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Query: EC:1.1.1.3 (
HSD
)
3,464
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The messenger RNA abundance of proopiome-lanocortin (POMC) is increased in neurointermediate lobe (NIL) of rat pituitary when ingesting a high sodium diet (8%;
HSD
), as is the plasma concentration of the
natriuretic peptide
gamma-melanocyte stimulating hormone (gammay-MSH) derived from it. We examined whether the
HSD
also increases the mRNA abundance in rat NIL of proconvertases 1 and 2 (PC1, PC2), enzymes involved in the processing of POMC into gamma-MSH. PC1 mRNA increased by 40% after two weeks of the
HSD
and by 84% after three weeks. PC2 mRNA increased by 40% after two weeks and by more than 3 fold after three weeks. These results for PC2 were confined to NIL as shown by in situ hybridization at one and two weeks, and were accompanied by a significant increase in NIL PC2 protein after three weeks of the
HSD
as measured by immunoblotting. The increases in PC1 and PC2 mRNA abundance were paralleled by an increase in POMC mRNA level in NIL. Plasma gamma-MSH immunoreactivity averaged 35.1 +/- 3.3 fmol/ml in rats on the LSD, but increased to 70.9 +/- 4.8 fmol/ml after 3 weeks of the
HSD
(p < 0.002 vs LSD). These results confirm that the
HSD
increases the plasma concentration of gamma-MSH, consistent with a role for it as a circulating
natriuretic peptide
. The increased NIL expression of PC1 and PC2 in parallel with POMC in response to the
HSD
suggests that these changes are part of the coordinated response to states of sodium surfeit.
...
PMID:Dietary sodium modulates mRNA abundance of enzymes involved in pituitary processing of proopiomelanocortin. 1250 73
The gamma-melanocyte-stimulating hormone (gamma-MSH) is a
natriuretic peptide
derived from the N-terminal region of proopiomelanocortin (POMC). Evidence suggests that it may be part of the coordinated response to a low-sodium diet (LSD). We tested the effect of the
HSD
(8% NaCl) compared with LSD (0.07%) on mean arterial pressure (MAP) in mice with targeted disruption of the PC2 gene (PC2(-/-)), necessary for processing of POMC into gamma-MSH, or the melanocortin receptor 3 gene (Mc3r(-/-); the receptor for MSH). In wild-type mice,
HSD
for 1 week did not alter MAP versus LSD mice, but plasma gamma-MSH immunoreactivity was more than double the LSD value. In contrast, in PC2(-/-) mice, MAP on the LSD was not greater than in wild-type mice, but plasma gamma-MSH was reduced to one-seventh the wild-type value. On the
HSD
, MAP rose to a markedly hypertensive level while plasma gamma-MSH concentration remained severely depressed. Intravenous infusion of gamma-MSH (0.2 pmol/min) for 30 min to PC2(-/-) mice after 1 week of
HSD
lowered MAP from hypertensive levels to normal; infusion of alpha-MSH at the same rate had no effect. Injection of 60 fmol of gamma-MSH into the lateral cerebral ventricle of hypertensive mice also lowered MAP to normal. Administration of a stable analogue of gamma-MSH intra-abdominally by microosmotic pump to PC2(-/-) mice prevented the development of hypertension when ingesting the
HSD
. In mice with targeted disruption of the Mc3r gene, the
HSD
also led to marked hypertension accompanied by elevated plasma levels of gamma-MSH; infusion of exogenous gamma-MSH to these mice had no effect on MAP. These results strongly suggest that PC2-dependent processing of POMC into gamma-MSH is necessary for the normal response to the
HSD
. gamma-MSH deficiency results in marked salt-sensitive hypertension that is rapidly improved with exogenous gamma-MSH through a central site of action. alpha-MSH infused at the same rate had no effect on MAP, indicating that the hypertension is a specific consequence of impaired POMC processing into gamma-MSH. Absence of Mc3r produces gamma-MSH resistance and hypertension on the
HSD
. These findings demonstrate a novel pathway mediating salt-sensitivity of blood pressure.
...
PMID:Genetic disruption of gamma-melanocyte-stimulating hormone signaling leads to salt-sensitive hypertension in the mouse. 1269 27
Gamma-melanocyte-stimulating hormone (gamma-MSH) is a
natriuretic peptide
derived from proopiomelanocortin (POMC) in the pituitary neurointermediate lobe (NIL); its plasma concentration in rats doubles after ingestion of a high (
HSD
; 8% NaCl) compared with a low sodium diet (LSD; 0.07%). Because NIL function is regulated through dopaminergic pathways, we asked whether dopaminergic stimulation with bromocriptine (5 mg/kg IP daily for 1 week) or inhibition with haloperidol (5 mg/kg IP for 1 week) alters the gamma-MSH response to a
HSD
. In vehicle-treated rats, plasma gamma-MSH and NIL gamma-MSH content on the
HSD
were both markedly elevated over values in rats on the LSD (P<0.001); no difference in mean arterial pressure (MAP) occurred. In haloperidol-treated rats on the LSD, both plasma gamma-MSH and NIL gamma-MSH content were greater than in vehicle-treated rats (P<0.05) and did not increase further on the
HSD
; MAP was also no different. In bromocriptine-treated rats, neither plasma gamma-MSH nor NIL gamma-MSH content increased on the
HSD
versus LSD, and MAP was markedly elevated on the
HSD
(132+/-3 versus 106+/-3 mm Hg, P<0.001). Intravenous infusion of gamma-MSH (0.4 pmol/min) to bromocriptine-treated rats on the
HSD
restored plasma gamma-MSH concentration to a level appropriate for the
HSD
and lowered MAP from 131+/-6 to 108+/-5 mm Hg (P<0.01). These results demonstrate that the increases in NIL content and plasma concentration of gamma-MSH normally occurring during ingestion of the
HSD
are prevented by dopaminergic suppression of NIL function. This results in deficiency of gamma-MSH on the
HSD
and is accompanied by elevated blood pressure, which is corrected by infusion of the peptide. gamma-MSH may be an important component in the normal response to a
HSD
; interruption of this response leads to salt-sensitive hypertension.
...
PMID:Suppression of gamma-melanocyte-stimulating hormone secretion is accompanied by salt-sensitive hypertension in the rat. 1456 96
Gamma-melanocyte stimulating hormone (gamma-MSH) is a circulating
natriuretic peptide
hormone derived from proopiomelanocortin (POMC); its concentration in plasma and pituitary POMC mRNA abundance, increase in rats ingesting a high-sodium diet (
HSD
, 8% NaCl) compared with a low-sodium diet (LSD, 0.07% NaCl). RT-PCR of rat kidney RNA demonstrated reaction products of the expected size in both cortex and medulla for MC3-R, MC4-R, and MC5-R mRNA; no signal for MC1-R or MC2-R was detected. Relative to beta-actin or cyclophilin, abundance of the three receptor transcripts after 1 wk of the LSD was approximately equal in both cortex and medulla. After 1 wk of the
HSD
, mRNA abundance of MC4-R and MC5-R was unchanged, whereas that of MC3-R in medulla more than doubled, the ratio of MC3-R/beta-actin signal increasing from 0.38 +/- 0.04 on LSD to 0.84 +/- 0.04 on
HSD
(P < 0.001). No significant increase occurred in the cortex. The increase in MC3-R expression induced by dietary sodium was observed in inner medullary collecting duct (IMCD) cells isolated from the kidneys of
HSD
rats, suggesting that these cells were the major site of receptor expression in the medulla. Immunoblots of whole medullary and IMCD cell homogenates detected MC3-R immunoreactive protein; its expression was twice as great in samples from
HSD
vs. LSD rat kidneys, paralleling the increase in MC3-R mRNA abundance on the
HSD
. No changes in MC4-R or MC5-R protein expression were observed. Incubation of IMCD cell suspensions with increasing concentrations of gamma2-MSH led to increased cAMP accumulation, with values from rats on the
HSD
being roughly double the values from LSD rats. Intrarenal infusion of gamma2-MSH (500 fmol/min) increased sodium and cAMP excretion from the infused but not contralateral kidney of
HSD
rats, while having no effect in LSD rats. These data show that MC3-R is expressed in rat IMCD cells in a manner modulated by dietary sodium intake. Because MC3-R is the receptor with which gamma-MSH interacts, our findings suggest the existence of a sodium-regulating system, activated in response to a
HSD
, which increases urinary sodium excretion to balance the high-sodium intake.
...
PMID:Modulation by dietary sodium intake of melanocortin 3 receptor mRNA and protein abundance in the rat kidney. 1619 98
Natriuretic peptides (NPs) are evolutionarily conserved hormones that affect blood pressure and fluid volume through membrane-bound guanylate cyclase (GC)-linked
natriuretic peptide
receptors-A and -B (NPR-A and NPR-B, respectively) in a variety of vascular, renal, and other tissues. The principal physiological stimulus for cardiac NPs in fish is somewhat debated between two prominent theories: regulation of salt balance (osmoregulatory hypothesis) or prevention of volume expansion (cardioprotective hypothesis). In the present study, we examined atrial and ventricular expression of trout NPs, atrial (ANP), brain (BNP), and ventricular (VNP) using Northern (mRNA), Western (NP pro-hormone), and qPCR (GC-NPR-A and -B mRNA) blot analysis following independent manipulation of plasma salt and volume levels after chronic exposure to freshwater (FW; volume loaded, salt depleted), saltwater (SW; volume depleted, salt loaded), or freshwater trout fed a high-salt diet (FW-
HSD
; volume and salt loaded). We also measured NP transcriptional response to acute (2 h) volume expansion with dialyzed plasma (VE; 80% blood vol) or volume depletion by hemorrhage (VD, 20% blood volume every 30 min for 2 h) with real-time PCR. In essentially all instances, increased expression of the NP system was associated with FW-
HSD
or plasma expansion. There were no differences in NP expression between chronically adapted FW and SW fish, and hemorrhage decreased atrial ANP and VNP mRNA. These results indicate that rainbow trout cardiac NPs and cardiovascular GC-NPRs respond principally to volume, not salt overload, and this suggests that the primary function of trout cardiac NP system is to protect the heart.
...
PMID:Responses of the trout cardiac natriuretic peptide system to manipulation of salt and water balance. 1917 86
