Brad Bolon , Thomas J. Bucci , Alan R. Warbritton , James J. Chen , Donald R. Mattison , Jerrold J. Heindel
{"title":"不同卵泡计数作为化学诱导小鼠卵巢毒性的筛选:来自连续繁殖生物测定的结果","authors":"Brad Bolon , Thomas J. Bucci , Alan R. Warbritton , James J. Chen , Donald R. Mattison , Jerrold J. Heindel","doi":"10.1006/faat.1997.2338","DOIUrl":null,"url":null,"abstract":"<div><p>Ovaries from National Toxicology Program Reproductive Assessment by Continuous Breeding (RACB) bioassays were used to directly compare differential ovarian follicle counts and reproductive performance for 15 chemicals. Ovaries of 10 animals per group from 16 studies in CD-1 mice and 1 study each in C3H and C57BL/6 mice were sectioned serially at 6 μm. Counts of small, growing, and antral follicles were obtained in every 10th section. For all follicle types, younger mice had more follicles than older mice, and CD-1 mice had more follicles than age-matched animals from either inbred strain. The in-life portion of the RACB protocols demonstrated that 9 of 15 chemicals altered reproductive outcome in one or both sexes of mice, with six agents affecting females (R. E. Morrissey<em>et al.,</em>1989,<em>Fundam. Appl. Toxicol.</em><strong>13,</strong>747–777). Three of six female toxicants [2,2-bis(bromoethyl)-1,3-propanediol, BPD; ethylene glycol monomethyl ether, EGME; methoxyacetic acid, MAA] significantly decreased counts of small and/or growing follicles by 33 to 92% in CD-1 mice; EGME also reduced follicle counts in the other strains. Follicle counts were decreased in progeny of animals treated with EGME or its active metabolite, MAA. For BPD, reductions in follicle numbers were proportional to dose. In CD-1 mice, female toxicants di-<em>N</em>-hexyl phthalate, propantheline bromide, and tricresyl phosphate reduced reproductive performance but not follicle numbers. Counts were not affected by toxicants for which the susceptible sex could not be determined (bisphenol A, ethylene glycol, oxalic acid). Altered follicle counts without apparent reproductive impairment occurred in CD-1 mice at lower doses of BPD but were not observed for nontoxic chemicals. These data suggest that differential follicle counts (1) are a quantifiable endpoint of ovarian injury in conventional bioassays, and (2) in some instances, may provide a more sensitive indicator of female reproductive toxicity than fertility.</p></div>","PeriodicalId":100557,"journal":{"name":"Fundamental and Applied Toxicology","volume":"39 1","pages":"Pages 1-10"},"PeriodicalIF":0.0000,"publicationDate":"1997-09-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://sci-hub-pdf.com/10.1006/faat.1997.2338","citationCount":"0","resultStr":"{\"title\":\"Differential Follicle Counts as a Screen for Chemically Induced Ovarian Toxicity in Mice: Results from Continuous Breeding Bioassays\",\"authors\":\"Brad Bolon , Thomas J. Bucci , Alan R. Warbritton , James J. Chen , Donald R. Mattison , Jerrold J. Heindel\",\"doi\":\"10.1006/faat.1997.2338\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><p>Ovaries from National Toxicology Program Reproductive Assessment by Continuous Breeding (RACB) bioassays were used to directly compare differential ovarian follicle counts and reproductive performance for 15 chemicals. Ovaries of 10 animals per group from 16 studies in CD-1 mice and 1 study each in C3H and C57BL/6 mice were sectioned serially at 6 μm. Counts of small, growing, and antral follicles were obtained in every 10th section. For all follicle types, younger mice had more follicles than older mice, and CD-1 mice had more follicles than age-matched animals from either inbred strain. The in-life portion of the RACB protocols demonstrated that 9 of 15 chemicals altered reproductive outcome in one or both sexes of mice, with six agents affecting females (R. E. Morrissey<em>et al.,</em>1989,<em>Fundam. Appl. Toxicol.</em><strong>13,</strong>747–777). Three of six female toxicants [2,2-bis(bromoethyl)-1,3-propanediol, BPD; ethylene glycol monomethyl ether, EGME; methoxyacetic acid, MAA] significantly decreased counts of small and/or growing follicles by 33 to 92% in CD-1 mice; EGME also reduced follicle counts in the other strains. Follicle counts were decreased in progeny of animals treated with EGME or its active metabolite, MAA. For BPD, reductions in follicle numbers were proportional to dose. In CD-1 mice, female toxicants di-<em>N</em>-hexyl phthalate, propantheline bromide, and tricresyl phosphate reduced reproductive performance but not follicle numbers. Counts were not affected by toxicants for which the susceptible sex could not be determined (bisphenol A, ethylene glycol, oxalic acid). Altered follicle counts without apparent reproductive impairment occurred in CD-1 mice at lower doses of BPD but were not observed for nontoxic chemicals. 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引用次数: 0
摘要
采用国家毒理学计划连续育种生殖评估(RACB)生物测定法直接比较了15种化学物质的卵巢差异卵泡计数和生殖性能。CD-1小鼠16个实验,C3H和C57BL/6小鼠各1个实验,每组10只动物的卵巢按6 μm连续切片。每10个切片取小卵泡、生长卵泡和窦卵泡计数。对于所有的卵泡类型,年轻的小鼠比年长的小鼠有更多的卵泡,CD-1小鼠比来自近亲繁殖的年龄匹配的动物有更多的卵泡。RACB方案的生活部分表明,15种化学物质中的9种改变了一种或两性小鼠的生殖结果,其中6种影响雌性小鼠(R. E. Morrisseyet al.,1989,Fundam)。达成。toxicol.13,747 - 777)。六种女性毒物中的三种[2,2-双(溴乙基)-1,3-丙二醇,BPD;乙二醇单甲醚;甲氧基乙酸(MAA)显著降低CD-1小鼠小卵泡和/或生长卵泡计数33%至92%;EGME也降低了其他菌株的卵泡计数。用EGME或其活性代谢物MAA治疗的动物后代卵泡计数减少。对于BPD,卵泡数量的减少与剂量成正比。在CD-1小鼠中,雌性毒物邻苯二甲酸二n -己基酯、溴化丙烯和磷酸三甲酰基降低了生殖性能,但没有降低卵泡数量。计数不受无法确定易感性别的毒物(双酚A、乙二醇、草酸)的影响。在低剂量BPD的CD-1小鼠中,卵泡计数发生改变,但没有明显的生殖损伤,但在无毒化学物质中没有观察到。这些数据表明,差异卵泡计数(1)是传统生物检测中卵巢损伤的可量化终点,(2)在某些情况下,可能提供比生育能力更敏感的女性生殖毒性指标。
Differential Follicle Counts as a Screen for Chemically Induced Ovarian Toxicity in Mice: Results from Continuous Breeding Bioassays
Ovaries from National Toxicology Program Reproductive Assessment by Continuous Breeding (RACB) bioassays were used to directly compare differential ovarian follicle counts and reproductive performance for 15 chemicals. Ovaries of 10 animals per group from 16 studies in CD-1 mice and 1 study each in C3H and C57BL/6 mice were sectioned serially at 6 μm. Counts of small, growing, and antral follicles were obtained in every 10th section. For all follicle types, younger mice had more follicles than older mice, and CD-1 mice had more follicles than age-matched animals from either inbred strain. The in-life portion of the RACB protocols demonstrated that 9 of 15 chemicals altered reproductive outcome in one or both sexes of mice, with six agents affecting females (R. E. Morrisseyet al.,1989,Fundam. Appl. Toxicol.13,747–777). Three of six female toxicants [2,2-bis(bromoethyl)-1,3-propanediol, BPD; ethylene glycol monomethyl ether, EGME; methoxyacetic acid, MAA] significantly decreased counts of small and/or growing follicles by 33 to 92% in CD-1 mice; EGME also reduced follicle counts in the other strains. Follicle counts were decreased in progeny of animals treated with EGME or its active metabolite, MAA. For BPD, reductions in follicle numbers were proportional to dose. In CD-1 mice, female toxicants di-N-hexyl phthalate, propantheline bromide, and tricresyl phosphate reduced reproductive performance but not follicle numbers. Counts were not affected by toxicants for which the susceptible sex could not be determined (bisphenol A, ethylene glycol, oxalic acid). Altered follicle counts without apparent reproductive impairment occurred in CD-1 mice at lower doses of BPD but were not observed for nontoxic chemicals. These data suggest that differential follicle counts (1) are a quantifiable endpoint of ovarian injury in conventional bioassays, and (2) in some instances, may provide a more sensitive indicator of female reproductive toxicity than fertility.
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