In order to determine arterial pressure and vasoactive hormone relationships in normotensive man, we measured intra-arterial pressure continuously along with hourly venous hormone levels (renin, angiotensin II, aldosterone and catecholamines) for 24 hours in 5 healthy volunteers under standardized conditions. Mean 24-hour levels of intra-arterial pressure 106/63 +/- 5.4/4.9 mmHg were much lower than in patients with mild essential hypertension studied earlier. A common diurnal pattern was seen for plasma renin, angiotensin II, and catecholamines, with higher levels in the day time and lower levels at night. Aldosterone levels however, paralleled those of cortisol at night. Plasma norepinephrine levels showed close, positive correlations with arterial pressure in all volunteers. We conclude that the level of blood pressure as measured continuously over 24 hours is lower than might be expected from regular clinic recordings; that aldosterone regulation is contributed to by ACTH in the nocturnal hours; and that fluctuations in arterial pressure and sympathetic activity over 24 hours are closely coupled.
In the adult mouse, epidermal growth factor (EGF) is synthesized in granular convoluted tubule (intralobular) duct cells of the submandibular gland and in distal tubule cells of the kidney. The presence of EGF in developing tissues and maternal milk and the localization of EGF receptors in developing tissues suggest a role for EGF in developmental processes. The primary aims of the present study were to: (1) localize EGF and EGF-binding sites in the kidney and submandibular gland during neonatal development and (2) to determine the effect of exogenously administered EGF on cell proliferation in these two developing organs. In the present study, EGF was localized by immunocytochemistry in granular convoluted tubule cells of the submandibular gland initially on day 21 after birth and in distal tubule cells of the kidney on postnatal day 6. EGF binding in the kidney decreased after birth with some localization to the glomerulus. In submandibular glands of newborn and 10-day-old mice, EGF-binding sites were associated with both acinar and duct cells with peak binding at 10 days postnatally. Submandibular glands from 20-day-old mice demonstrated primarily ductal EGF-binding sites. Exogenously administered EGF induced a mitogenic response in acinar and interlobular duct cells of submandibular glands during the first week after birth. EGF treatment during this period had an inhibitory effect on 3H-thymidine incorporation into cellular compartments in the developing kidney. The identification of EGF-binding sites in the kidney and submandibular gland before the presence of EGF suggests that an EGF-like molecule such as transforming growth factor α (TGF-α) may be present as a potential ligand in these organs. In order to assess this possibility, developing kidneys and submandibular glands were stained with anti-TGF-α. These immunocytochemical studies localized TGF-α to the proximal tubule of the kidney and immature acinar cells of the newborn mouse. Our data strongly support an autocrine, juxtacrine or paracrine role for EGF and/or TGF-α in the regulation of cell proliferation and cytodifferentiation in the kidney and submandibular gland.
Bovine parathyroid organoids were maintained for up to 12 days of culture in the presence or absence of insulin. Insulin-treated organoids secreted more PTH and secretory protein-I (SP-I) than did untreated organoids at both 1.4 and 1.8 mM Ca, concentrations chosen to promote partially elevated and suppressed secretion rates, respectively. The insulin effect was dose dependent and reversible. To determine whether insulin might increase secretion by reducing degradation of cellular PTH, its effects on several parameters related to degradative processes were examined. Compared to control cultures maintained at either 1.4 or 1.8 mM Ca, insulin did not induce changes in the relative levels of intact hormone and COOH-terminal peptide fragments secreted into culture medium, nor did it decrease the total cellular levels of three lysosomal enzymes or mute the effects of 3-methyladenine (an agent that decreases formation of autophagosomes) to increase PTH secretion. Thus, insulin did not appear to increase PTH secretion by reducing the latter's cellular degradation. Synthesis of total proteins and of the secreted proteins SP-I and PTH was examined using short incubations of control and insulin-treated organoids with [3H] leucine. Incorporation of 3H into total acid-precipitable proteins was not elevated in insulin-treated organoids; that into PTH/pro-PTH and SP-I, however, was significantly greater in insulin-treated than in control organoids. The results suggested that the insulin-mediated increase in PTH and SP-I secretion is largely due to its regulation of PTH and SP-I biosynthesis.
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