK are distinct enzymes dedicated to their respective kinase targets but with some overlap in their substrate specificities.

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Human calcium-calmodulin dependent protein kinase I: cDNA cloning, domain structure and activation by phosphorylation at threonine-177 by calcium-calmodulin dependent protein kinase I kinase.

Haribabu

et al. 1995

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Human Ca(2+)‐calmodulin (CaM) dependent protein kinase I (CaMKI) encodes a 370 amino acid protein with a calculated M(r) of 41,337. The 1.5 kb CaMKI mRNA is expressed in many different human tissues and is the product of a single gene located on human chromosome 3. CaMKI 1–306, was unable to bind Ca(2+)‐CaM and was completely inactive thereby defining an essential component of the CaM‐binding domain to residues C‐terminal to 306. CaMKI 1–294 did not bind CaM but was fully active in the absence of Ca(2+)‐CaM, indicating that residues 295–306 are sufficient to maintain CaMKI in an auto‐inhibited state. CaMKI was phosphorylated on Thr177 and its activity enhanced approximately 25‐fold by CaMKI kinase in a Ca(2+)‐CaM dependent manner. Replacement of Thr177 with Ala or Asp prevented both phosphorylation and activation by CaMKI kinase and the latter replacement also led to partial activation in the absence of CaMKI kinase. Whereas CaMKI 1–306 was unresponsive to CaMKI kinase, the 1–294 mutant was phosphorylated and activated by CaMKI kinase in both the presence and absence of Ca(2+)‐CaM although at a faster rate in its presence. These results indicate that the auto‐inhibitory domain in CaMKI gates, in a Ca(2+)‐CaM dependent fashion, accessibility of both substrates to the substrate binding cleft and CaMKI kinase to Thr177. Additionally, CaMKI kinase responds directly to Ca(2+)‐CaM with increased activity.

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Phosphorylation and Activation of Ca2+-Calmodulin-dependent Protein Kinase IV by Ca2+-Calmodulin-dependent Protein Kinase Ia Kinase

Selbert

Anderson

Huang

et al. 1995

Journal of Biological Chemistry

132

117

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Purified pig brain Ca(2+)-calmodulin (CaM)-dependent protein kinase Ia kinase (Lee, J. C., and Edelman, A. M. (1994) J. Biol. Chem. 269, 2158-2164) enhances, by up to 24-fold, the activity of recombinant CaM kinase IV in a reaction also requiring Ca(2+)-CaM and MgATP. The addition of brain extract, although capable of activating CaM kinase IV by itself, provides no further activation beyond that induced by purified CaM kinase Ia kinase, consistent with the lack of a requirement of additional components for activation. Activation is accompanied by the development of significant (38%) Ca(2+)-CaM-independent CaM kinase IV activity. In parallel fashion to its activation, CaM kinase IV is phosphorylated in a CaM kinase Ia kinase-, Ca(2+)-CaM-, and MgATP-dependent manner. Phosphorylation occurs on multiple serine and threonine residues with a Ser-P:Thr-P ratio of approximately 3:1. The identical requirements for phosphorylation and activation and a linear relationship between extent of phosphorylation of CaM kinase IV and its activation state indicate that CaM kinase IV activation is induced by its phosphorylation. Replacement of Thr-196 of CaM kinase IV with a nonphosphorylatable alanine by site-directed mutagenesis abolishes both the phosphorylation and activation of CaM kinase IV, demonstrating that Thr-196 phosphorylation is essential for activation.

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Components of a Calmodulin-dependent Protein Kinase Cascade

Anderson¹,

Means²,

Huang³

et al. 1998

Journal of Biological Chemistry

236

111

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