在人类和动物模型中前列腺和睾丸癌变的激素因素。

M C Bosland
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引用次数: 0

摘要

人类睾丸肿瘤的病因尚不明确。可能除了产前雌激素暴露外,没有特定的化学物质暴露与男性睾丸癌风险有关。产前和产后雌激素治疗在某些小鼠品系中诱导睾丸肿瘤,但在其他小鼠品系或大鼠中没有。产前雌激素暴露也会引起小鼠和可能的大鼠的隐睾。隐睾症是男性睾丸癌的一贯危险因素,雌激素或手术诱导的隐睾症与小鼠间质细胞肿瘤发生有关。然而,在大鼠中,手术诱导的隐睾抑制间质细胞肿瘤的形成。总之,小鼠似乎是最适合作为人类睾丸肿瘤发生动物模型的物种。下列任何一种激素暴露都可引起啮齿动物睾丸肿瘤的形成:1)长期暴露于成年小鼠和仓鼠的雌激素化合物;2)产前暴露于小鼠和可能的人类雌激素化合物;3)在小鼠和人类中引起隐睾的任何治疗或状况。这些治疗或条件可能导致睾丸肿瘤发生的机制尚不清楚。未明确的睾丸局部因素似乎在隐睾人和啮齿动物睾丸的肿瘤发生中占主导地位。垂体因子,最有可能的是LH和催乳素,在雌激素诱导的啮齿类动物自发睾丸肿瘤发生中起着关键但尚未明确的作用。在小鼠中,雌激素受体介导的机制似乎参与了产前雌激素暴露诱导睾丸肿瘤的过程,雌激素对勒氏杆菌抑制物质作用的直接抑制作用可能是该物种诱导隐睾的主要原因。
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Hormonal factors in carcinogenesis of the prostate and testis in humans and in animal models.

The etiology of human testicular tumors is poorly defined. With the possible exception of prenatal estrogen exposure, no specific chemical exposures have been associated with testicular cancer risk in men. Prenatal as well as postnatal estrogen treatments induce testicular tumors in some mouse strains, but not in other mouse strains or in rats. Prenatal estrogen exposure also causes cryptorchid testes in mice and possibly rats. Cryptorchidism is a consistent risk factor for testicular cancer in men, and estrogen- or surgically-induced cryptorchidism is associated with Leydig cell tumorigenesis in mice. In rats, however, surgically induced cryptorchidism inhibits Leydig cell tumor formation. Overall, it appears that the mouse is the most appropriate species as animal model for testicular tumorigenesis in humans. Any of the following hormonal exposures can cause testicular tumor formation in rodents: 1) chronic exposure to estrogenic compounds of adult mice and hamsters; 2) prenatal exposure to estrogenic compounds of mice and possibly humans; and 3) any treatment or condition that induces cryptorchidism in mice and humans. The mechanisms whereby these treatments or conditions may cause testicular tumorigenesis are poorly understood. Undefined local testicular factors appear to be dominant in tumorigenesis in cryptorchid human and rodent testes. Pituitary factors, most likely LH and perhaps prolactin, play a critical but poorly defined role in estrogen-induced and spontaneous testicular tumorigenesis in rodents. In the mouse, estrogen receptor-mediated mechanisms seem to be involved in induction of testicular tumors by prenatal estrogen exposure, and a direct, perhaps estrogen receptor-mediated, inhibiting effect of estrogens on the action of müllerian inhibiting substance is probably central in the induction of cryptorchidism in this species.

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Leukoregulin. Phagocytosis. Radical prostatectomy. Hepatitis A virus. Electrostatic interactions in proteins.
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