Irene Cooper scite author profile

The use of testicular interstitial fluid (IF) collected from the rat testis has been validated as (1) an index of the total extracellular extratubular fluid volume of the testis (which reflects the permeability of testicular capillaries) and (2) as a means of measuring changes in the interstitial hormonal environment. The former was tested by comparing the albumin 'space' with the volume of recovered IF in the same testes from control and bilaterally cryptorchid rats sampled at 0-40 h after injection of hCG. Although the volume of IF recovered was on average only 50% of the albumin 'space', both measures increased in parallel after hCG injection and were always closely correlated (P less than 0.001) over a 4- to 5-fold range. The volume of recovered IF increased with age in parallel with increase in testicular weight, and the testosterone concentration in IF paralleled changes in peripheral serum, increasing from 45 to 80 days of age and then declining. After injection of 25 micrograms bovine LH, testosterone levels in IF, spermatic venous (SV) and peripheral venous (PV) blood increased up to 10-fold by 1 h and returned to control levels over the next 11 h. Testosterone levels in IF were always considerably higher than those in SV blood, but this difference was not constant. Subcutaneous injection of rats with an LH-RH agonist resulted in parallel increases in the serum levels of LH and in the IF and PV levels of testosterone. However, at 6 h there was an 'LH-independent' secondary increase in testosterone levels which was associated with an increase in IF volume, reflecting an increase in capillary wall permeability and hence increased transport of LH into the testis.

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Re-evaluation of the intratesticular level of testosterone required for quantitative maintenance of spermatogenesis in the rat

Sharpe

Donachie²,

Cooper³

1988

149

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The amount of testosterone required for quantitative maintenance of spermatogenesis has been re-evaluated using techniques aimed at minimizing the synthesis of testosterone after removal of the testis. Adult male rats were treated with ethane dimethane-sulphonate (EDS) to destroy the Leydig cells, and were supplemented with 25, 5 or 1 mg testosterone esters by injection every 3 days for 21 days. Serum hormone levels, testicular morphology and spermatogenesis were assessed and the intratesticular levels of testosterone compared in testes either removed under ether anaesthesia and placed in liquid nitrogen (right testis) or removed after collection of blood and placed in ice (left testis). Data for testosterone-supplemented rats were compared with those for control rats and rats treated with EDS alone. All doses of testosterone suppressed LH and FSH levels in serum to within the hypophysectomized range, and Leydig cell regeneration in EDS-treated rats was prevented completely. Treatment of EDS-injected rats with 25 or 5 mg testosterone maintained testicular weight, the number of germ cells and the diameter of seminiferous tubules at stage VII within or above the control range, although there was a significant increase in the number of degenerating pachytene spermatocytes at stage VII with 5 but not 25 mg testosterone; none of these parameters was maintained at control levels by a dose of 1 mg testosterone. Levels of testosterone in testosterone-supplemented rats differed little between testes collected in ice and liquid nitrogen, but in controls and rats treated with EDS alone, testosterone levels were overestimated by 75 and 27% respectively when comparing testes collected in ice with those collected in liquid nitrogen.(ABSTRACT TRUNCATED AT 250 WORDS)

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Prostaglandin concentrations in the semen of fertile men

Templeton¹,

Cooper²,

Kelly³

1978

Reproduction

130

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Sertoli–Leydig cell communication via an LHRH-like factor

Sharpe

Fraser

Cooper

et al. 1981

Nature

203

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The primary function of the testosterone secreted by Leydig cells is the maintenance of spermatogenesis and hence fertility. This action of testosterone is mediated by the Sertoli cells which nourish and support the developing spermatozoa. As normal Sertoli cell function is so critically dependent on normal Leydig cell function, a regulatory influence of the Sertoli cells on the Leydig cells has been suggested. Indeed, follicle-stimulating hormone (FSH), which acts only on Sertoli cells, can also cause profound changes in Leydig cell function, although how this is effected is unknown. We recently hypothesized that the Sertoli cell might be the source of a luteinizing hormone releasing hormone (LHRH)-like factor which we detected in the interstitial fluid surrounding the Leydig cells. As injected LHRH agonists cause impairment of gonadal function and directly inhibit FSH-induced changes in Leydig cell function through specific membrane receptors, this 'LHRH-like' factor has all the correct credentials for the postulated messenger between the Sertoli and Leydig cells. Here, we strengthen this case by demonstrating that seminiferous tubules from both the rat and the stumptailed macaque (Macaca arctoides) contain a factor which has LHRH-like receptor-binding and biological activity in vitro, but which is immunologically distinct from native LHRH. We have also shown that this factor is secreted in vitro by cultured rat Sertoli cells.

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Intratesticular secretion of a factor(s) with major stimulatory effects on Leydig cell testosterone secretion in vitro

Sharpe

Cooper

1984

Molecular and Cellular Endocrinology

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Irene Cooper

Testicular interstitial fluid as a monitor for changes in the intratesticular environment in the rat

Re-evaluation of the intratesticular level of testosterone required for quantitative maintenance of spermatogenesis in the rat

Prostaglandin concentrations in the semen of fertile men

Sertoli–Leydig cell communication via an LHRH-like factor

Intratesticular secretion of a factor(s) with major stimulatory effects on Leydig cell testosterone secretion in vitro

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