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Target Concepts:
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Query: EC:2.7.11.17 (
CaMKII
)
4,029
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Aldosterone synthase (
CYP11B2
) is expressed in the adrenal glomerulosa and controls the capacity of the adrenal glomerulosa to produce aldosterone. Herein, human NCI-H295R (H295R) adrenocortical cells were used to define the calcium-dependent mechanisms regulating
CYP11B2
gene transcription using reporter constructs containing
CYP11B2
gene 5'-flanking DNA. Treatment of H295R cells with calcium/calmodulin-dependent protein kinase (CaMK) inhibitor (KN93) or calmodulin inhibitor (calmidazolium) blocked angiotensin II and potassium (K(+)) stimulation of
CYP11B2
reporter gene expression. To determine which CaMK regulates
CYP11B2
, vectors containing the complete coding sequences for
CaMKI
,
CaMKII
, and
CaMKIV
were transfected with the
CYP11B2
reporter construct.
CaMKI
augmented reporter expression when cellular calcium was elevated by ionomycin, whereas
CaMKIV
had a small effect, and
CaMKII
had no effect. To further study the role of CaMKs, constitutively active forms of
CaMKI
(
CaMKI
-295), II (
CaMKII
-290), and IV (
CaMKIV
-313) were transfected with
CYP11B2
reporter constructs.
CaMKI
-295 and, to a lesser degree,
CaMKIV
-313 were able to stimulated reporter activity. Mutational analysis of the 5'-flanking region of
CYP11B2
revealed that a cAMP regulatory element (-71/-64) was necessary for
CaMKI
induction of reporter gene activity.
CaMKI
expression was shown in adrenal cortex and H295R cells using immunohistochemistry and Western and Northern analyses. These findings suggest that
CaMKI
is involved in angiotensin II and K(+) stimulation of
CYP11B2
transcription and, therefore, the capacity of the adrenal to produce aldosterone.
...
PMID:Calmodulin-dependent kinase I regulates adrenal cell expression of aldosterone synthase. 1219 81
Primary aldosteronism is the most prevalent cause of secondary hypertension. However, insights in pathophysiological mechanisms resulting in autonomous aldosterone secretion are limited. Although transcriptional regulators of aldosterone synthase (
CYP11B2
) including calcium-binding calmodulin kinase (CaMK) dependent pathways have been defined in vitro, it remains uncertain whether these mechanisms play a role in the context of dysregulated steroidogenesis in aldosterone producing adrenadenomas. Thus, we compared expression and activation of key components of CaMK pathways in aldosterone producing adenomas (APAs) with normal adrenals glands (NAGs). As expected, aldosterone synthase expression in APAs was significantly higher in comparison to NAGs, suggesting transcriptional activation as a contributing factor of aldosterone excess. Along the same line,
CaMKI
was significantly upregulated in APAs on the mRNA and protein level. Furthermore, immunohistochemistry revealed nuclear localization of
CaMKI
in these tumors. The phosphorylation of CREB, a target protein for
CaMKI
was increased, which could represent a further stimulation of aldosterone synthase transcription. In summary, this study provides indirect evidence for a causative involvement of the
CaM kinase
signaling pathway in human aldosterone producing adenomas.
...
PMID:Aldosterone producing adrenal adenomas are characterized by activation of calcium/calmodulin-dependent protein kinase (CaMK) dependent pathways. 2124 15
