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C57BL小鼠对db基因和链脲佐菌素诱导糖尿病的易感性:由性别相关、与主要组织相容性复合体(MHC)无关的性状控制。

Susceptibility to db gene and streptozotocin-induced diabetes in C57BL mice: control by gender-associated, MHC-unlinked traits.

作者信息

Leiter E H, Le P H, Coleman D L

出版信息

Immunogenetics. 1987;26(1-2):6-13. doi: 10.1007/BF00345448.

DOI:10.1007/BF00345448
PMID:3610255
Abstract

H-2 haplotype differences distinguish the related C57BL/KsJ (BKs) and C57BL/6J (B6) inbred strains. BKs mice are more susceptible to diabetes induction by a recessive obesity gene, diabetes (db), or by multi-dose streptozotocin (MSZ) administration. The purpose of this study was to evaluate whether the H-2 differences were the important genetic background modifiers determining inbred strain susceptibility or resistance to these diabetogenic stresses. Diabetes susceptibility of BKs. B6-H-2b congenic mice was compared with that of the parental BKs and B6 stocks. In addition, diabetes severity was studied in (B6 X BKs)F1 and F2 db/db mice and an H-2 segregation analysis was performed. BKs susceptibility genes expressed in a dominant fashion in the F1 generation, and were transmitted to F2 db/db males without apparent segregation. No association between H-2b haplotype and B6-type diabetes resistance was found in response to either the db mutation or to MSZ. Insulitis, associated with development of hyperglycemia in BKs males, also occurred in the H-2b congenic stock. However, an apparent interaction between H-2b haplotype, the db mutation (on chromosome 4), and male gender (Y chromosome?) was indicated by a segregation ratio distortion in recovery of this genotype. A more moderate diabetes in some F2 db/db females suggested that non-MHC-linked genes controlling sex steroid metabolism were the important determinants of diabetogenic sensitivities in the C57BL stocks. In support of the latter, strain differences were demonstrated in activity levels of steroid sulfatase, which is regulated by a sex-linked gene likely expressed on both the X and Y chromosome, and which may control tissue levels of active androgens and estrogens. We show that the diabetes-susceptible F1 hybrids exhibit the higher activity associated with the BKs strain.

摘要

H-2单倍型差异区分了相关的近交系C57BL/KsJ(BKs)和C57BL/6J(B6)。BKs小鼠对隐性肥胖基因糖尿病(db)或多剂量链脲佐菌素(MSZ)诱导糖尿病更易感。本研究的目的是评估H-2差异是否是决定近交系对这些致糖尿病应激易感或抗性的重要遗传背景修饰因子。BKs的糖尿病易感性。将B6-H-2b同源基因小鼠与亲本BKs和B6品系进行糖尿病易感性比较。此外,研究了(B6×BKs)F1和F2 db/db小鼠的糖尿病严重程度,并进行了H-2分离分析。BKs易感基因在F1代以显性方式表达,并传递给F2 db/db雄性小鼠且无明显分离。在对db突变或MSZ的反应中,未发现H-2b单倍型与B6型糖尿病抗性之间存在关联。与BKs雄性小鼠高血糖发展相关的心内膜炎也发生在H-2b同源基因品系中。然而,这种基因型恢复中的分离比畸变表明H-2b单倍型、db突变(位于4号染色体上)和雄性性别(Y染色体?)之间存在明显相互作用。一些F2 db/db雌性小鼠的糖尿病症状较轻,这表明控制性类固醇代谢的非MHC连锁基因是C57品系中糖尿病易感性的重要决定因素。支持后者的证据是,在类固醇硫酸酯酶的活性水平上显示出品系差异,该酶由一个可能在X和Y染色体上均表达的性连锁基因调控,并且可能控制活性雄激素和雌激素的组织水平。我们发现糖尿病易感的F1杂种表现出与BKs品系相关的较高活性。

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Induction in C57BL/KsJ mice of complement-dependent antibody cytotoxic to cultured beta cells.在C57BL/KsJ小鼠中诱导对培养的β细胞具有补体依赖性抗体细胞毒性。
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