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  • Title: Increased renal atrial natriuretic peptide synthesis in rats with deoxycorticosterone acetate-salt treatment.
    Author: Lee YJ, Shin SJ, Tan MS, Hsieh TJ, Tsai JH.
    Journal: Am J Physiol; 1996 Oct; 271(4 Pt 2):F779-89. PubMed ID: 8898007.
    Abstract:
    To investigate the role of renal synthesis of atrial natriuretic peptide (ANP) as a contributor to the water-sodium homeostasis, we studied the effects of electrolyte-water imbalance on renal ANP mRNA levels, plasma ANP concentrations, and urinary ANP excretion rates by using reverse transcription-polymerase chain reaction (PCR) and radioimmunoassay. Male Wistar rates divided into the following three groups: 1) the control group, 2) deoxycorticosterone acetate (DOCA)-salt-treated group, and 3) low-salt-treated group. The urinary sodium excretion rate and urine volume in the DOCA-salt rats were significantly elevated at 2 days and for the 10-day study. The urinary ANP excretion rate in DOCA-salt rats was significantly increased at 2 days after treatment and was well correlated to the urinary sodium excretion rate (r = 0.76, P < 0.01). Plasma ANP levels in the DOCA-salt rats were elevated on the day of death. In contrast, plasma renin activities were markedly suppressed in DOCA-salt rats and increased in low-salt rats. By immunohistochemical study, immunoreactive ANP materials were mainly localized in the proximal and distal cortical tubules of the kidney. With the PCR cloning and sequencing technique, ANP cDNA was cloned from the rat kidney, and the sequences were identical to that of ANP identified in the atria. By semiquantitative PCR technique, the expression of ANP mRNA in the ventricle and renal cortex tissues was significantly enhanced in the DOCA-salt rats. Our results confirm that the rat kidney is a site of ANP synthesis and indicate that renal ANP synthesis is enhanced in a volume-expansion state. We propose that renal synthesized natriuretic peptide participates in the intrarenal regulation of water-electrolyte homeostasis and may contribute to renal adaptation during the mineralocorticoid escape phenomenon.
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