Ola Collin scite author profile

The effect of moderate reductions in testicular blood flow has not been studied systematically. The aim of this study was, therefore, to examine the effects of different degrees of blood flow reduction on testicular morphology and to determine how much flow can be reduced before damage occurs. The subcapsular testicular artery was partially ligated in the left testes of adult rats. Testicular blood flow was measured before, immediately after, and 5 h after the ligation using laser Doppler flowmetry. After 5 h of partial ligation, the testes were removed, and their morphology was examined and related to the degree of blood flow reduction. The number of in situ end-labeled- or TUNEL-positive (i.e., dying) germ cells and the volume density of intravascular polymorphonuclear (PMN) leukocytes were measured. When flow was reduced to approximately 70% or less of its pretreatment value, a dose-related increase in the number of dying spermatogonia and early spermatocytes was seen. The PMN leukocytes accumulated in testicular blood vessels after partial ligation, and the maximum number was observed in testes where flow was reduced by approximately 50% of the pretreatment value. In conclusion, early stages of spermatogenesis are sensitive to a moderate, acute reduction in blood flow. Discrete reductions in flow may, therefore, have a large impact on sperm production.

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Control of testicular vasomotion by testosterone and tubular factors in rats

Collin¹,

Bergh²,

Damber³

et al. 1993

Reproduction

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Is Nitric Oxide Involved in the Regulation of the Rat Testicular Vasculature?1

Lissbrant

Löfmark

Collin

et al. 1997

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Using immunohistochemistry, endothelial nitric oxide synthase (NOS), and neuronal NOS were localized in the endothelium of rat testicular arteries and in Leydig cells, respectively. NADPH-diaphorase activity, indicating NOS activity, however, was present only in endothelial cells. In order to examine the role of nitric oxide (NO) in the regulation of rat testicular vasculature, intact and hCG-pretreated (50-100 IU hCG given s.c. 6 h earlier) animals were given injections of the NOS inhibitor N(G)-nitro-L-arginine methyl ester (L-NAME), 10 mg/kg i.v.). In all rats this resulted in a major increase in blood pressure. In intact, unstimulated animals, testicular vascular resistance was unaffected, and testicular blood flow consequently increased. In hCG-treated animals, in contrast, vascular resistance increased in an hCG dose-related way. L-NAME treatment also increased the hCG-induced accumulation of polymorphonuclear leukocytes in testicular venules. Treatment with N(G)-nitro-D-arginine methyl ester (D-NAME, 10 mg/kg i.v.), an inactive isomer of L-NAME, had no effect on the testicular vasculature. The study suggests that NO plays only a limited role in the regulation of testicular blood flow under basal conditions. After hCG treatment, however, NOS activity appears to be increased (increased endothelial NADPH-diaphorase staining), suggesting that NO in this situation is of importance to increase blood flow and to inhibit leukocyte accumulation.

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Leydig cells secrete factors which increase vascular permeability and endothelial cell proliferation

Collin

Bergh

1996

Int J of Andrology

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Adult intact control rats, and animals treated with human chorionic gonadotrophin (hCG) or with ethane dimethane sulphonate (EDS) to deplete Leydig cells, were injected with bromodeoxyuridine (BrdU) to label proliferating cells. Apoptotic cells were visualized by in-situ end labelling (ISEL) of fragmented DNA. Three per cent of testicular endothelial cells were labelled with BrdU and few were apoptotic in intact testes. The BrdU endothelial cell labelling index was increased by hCG-treatment and decreased in Leydig cell-depleted testes. Immunohistochemical staining showed that Leydig cells and testicular macrophages contain immunoreactive vascular endothelial growth factor (irVEGF). The ability of testicular cells to stimulate angiogenesis was studied further by transplanting interstitial cells or seminiferous tubule segments under the kidney capsule. A prominent vascular network was observed around interstitial cell grafts, but not around tubule grafts. Treatment of transplanted rats with human chorionic gonadotrophin (hCG, 50 i.u.) resulted in an accumulation of PMN-leukocytes and an increase in vascular permeability in the remaining testis and in interstitial cell grafts. Interstitial cells from Leydig cell-depleted (EDS-treated) testes were also transplanted under the kidney capsule. This type of graft caused only a discrete stimulation of angiogenesis, and there was no increase in vascular permeability around the graft after hCG treatment. It is suggested that Leydig cells secrete angiogenic factors and that they are the source of the inflammation mediator(s) produced in the testis after hCG treatment. The high proliferation rate in endothelial cells suggests continuous remodelling of the testicular microvasculature, but the functional significance of this remains unknown.

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Hormonal Regulation and Functional Role of Vascular Endothelial Growth Factor A in the Rat Testis1

Rudolfsson

Wikström

Jönsson

et al. 2004

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Vascular endothelial cell growth factor (VEGF-A) is synthesized in the testis but its role and regulation in this organ have not been examined. VEGF and its receptors (VEGF-R) were quantified using reverse transcription-polymerase chain reaction and Western blot. VEGF, VEGF-R1, and VEGF-R2 mRNAs and VEGF protein were increased after treatment with 50 IU hCG. Injection of 100 ng human recombinant VEGF 165 into the testis caused an increase in endothelial cell proliferation, but only a moderate increase in testicular interstitial fluid volume. In contrast with systemic hCG treatment, local VEGF injection did not increase the permeability to intravenously injected colloidal carbon particles. However, if VEGF was given locally in the testes of animals pretreated with hCG 4 or 8 h earlier, VEGF acted in synergy with hCG to increase vascular carbon leakage by forming interendothelial cell gaps. Testicular blood flow was unaffected by local VEGF 165 injection. Treatment with a specific VEGF-R2 tyrosine kinase inhibitor blocked the hCG-induced increase in endothelial cell proliferation but did not affect the hCG-induced accumulation of polymorphonuclear leukocytes in testicular blood vessels or the increase in the testicular interstitial space. The present study demonstrated that testicular VEGF secretion is increased by hormonal stimulation of Leydig cells and that VEGF, through effects mediated via VEGF-R2, regulates endothelial cell proliferation in the rat testis. VEGF does not appear to regulate testicular blood flow and it is not involved in inducing the hCG-induced inflammation-like response in the testicular microvasculature. The permeability-increasing effect of VEGF is low in the testis under basal conditions but is apparently up-regulated by hCG treatment.

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Ola Collin

Effects of Acute Graded Reductions in Testicular Blood Flow on Testicular Morphology in the Adult Rat1

Control of testicular vasomotion by testosterone and tubular factors in rats

Is Nitric Oxide Involved in the Regulation of the Rat Testicular Vasculature?1

Leydig cells secrete factors which increase vascular permeability and endothelial cell proliferation

Hormonal Regulation and Functional Role of Vascular Endothelial Growth Factor A in the Rat Testis1

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