Regulatory and structural motifs of chicken gizzard myosin light chain kinase.

Olson, Norma J.; Pearson, Richard B.; Needleman, David S.; Hurwitz, Mary Y.; Kemp, Bruce E.; Means, Anthony R.

doi:10.1073/pnas.87.6.2284

Cited by 195 publications

(125 citation statements)

References 23 publications

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“…Many CaM regulated kinases, including skMLCK, smMLCK, and MKII, are activated by the removal of an autoinhibitory sequence from the active site of the enzyme, an event that can be triggered either by the binding of CaM to a nearby sequence or by phosphorylation of key residues (Zurini et al, 1984;Edelman et al, 1985;Pearson et al, 1988;Olson et al, 1990;Gallagher et al, 1993;Brickey et al, 1994;Krueger et al, 1995;Goldberg et al, 1996). For these proteins, the smaller Ca2+ affinity enhancement observed for the full-size enzyme relative to the isolated target peptide is likely to stem, at least in part, from the energetic cost of removing autoinhibition.…”

Section: Origins Of the Different Tuning Observed For Target Peptidesmentioning

confidence: 99%

Intermolecular tuning of calmodulin by target peptides and proteins: Differential effects on Ca²⁺ binding and implications for kinase activation

1997

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Ca2+-activated calmodulin (CaM) regulates many target enzymes by docking to an amphiphilic target helix of variable sequence. This study compares the equilibrium Ca2+ binding and Ca2+ dissociation kinetics of CaM complexed to target peptides derived from five different CaM-regulated proteins: phosphorylase kinase, CaM-dependent protein kinase 11, skeletal and smooth myosin light chain kinases, and the plasma membrane Ca2+-ATPase. The results reveal that different target peptides can tune the Ca2+ binding affinities and kinetics of the two CaM domains over a wide range of Ca2+ concentrations and time scales. The five peptides increase the Ca2+ affinity of the N-terminal regulatory domain from 14-to 350-fold and slow its Ca2+ dissociation kinetics from 60-to 140-fold. Smaller effects are observed for the C-terminal domain, where peptides increase the apparent Ca2+ affinity 8-to 100-fold and slow dissociation kinetics 13-to 32-fold. In full-length skeletal myosin light chain kinase the inter-molecular tuning provided by the isolated target peptide is further modulated by other tuning interactions, resulting in a CaM-protein complex that has a 10-fold lower Ca2+ affinity than the analogous CaM-peptide complex. Unlike the CaM-peptide complexes, Ca2+ dissociation from the protein complex follows monoexponential kinetics in which all four Ca2+ ions dissociate at a rate comparable to the slow rate observed in the peptide complex. The two Ca2+ ions bound to the CaM N-terminal domain are substantially occluded in the CaM-protein complex. Overall, the results indicate that the cellular activation of myosin light chain kinase is likely to be triggered by the binding of free CaZ2+-CaM or Cq2+-CaM after a Ca2+ signal has begun and that inactivation of the complex is initiated by a single rate-limiting event, which is proposed to be either the direct dissociation of Ca2+ ions from the bound C-terminal domain or the dissociation of Ca2+ loaded C-terminal domain from skMLCK. The observed target-induced variations in Ca2+ affinities and dissociation rates could serve to tune CaM activation and inactivation for different cellular pathways, and also must counterbalance the variable energetic costs of driving the activating conformational change in different target enzymes.Keywords: calcium signaling; calmodulin; kinase regulation; protein-protein interactionsThe ubiquitous protein calmodulin (CaM) plays a crucial role in Ca2+ signaling (Beckingham, 1995;Braun & Schulman, 1995; Clapham, 1995;Wolenski, 1995; Berridge, 1996), where it regulates a wide range of cellular processes by serving as an intracellular receptor for Ca2+ ions (Wheeler et al

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Section: Origins Of the Different Tuning Observed For Target Peptidesmentioning

confidence: 99%

Intermolecular tuning of calmodulin by target peptides and proteins: Differential effects on Ca²⁺ binding and implications for kinase activation

1997

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“…In the central portion of the molecule, the sequences commonly observed in various protein kinases [3][4][5] are found and, therefore, it is assigned that the catalytic domain exists at the central part of the molecule. Calmodulin binding peptide was isolated by Lukas et al [6] and the sequence correlates with residues 797-816 of chicken gizzard MLCK sequence [3,4] which lies towards the C-terminal side of the catalytic domain. Kemp et al [7] found that residues 788-811 showed significant homology to the N-terminal sequence of the regulatory light chain of myosin and that a synthetic peptide analog of this region inhibited Ca2÷/calmodulindependent MLCK activity.…”

Section: Introductionmentioning

confidence: 99%

“…Phosphorylation of the regulatory light chain of myosin is catalyzed by a Ca~-*/ calmodulin-dependent myosin light chain kinase (MLCK). The structure-function relationships of smooth muscle MLCK are greatly assisted by the determination of the complete amino acid sequence [3][4][5]. In the central portion of the molecule, the sequences commonly observed in various protein kinases [3][4][5] are found and, therefore, it is assigned that the catalytic domain exists at the central part of the molecule.…”

Section: Introductionmentioning

confidence: 99%

“…The structure-function relationships of smooth muscle MLCK are greatly assisted by the determination of the complete amino acid sequence [3][4][5]. In the central portion of the molecule, the sequences commonly observed in various protein kinases [3][4][5] are found and, therefore, it is assigned that the catalytic domain exists at the central part of the molecule. Calmodulin binding peptide was isolated by Lukas et al [6] and the sequence correlates with residues 797-816 of chicken gizzard MLCK sequence [3,4] which lies towards the C-terminal side of the catalytic domain.…”

Section: Introductionmentioning

confidence: 99%

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Primary structure required for the inhibition of smooth muscle myosin light chain kinase

1992

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Myosin light chain kinase (MLCK) contains the autoinhibitor sequence right next to the N-terminus side of the ealrnodulia binding region. In this paper, the structural requirement of the inhibition of MLCK activity was studied using synthetic peptide analogs. Peptides Ala-783-Lys-799 and Ala-783-Arg-798 inhibited ealmodulin independent MLCK at the same potency as the peptide Ala-783-Gly-804. Deletion of Arg-797-Lys-799 or substitution of these residues to Ala markedly increased the /f~ while the substitution of Lys-792 and Lys-793 to Ala and the deletion of Lys-784--Lys-785 did not affect the inhibitory activity o1" the peptides. The results suggest that Arg-797-Arg-798 are especially important for the inhibitory activity among other basic residues in the autoinhibitory region.

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“…12 It is generally accepted that this initial phase is dependent on phosphorylation of the 20-kDa myosin light chain (MLC 20 ) and the consequent activation of the acto-myosin ATPase, with recruitment of fast-cycling cross-bridges. The regulation of MLC 20 phosphorylation is therefore a key limiting event of shortening velocity. Net MLC 20 phosphorylation reflects the opposing enzyme activity of myosin light chain kinase (MLCK) and myosin light chain phosphatase, which phosphorylate and dephosphorylate MLC 20 , respectively.…”

Section: Introductionmentioning

confidence: 99%

Ontogenesis of myosin light chain kinase mRNA and protein content in guinea pig tracheal smooth muscle

Chitano

Voynow

Pozzato

et al. 2004

Pediatric Pulmonology

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SummaryWe previously reported in guinea pig tracheal smooth muscle that maximal shortening velocity decreases from 3 weeks of age to adulthood. It is not known whether myosin light chain kinase (MLCK), a key enzyme determining the velocity of smooth muscle contraction, undergoes maturational changes. In the present work, we investigated MLCK protein content and mRNA expression in 1-week-old, 3-week-old, and adult guinea pigs. We extracted either proteins or RNA from isolated tracheal smooth muscle. The content of MLCK was assessed by Western immunoblots. MLCK mRNA was evaluated by Northern analysis and by quantitative real time reverse transcriptase-polymerase chain reaction (RT-PCR). The content of MLCK increased 3-fold at 3 weeks of age and then decreased in adults, being 0.116 30.042, 0.330 30.125 (P<0.05), and 0.153 30.054 mg/mg of total protein, respectively, in 1-week, 3-week, and adult animals. Quantitative RT-PCR revealed that MLCK mRNA increased with age to 135 335% and 177 323% (P<0.01) in 3-week and adult animals, respectively, compared to 1-week animals. The transient increase of MLCK content in juvenile guinea pig tracheal smooth muscle may contribute to the increased shortening velocity at this age. We suggest that this increased content of MLCK is one of the mechanisms leading to maturation of airway smooth muscle contractility, which in turn contributes to the airway hyperresponsiveness reported in children and young animals.

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Regulatory and structural motifs of chicken gizzard myosin light chain kinase.

Cited by 195 publications

References 23 publications

Intermolecular tuning of calmodulin by target peptides and proteins: Differential effects on Ca²⁺ binding and implications for kinase activation

Intermolecular tuning of calmodulin by target peptides and proteins: Differential effects on Ca²⁺ binding and implications for kinase activation

Primary structure required for the inhibition of smooth muscle myosin light chain kinase

Ontogenesis of myosin light chain kinase mRNA and protein content in guinea pig tracheal smooth muscle

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Regulatory and structural motifs of chicken gizzard myosin light chain kinase.

Cited by 195 publications

References 23 publications

Intermolecular tuning of calmodulin by target peptides and proteins: Differential effects on Ca2+ binding and implications for kinase activation

Intermolecular tuning of calmodulin by target peptides and proteins: Differential effects on Ca2+ binding and implications for kinase activation

Primary structure required for the inhibition of smooth muscle myosin light chain kinase

Ontogenesis of myosin light chain kinase mRNA and protein content in guinea pig tracheal smooth muscle

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Intermolecular tuning of calmodulin by target peptides and proteins: Differential effects on Ca²⁺ binding and implications for kinase activation

Intermolecular tuning of calmodulin by target peptides and proteins: Differential effects on Ca²⁺ binding and implications for kinase activation