Earl W. Sutherland scite author profile

Cyclic AMP (adenosine 3',5'-monophosphate or cyclic adenylate) has now been established as a second messenger mediating many of the effects of a variety of hormones. Several of the metabolic effects mediated by cyclic AMP are discussed, and it is suggested that certain other ("functional" or "mechanical") hormonal effects may be similarly mediated. In particular, the evidence presented supports the hypothesis that the positive inotropic response to the catecholamines is mediated by cyclic AMP. Although knowledge of the biological role of cyclic AMP has not been widely applied clinically, sufficient knowledge has now accumulated to make research in this area desirable.

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Regulation of rat intestinal Na-dependent phosphate transporters by dietary phosphate

Giral

Caldas

Sutherland

et al. 2009

American Journal of Physiology-Renal Physiology

139

186

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Hyperphosphatemia associated with chronic kidney disease is one of the factors that can promote vascular calcification, and intestinal P(i) absorption is one of the pharmacological targets that prevents it. The type II Na-P(i) cotransporter NaPi-2b is the major transporter that mediates P(i) reabsorption in the intestine. The potential role and regulation of other Na-P(i) transporters remain unknown. We have identified expression of the type III Na-P(i) cotransporter PiT-1 in the apical membrane of enterocytes. Na-P(i) transport activity and NaPi-2b and PiT-1 proteins are mostly expressed in the duodenum and jejunum of rat small intestine; their expression is negligible in the ileum. In response to a chronic low-P(i) diet, there is an adaptive response restricted to the jejunum, with increased brush border membrane (BBM) Na-P(i) transport activity and NaPi-2b, but not PiT-1, protein and mRNA abundance. However, in rats acutely switched from a low- to a high-P(i) diet, there is an increase in BBM Na-P(i) transport activity in the duodenum that is associated with an increase in BBM NaPi-2b protein abundance. Acute adaptive upregulation is restricted to the duodenum and induces an increase in serum P(i) that produces a transient postprandial hyperphosphatemia. Our study, therefore, indicates that Na-P(i) transport activity and NaPi-2b protein expression are differentially regulated in the duodenum vs. the jejunum and that postprandial upregulation of NaPi-2b could be a potential target for treatment of hyperphosphatemia.

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Cyclic AMP

Robinson¹,

Butcher²,

Sutherland³

1968

Annu. Rev. Biochem.

1,016

207

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Studies on the Mechanism of Hormone Action

Sutherland

1972

Science

631

185

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Adenyl Cyclase as an Adrenergic Receptor*

Robison

Butcher

Sutherland

1967

Annals of the New York Academy of Sciences

665

138

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