Dean H. Lockwood scite author profile

1. Castration of adult rats resulted in marked decreases in the amounts of putrescine, spermidine and spermine in the ventral prostate gland. Spermidine concentrations decline rapidly over the first 11 days after androgen withdrawal, reaching a value of only 12% of normal controls. Spermine concentrations diminish more slowly, reaching 24% of normal within 11 days. The spermidine/spermine molar ratio falls from 0.9 to 0.46 under these conditions. Putrescine concentrations decrease by 70% at 7 days after castration and then remain constant for some days. 2. After daily injections of testosterone propionate to rats castrated 7 days previously, prostatic spermidine and putrescine concentrations increase significantly within 24h; normal or even greater values are observed within 8 and 4 days respectively. In contrast, the spermine concentration does not increase until 5 days after commencement of androgen treatment. 3. The activities of two enzymes involved in polyamine biosynthesis (ornithine decarboxylase and a putrescine-activated S-adenosyl-l-methionine decarboxylase system) were greatly decreased soon after castration: after 7 days the respective values were 15% of normal for ornithine decarboxylase and 7% of normal for putrescine-dependent decarboxylation of S-adenosyl-l-methionine. Injection of testosterone propionate into animals castrated 7 days previously induced a rapid increase in both enzymic activities: ornithine decarboxylase was doubled in 6h, and increased three- to four-fold within 48h, whereas the putrescine-dependent decarboxylation of S-adenosyl-l-methionine doubled in 3h and increased tenfold within 48h of commencement of daily androgen treatments. 4. The activity of these enzyme systems was very low in the ventral prostates of hypophysectomized rats and was increased by administration of testosterone in a manner similar to that found in castrated rats. 5. Alterations in the activity of two ventral-prostate enzymes involved in ornithine production (arginase) and utilization (ornithine-2-oxoglutarate transaminase) that result from changes in the androgenic status of rats are described. 6. The findings presented suggest that the activities of ornithine decarboxylase and the putrescine-dependent S-adenosyl-l-methionine decarboxylase system, rather than ornithine concentrations, are rate-limiting for the formation of putrescine and polyamines in rat ventral prostate. 7. The relation of polyamines to androgen-induced prostatic growth is discussed with particular reference to the biosynthesis of proteins and nucleic acids.

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Pituitary adrenal recovery following short-term suppression with corticosteroids

Streck¹,

Lockwood²

1979

The American Journal of Medicine

165

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Role of insulin receptor phosphorylation in the insulinomimetic effects of hydrogen peroxide.

Hayes

Lockwood

1987

Proc. Natl. Acad. Sci. U.S.A.

146

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The oxidant H202 has many insulin-like effects in rat adipocytes. To determine whether these effects could be mediated by the tyrosine kinase activity of the insulin receptor, the ability of H202 to stimulate receptor phosphorylation in intact adipocytes and partially purified insulin receptors has been examined. Phosphorylation of the I8 subunit of the insulin receptor was increased 2-fold by treatment of intact cells with 3 mM H202, a concentration that maximally stimulates 2-deoxyglucose uptake. Stimulation of receptor phosphorylation was rapid, reaching maximal levels within 5 min, and preceded activation of glucose transport.Phosphoamino acid analysis of insulin receptors from H202-treated adipocytes showed that 32p incorporation into phosphotyrosine and phosphoserine residues of the .3 subunit was enhanced. Furthermore, partially purified receptors from H202-treated cells exhibit increased tyrosine kinase activity, as measured by phosphorylation of the peptide Glu8oTyr20. In contrast, the direct addition of H202 to partially purified insulin receptors did not stimulate tyrosine kinase activity or insulin receptor autophosphorylation. This was not due to breakdown of H202 or oxidation of ATP or the required divalent cations. To define the factors involved in H202's effect, we have examined receptor phosphorylation in fat cell homogenates and purified plasma membranes. Although insulin stimulated receptor phosphorylation in both of these systems, H202 was only effective in the cell homogenates. These data demonstrate that, under certain conditions, H202 stimulates insulin receptor phosphorylation and tyrosine kinase activity, suggesting that the insulin-like effects of H202 may be mediated by stimulation of insulin receptor phosphorylation. This does not appear to be a direct effect of H202 on the insulin receptor and requires nonplasma membrane cellular constituents.In intact cells (1) and cell-free systems (2) the insulin receptor is rapidly phosphorylated subsequent to insulin binding. In cell-free systems phosphorylation occurs exclusively on tyrosine residues (2), whereas in intact cells serine is also phosphorylated (1). The f subunit of the receptor contains an ATP binding site (3) and evidence indicates that the insulin receptor itself is a tyrosine-specific protein kinase that undergoes autophosphorylation in an insulin-dependent manner (4). Receptor autophosphorylation enhances the tyrosine kinase activity toward exogenous substrates (5). The intrinsic nature of this kinase activity, as well as the insulin concentration dependence (6) and time course of autophosphorylation (7), has led to the proposal that receptor phosphorylation is an early step in coupling hormone binding to insulin action.The oxidant H202 has many insulin-like effects in rat adipocytes, including stimulation of glucose transport (8, 9), stimulation of glucose utilization (10), and inhibition of hormone-stimulated lipolysis (11). However, H202 has no effect on insulin binding (12). This has led to its use as a tool to ev...

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Dean H. Lockwood

Concentrations of putrescine and polyamines and their enzymic synthesis during androgen-induced prostatic growth

Pituitary adrenal recovery following short-term suppression with corticosteroids

Role of insulin receptor phosphorylation in the insulinomimetic effects of hydrogen peroxide.

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