H-Y antigen in the study of sex determination and control of sex ratio

It has been proposed, on the basis of widespread phylogenetic conservation, that H-Y antigen is the inducer of primary sex, causing the undifferentiated XY gonad to become a testis in male heterogametic species such as the human and bovine. That proposition has withstood extensive testing in vivo and in vitro. Freemartin gonads are H-Y⁺, for example, and masculinization of the freemartin gonad has been attributed to soluble H-Y, borne and transmitted in the serum of the bull twin, and bound in ovarian receptors of the female. We have applied monoclonal H-Y antibodies to the identification of gender in embryos of the bovine. Our preliminary results imply presence of H-Y in bovine embryos of the morula and blastocyst stages recovered at about 6–12 days of gestation. Assignment of H-Y phenotype -- positive in males and negative in females -- allows selective implantation of male and female during embryo transfer. Thus in an early study, we correctly identified gender in 6 of 7 calves born healthy at term, after transfer of 8 blastocysts.     

Review lecture. Immunology of H-Y antigen and its role in sex determination

H-Y was originally discovered as a transplantation antigen that caused female mice of certain inbred strains to reject skin from otherwise identical males. The ability to make the skin graft rejection response and, in vitro, cytotoxic T cell responses against H-Y is controlled by genes within the major histocompatibility complex, H-2, and by non-H-2 genes. H-Y belongs to a class of weak transplantation antigens characterized by an inability to elicit responses under many conditions. Although genetic factors are very important in determining responsiveness, their action can be modified by immunization procedures. H-Y has been proposed as the differentiation signal that causes the formation of the testes from the undifferentiated gonad in the developing embryo. This hypothesis has been explored by using a series of mice whose karyotype and phenotypic sex are paradoxical.     

H-Y antigen as a tool for the determination of the heterogametic sex in Amphibia

H-Y antigen was investigated in three amphibian species with different degrees of sex-chromosome differentiation: Bufo bufo, Triturus vulgaris, and Pyxicephalus adspersus. No heteromorphic sex chromosomes were found in B. bufo, but an examination of the progeny of hermaphrodites (Ponse, 1942) indicated that the female of this species was heterogametic (ZW). Sex chromosomes differing only by a very small heterochromatic region at their telomeres were found in the male of T. vulgaris (XY). Pyxicephalus adspersus revealed high differentiated ZW sex chromosomes. The results of the H-Y antigen studies on these three species indicate that H-Y antigen is expressed only in the heterogametic sex, irrespective of differences in morphological differentiation of the sex chromosomes. Therefore, H-Y antigen could be a valuable tool in determining the heterogametic sex, not only in Amphibia but possibly also in other vertebrate species that have either evolved no heteromorphic sex chromosomes or where sex-reversal experiments are not possible.     

血清学检测H-Y噬菌体Fab抗体阳性克隆的分析

目的 为分析H-Y噬菌体Fab抗体特异性,筛选用于抗体亲和力提高的H-Y噬菌体Fab抗体阳性克隆.方法 以从噬菌体Fab抗体库中筛选到具有雄性特异性结合活性的阳性克隆A6、A8、E6为基础,通过C57BL/6鼠脾细胞为抗原的ELISA分析3株阳性克隆的特异性,镜下观察亲和力较好的A8阳性克隆ELISA结果,利用生物信息学方法预测分析该克隆的抗体基因可变区序列和结构.结果 ELISA分析显示3株阳性克隆具有雄性特异性,其中A8阳性克隆具备较好的雄性特异性.A8克隆具有免疫球蛋白轻链和重链可变区结构,其重链、轻链可变区分别属于VHI和VκIV基因家族.结论 A8阳性克隆可用于后续的导向筛选和抗体基因改造等研究工作.     

A proposed growth regulatory function for the serologically detectable sex-specific antigen H-Ys

Summary It is widely believed that the serologically detectable sex-specific antigen H-Ys plays a major role in the primary determination of sex. The cellular distribution of the antigen, however, seems to be at odds with its postulated function. Consideration of this apparent paradox has prompted the suggestion that the H-Ys antigen functions as a growth regulator, and that its role in the primary determination of sex can be accounted for on this basis. Circumstantial evidence is adduced that H-Ys is a growth regulator in the embryo, and this is supported by evidence from several sources not immediately related to embryonic growth or development. Genes coding for growth regulators can function as oncogenes in situations involving disordered regulation, and it is suggested that this accounts for the high incidence of ovarian neoplasms in H-Ys positive, but not in H-Ys negative, female patients with 46,XY gonadal dysgenesis (Swyer's syndrome). A postulated growth regulatory function of H-Ys lends weight to the contention of others, not only that the direction of differentiation of the indifferent gonad in the embryo is determined by its growth rate, but also that a common mechanism underlies genotypic sex determination and environmental sex determination.     

Correlation between the number of sex chromosomes and the H-Y antigen titer

Summary H-Y antigen was studied serologically on blood cells and cultured fibroblasts of patients with numerical aberrations of the sex chromosomes. As compared with normal males, patients with the karyotypes 48,XXXY and 49,XXXXY have reduced H-Y antigen titrs; a tendency toward reduced titers can also be detected in the 47,XXY Klinefelter syndrome. The existence of an intermediary titer was further substantiated by a quantitative absorption test applied to cells with the 49,XXXXY karyotype. It appears that in the presence of one Y chromosome, the H-Y antigen titer decreases with an increasing number of X chromosomes. In contrast, the H-Y antigen titer is increased if, at a given number of X chromosomes, the number of Y chromosomes is increased, as in the 47,XYY male. Consequently, patients with 48,XXYY chromosomes are in the male control range. The findings are interpreted under the hypothesis of a controlling or modifying influence of the sex chromosomes on the titer of H-Y antigen.     

H-Y antigen in Turner's syndrome patients with different sex chromosome constitutions

Summary H-Y antigen was determined in seven XO-, nine XO/XX patients, in one patient with i(Xq), and in one patient with a mosaic XO/XYqh-. It turned out that all patients are H-Y antigen positive, confirming the results of earlier investigations of H-Y antigen in patients with Turner's syndrome. The results in XO/XX mosaics clearly demonstrate that the XO-cell is H-Y antigen positive and support the view of a regulatory gene for H-Y antigen gene expression which is located on the X chromosome.     

H-Y antigen: localization of the H-Y gene

Testicular development in a patient with deletion of the distal (fluorescent) segment of the Y chromosome is described. The presence of a normal dose of H-Y antigen was demonstrated by Goldberg's cytotoxicity test. It is concluded that the distal fluorescent segment of the Y chromosome is void of genes regulating H-Y antigen activity.     

Serology of H-Y antigen

Summary Anti-H-Y antiserum is generally obtained from female inbred mice or rats that have been hyperimmunized with syngeneic male cells. The specificity of such antiserum is defined by its reactivity for male but not female cells. A number of conventional serological assays have been used to measure that reactivity. However, H-Y is a weak antigen, evidently represented sparingly on the surfaces of cells other than sperm, epidermal cells and brain cells; thus the srological assays for H-Y are technically difficult. Yet H-Y serology has enabled significant progress toward the understanding of primary sex differentiation.A recent advance in H-Y serology is the establishment of monoclonal anti-H-Y antisera which promise to facilitate analysis and clarification of the H-Y system.