Ca /calmodulin-dependent protein kinase II and calmodulin-binding proteins in bovine adrenal medullary cells.

Shenmai injection (SMI) has been widely used for the treatment of cardiovascular diseases in China. Cardiovascular disorders are often related to excessive catecholamine (CA) secretion. Here, we report the effects of SMI on CA secretion and synthesis in cultured bovine adrenal medullary cells. We found that SMI significantly reduced CA secretion induced by 300 μM acetylcholine (ACh). Cotreatment with SMI (10 μL/mL) and either of the ACh receptor α-subunit inhibitors, HEX (α3) or DhβE (α4β2), did not produce any further inhibition, indicating that SMI may play a role through α3 and α4β2 channels. Furthermore, SMI reduced tyrosine hydroxylase (TH) activity induced by ACh by inhibiting the phosphorylation of TH at Ser19 and Ser40. TH is phosphorylated at Ser19 by Ca2+/calmodulin-dependent protein kinase II (CaM kinase II) and at Ser40 by protein kinase A (PKA). KN-93 and H89, the antagonists of CaM kinase II and PKA, respectively, inhibited the ACh-induced phosphorylation at Ser19 and Ser40, and the addition of SMI did not augment the inhibitory effect. Taken together, our results show that SMI likely inhibits CA secretion by blocking TH activity at its Ser19 and Ser40 sites.

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Targeting of calcium/calmodulin-dependent protein kinase II

Biochemical Journal ◽

10.1042/bj20031547 ◽

2004 ◽

Vol 378 (1) ◽

pp. 1-16 ◽

Cited By ~ 169

Author(s):

Roger J. COLBRAN

Keyword(s):

Protein Kinase ◽

Active Form ◽

Cell Types ◽

Dependent Protein Kinase ◽

Calmodulin Binding ◽

Calcium Calmodulin Dependent ◽

Neuronal Dendrites ◽

Protein Kinase Ii ◽

Dependent Protein ◽

Camkii Activation

Calcium/calmodulin-dependent protein kinase II (CaMKII) has diverse roles in virtually all cell types and it is regulated by a plethora of mechanisms. Local changes in Ca2+ concentration drive calmodulin binding and CaMKII activation. Activity is controlled further by autophosphorylation at multiple sites, which can generate an autonomously active form of the kinase (Thr286) or can block Ca2+/calmodulin binding (Thr305/306). The regulated actions of protein phosphatases at these sites also modulate downstream signalling from CaMKII. In addition, CaMKII targeting to specific subcellular microdomains appears to be necessary to account for the known signalling specificity, and targeting is regulated by Ca2+/calmodulin and autophosphorylation. The present review focuses on recent studies revealing the diversity of CaMKII interactions with proteins localized to neuronal dendrites. Interactions with various subunits of the NMDA (N-methyl-d-aspartate) subtype of glutamate receptor have attracted the most attention, but binding of CaMKII to cytoskeletal and several other regulatory proteins has also been reported. Recent reports describing the molecular basis of each interaction and their potential role in the normal regulation of synaptic transmission and in pathological situations are discussed. These studies have revealed fundamental regulatory mechanisms that are probably important for controlling CaMKII functions in many cell types.

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