Mea2/Golga3 gene is disrupted in a line of transgenic mice with a reciprocal translocation between Chromosomes 5 and 19 and is responsible for a defective spermatogenesis in homozygotes

A line of transgenic mouse T604 transmitted a transgene to progeny together with a set of chromosomes with a reciprocal translocation. The transgene was integrated at a single site in the translocated chromosomes, as revealed by fluorescence in situ hybridization. The transgenic hemizygous males, also heterozygous for the translocation of chromosomes, showed apparently normal spermatogenesis, while the males homozygous for the transgene as well as for the translocated chromosomes showed a defect in spermatogenesis. Considering that the genetic rearrangement by either insertion of the transgene or the chromosome translocation in the T604 mouse line might have caused a recessive mutation in a gene indispensable for spermatogenesis, we have mapped the transgene integration site and the translocation breakpoints in mouse chromosomes. Linkage analysis with SSLP markers showed that the loci for the transgene and the translocation breakpoints were closely located to D5Mit24 on Chromosome (Chr) 5, and to a region between D19Mit19 and D19Jpk2 on Chr 19. Mea2 gene, mapped only 2 cM from D5Mit24 and known to show male-specific enhanced expression in the testis, was analyzed as a candidate for the gene disrupted in T604 transgenic mice. Southern blot analysis revealed that Mea2 gene was indeed disrupted in T604 mice, and Northern blot analysis of the testis RNA showed that the expression of Mea2 was annihilated in the testis of T604 transgenic homozygotes. Received: 8 July 1998 / Accepted: 23 September 1998     

斑节对虾精子发生的超微结构

斑节对虾精子发生划分为精原细胞、初级精母细胞、次级精母细胞、精子细胞和精子五个阶段。精子发生中，从精原细胞到精子，染色质经历了从以异染色质为主变为高度凝聚态，再经解聚为弥散絮状的变化过程。同时，核从具有完整核膜变为核膜不完整。成熟的的精子含有核仁。顶体由高尔基囊泡逐渐演化而成，并向外伸长成为棘突。这是斑节对虾精子发生的主要特征。     

Aberrations of the synaptonemal complexes in a male 46,XY,-14,+der(14)t(Y;14)

An unbalanced translocation 46,XY,-14,+der(14)t(Y;14)(q11;p11) was observed in an azoospermic male, with reduced spermatogenesis and absent spermiogenesis. At the pachytene stage of spermatocyte 1, the segments of the 2 Y chromosomes, fluorescent with quinacrine mustard, were always found close together. This proximity was also demonstrated by the study of synaptonemal complexes, which showed, in addition, an unusual hypercondensation of the proximal segment of bivalent 14, adjacent to the translocated Y chromosome. This allows us to propose that this hypercondensation might correspond to an inactivation of the translocated autosome, which could be responsible of the degeneration of the germ cells.     

“Cytogenetic” studies of spermatids of mice carrying Cattanach's translocation by flow cytometry

The DNA content of spermatids of mice carrying Cattanach's translocation has been measured with high precision by flow cytometry. The observation that the two peaks of DNA content in the haploid region of the DNA histograms represent X-and Y-bearing spermatids was tested and confirmed. Using flow cytometry, the difference in DNA content between the X and Y chromosomes in these mice was measured to be 5.2±0.1% of the total haploid genome as compared to 3.4±0.1% in normal mice. These results demonstrated the precision of flow cytometry for cytogenetic studies. Additional information on spermatogenesis in mice bearing Cattanach's translocation was obtained and showed a gradual loss of cells during spermatogenesis in those bearing the balanced form of the translocation.     

Meiotic Chromosome Behavior in a Human Male t（8;15） Carrier

Reciprocal translocation is one of the most common structural chromosomal rearrangements in human beings; it is widely recognized to be associated with male infertility. This association is mainly based on the abnormal chromosome behavior of the translocated chromosomes and sex chromosomes during meiosis prophase I in reciprocal translocation carriers. However, the underlying mechanisms are not completely known. Here we report a reciprocal translocation carrier of t（8;15）, who is oligozoospermic due to apoptosis of primary spermatocytes and to premature germ cell desquamation from seminiferous tubules. Further analysis showed abnormal synapsis and recombination frequency in this patient, indicating a connection between chromosome behavior and apoptosis of primary spermatocytes. We also compared these observations with recently reported findings on spermatogenesis defects in reciprocal translocation carriers, and discuss the possible mechanisms underlying both common and unique phenotypes of reciprocal translocations involving different chromosomes with the aim of further understanding the regulation of human spermatogenesis.     

Primary hypogonadism and 13/15 chromosome translocation in Prader-Labhart-Willi syndrome

A 14-year-old male with Prader-Labhart-Willi syndrome (PLW) had hypogonadism, normal serum gonadotropin levels and 13/15 chromosome translocation. The 24-hour pattern of LH and FSH secretion was normal and comparable to that observed in males at the middle to late stage of puberty. LH rose during sleep and LRH infusion. Basal serum testosterone was low, in the 60-136 ng/dl range, and rose modestly during sleep, LRH and HCG. The 24-hour mean concentrations of androsterone, androsterone sulfate, dehydroepiandrosterone, dehydroepiandrosterone sulfate and prolactin were comparable with normal adolescent males. Biopsy of an undescended testis revealed poor morphology with disorganized spermatogenesis and normal Leydig and Sertoli cells. The 13/15 chromosome aberration was a balanced Robertsonian translocation occurring in his mother and in 5 of 6 siblings, although only the patient had PLW. These data indicate that hypogonadism in PLW is not necessarily hypothalamic-pituitary in origin and that D-chromosome translocations, or deletions per se are not sufficient to explain the etiology of PLW.     

Cytokines and junction restructuring events during spermatogenesis in the testis: An emerging concept of regulation

During spermatogenesis in mammalian testes, junction restructuring takes place at the Sertoli–Sertoli and Sertoli–germ cell interface, which is coupled with germ cell development, such as cell cycle progression, and translocation of the germ cell within the seminiferous epithelium. In the rat testis, restructuring of the blood–testis barrier (BTB) formed between Sertoli cells near the basement membrane and disruption of the apical ectoplasmic specialization (apical ES) between Sertoli cells and fully developed spermatids (spermatozoa) at the luminal edge of the seminiferous epithelium occur concurrently at stage VIII of the seminiferous epithelial cycle of spermatogenesis. These two processes are essential for the translocation of primary spermatocytes from the basal to the apical compartment to prepare for meiosis, and the release of spermatozoa into the lumen of the seminiferous epithelium at spermiation, respectively. Cytokines, such as TNFα and TGFβ3, are present at high levels in the microenvironment of the epithelium at this stage of the epithelial cycle. Since these cytokines were shown to disrupt the BTB integrity and germ cell adhesion, it was proposed that some cytokines released from germ cells, particularly primary spermatocytes, and Sertoli cells, would induce restructuring of the BTB and apical ES at stage VIII of the seminiferous epithelial cycle. In this review, the intricate role of cytokines and testosterone to regulate the transit of primary spermatocytes at the BTB and spermiation will be discussed. Possible regulators that mediate cytokine-induced junction restructuring, including gap junction and extracellular matrix, and the role of testosterone on junction dynamics in the testis will also be discussed.     

Synaptonemal complexes analysis in a bull carrying a 4;8 Robertsonian translocation

Synaptonemal complexes analysis was performed using electron microscopy on surface-spread spermatocytes of a bull heterozygous for the 4;8 Robertsonian translocation. In 19 cells examined, the longest autosomal complex showed kinetochores in a central position whereas the remaining autosomal complexes showed terminal kinetochores. Synapsis in the trivalent appeared complete in all cells, and the trivalents usually showed a CIS configuration. The arm ratio varied from 1.05 to 2.04 with an average of 1.32 +/- 0.43. Out of 47 cells showing X-Y bivalents, 34 showed a small synaptonemal complex at one extremity of the X chromosome, and an unstained gap in the Y chromosome. There was no association between the X-Y bivalent and the trivalent. The absence of association would explain the normal spermatogenesis noted in this bull, in contrast to human and mouse carriers of translocations which show impaired spermatogenesis due to the association between the rearranged chromosomes and the sex vesicle. Further studies involving bulls carrying one or more Robertsonian translocations are needed to determine whether this absence of association is a constant feature in cattle.     

施氮对半湿润农田生态系统不同冬小麦品种灌浆期物质转移的影响

在年均降水量632 mm的黄土高原南部半湿润红油土上,以NR9405、9430、偃师9号、小偃6号、陕229、西农2208、矮丰3号和商188为供试材料,进行大田试验,研究在不施氮和施氮(90 kg.hm-2)条件下不同品种冬小麦灌浆特性及物质转移效率。结果表明,冬小麦干物质生产及物质转移效率共同受品种和氮肥的影响。开花期老叶、茎鞘和成熟期茎鞘、籽粒干重间存在显著差异。施氮对开花期、成熟期地上部各部位干重均有明显的促进作用。各部位干物质转移量、转移效率和转移量对籽粒的贡献率既与品种有关,也与施氮有关;氮肥的影响又因品种不同而异。干物质转移量、转移效率和转移干物质对籽粒的贡献率在8个供试品种中,最高的是NR9405,最低的是偃师9号,除NR9405和西农2208籽粒中50%以上干物质来自于开花前贮存光合产物的再转移外,其余6个品种籽粒中50%以上的干物质来自于开花后新合成的同化产物。干物质转移量对籽粒的贡献率以穗轴+颖壳部位最低,且多数处理为负值,以茎秆为最大,叶片居中。从总体看,干物质转移量、干物质转移率和干物质转移量对粒重的贡献率在不同品种之间的差异大于施氮处理间的差异,施氮后降低了干物质向籽粒中的转移。     

Le risque chromosomique pour un patient porteur d'une translocation t(X;2) concerne non seulement la translocation mais aussi la ségrégation XY

In men, translocations involving sex chromosomes usually result in azoospermia or sometimes oligospermia. We report the case of a man with oligospermia with a 46,Y,t(X;2)(p21;p25.3) translocation and the specific modalities of management of the couple before ICSI. After genetic counselling, we proposed spermatozoa chromosomal analysis using FISH to evaluate the mode of segregation of the translocation and the risk for the embryo and descendants. This study showed that 34% of spermatozoa were normal or balanced for the chromosomes studied, and 66% of spermatozoa presented a chromosome imbalance related to the translocation and/or involving X and Y chromosome non-disjuction. In view of this result, we decided to perform another FISH analysis to define the increased risk related to the non-disjunction of X and Y chromosomes. Only 60% of 1,000 spermatozoa were normal for X and Y. The chromosome risk for the offspring is not limited to the translocation, as the risk of Klinefelter and Turner syndrome is also increased. In view of these results and the woman's age (42 years old), we advised the couple against ICSI at another genetic counselling session. This case illustrates the value of spermatozoa FISH analysis to evaluate the consequences of a translocation on spermatogenesis. The study should not be limited to the translocation alone, but should also evaluate anomalies of non-disjunction of sex chromosomes that are frequent during normal spermatogenesis, but the risk increases in the case of translocations, especially involving the sex chromosomes.     

The length of the cycle of seminiferous epithelium in goats (Capra hircus).

This is the first report in literature showing the length of the seminiferous epithelium cycle in goats. In the present study, the duration of spermatogenesis was estimated using intratesticular injections of tritiated thymidine. Animals were castrated at 4 h, 7 days, and 11 days after injections. The duration of each spermatogenic cycle in goats is 10.6 +/- 0.5 days (SEM). Considering that the total duration of spermatogenesis takes about 4.5 cycles of seminiferous epithelium, spermatogenesis was estimated to last 47.7 days. The approximate primary spermatocytes life span is 14.1 days, while spermiogenesis in goats lasts 14.9 days. Staging in goats was based on the tubular morphology, where 8 stages of the cycle are yielded for all species. The relative stage frequencies in goats, based on 400 seminiferous tubule cross sections for each animal were as follows: stage 1: 15.8 +/- 1.0%; stage 2: 12.8 +/- 0.5%; stage 3: 20.5 +/- 0.9%; stage 4: 10.7 +/- 0.7%; stage 5: 11.6 +/- 0.6%; stage 6: 9.3 +/- 1.1%; stage 7: 7.6 +/- 0.4%; stage 8: 11.7 +/- 0.6%. The pre-meiotic, meiotic and post-meiotic phases' relative frequencies were 49.1%, 10.7% and 40.2%, respectively. The duration of spermatogenesis in goats is very similar to that found in rams.     

短额负蝗精子发生过程中SBA受体的动态分布

用常规组织学方法观察短额负蝗Atractomorpha sinensis Bolivar精子发生过程中生精细胞的显微结构,并以大豆凝集素(soybean agglutinin,SBA)为探针利用凝集素细胞化学方法研究该过程中N-乙酰半乳糖复合物的分布变化。结果表明,短额负蝗精子发生经历了精原细胞增殖期、初级精母细胞期、次级精母细胞期、精子细胞形成期和精子成熟期5个时期,在这5个时期中各期生精细胞的大小、形态、核染色体等变化明显。在整个精子发生过程中,N-乙酰半乳糖复合物出现于精原细胞期,并于精母细胞期发生明显的修饰和变化,精子形成期和成熟期没有N-乙酰半乳糖复合物的表达。提示,N-乙酰半乳糖复合物的修饰和变化与短额负蝗生精细胞的生长和分化密切相关。     

Mg2+-ATPase activity in the rat testis and its correlation with the stages of spermatogenesis: a histochemical study

Summary The activity of Mg²⁺-activated ATPase was studied in the rat testis employing histochemical and microphotometrical methods. The enzymatic activity could be correlated with the stages of spermatogenesis. From stage XII onwards, the elongated spermatids showed a weak to moderate activity, which increased from the acrosomal phase to the, maturation phase. The reaction product was located in the mid-piece and tail piece of elongated spermatids with a maximum intensity at stage VIII. Morphometric analysis revealed six distinct patterns, which could be correlated with the stages of spermatogenesis.     

Testing for the chemical induction of aneuploidy in the male mouse

Dyad scores of metaphase II spermatocytes in the mouse have been used as an end point to assess the aneuploidy-inducing potential of three different chemicals; p-fluorophyalanine, phenylalanine and 6-mercaptopurine. The sensitivities of three different spermatogenic stages have been tested; pre-leptotene, zygotene and metaphase I. No effect was found at any treated stage for 6-mercaptopurine and phenylalanine. p-Fluorophenylalanine, when compared to control treatments, did, however, induce non-disjunction when applied at metaphase I. It also caused a delay to spermatogenesis when applied at this stage. The potential of mammalian test systems for the routine screening of chemicals as non-disjunction inducers, is discussed.     

异翅负蝗配子发生过程中c-kit蛋白表达动态

应用免疫组织化学和生物统计分析相结合的方法,对异翅负蝗Atractomorp haheteroptera Bei Bienko配子发生过程中c-kit特异表达特点和动态进行研究。结果表明,(1)精子发生过程中,精原细胞、初级精母细胞、次级精母细胞和成熟精子中均有不同程度的c-kit蛋白表达,精巢末端还有较粗大的阳性颗粒分布;(2)卵子发生过程中,第1~6阶段卵母细胞中有不同程度的c-kit蛋白特异性表达,但随着卵黄发生的开始逐渐消失;(3)此外,滤泡细胞、输卵管和受精囊的腺细胞中有c-kit蛋白颗粒的存在;(4)从c-kit蛋白季节动态变化看,精子发生和卵子发生中的阳性表达都随着时间的延续出现下降的态势。因此,c-kit蛋白的特异性表达提示该蛋白参与配子发生过程的阶段性调控,具有重要的生理作用。     

A novel Mr 77,000 protein of the XY body of mammalian spermatocytes: its localization in normal animals and in Searle’s translocation carriers

We describe a novel XY body protein of rat and mice pachytene spermatocytes called XY77. Biochemical characterization showed that protein XY77 (Mr 77,000; pH value 8.3) is present in meiotic but absent in postmeiotic stages of spermatogenesis. With the aid of an antibody against protein XY77 together with another specific for XY body-associated protein XY40 we also investigated the localization of these proteins in mice carrying Searle’s translocation, a reciprocal X-autosomal translocation. We show here that in these mice the distribution of both XY77 and XY40 is abnormal. Our results indicate that in Searle’s translocation alterations are not restricted to the translocated autosome, but also involve chromatin segments corresponding originally to the sex chromosomes X and Y. Received: 21 December 1996; in revised form: 1 February 1997 / Accepted: 15 February 1997     

Y-autosome translocation and infertility: usefulness of molecular, cytogenetic and meiotic studies

An apparently balanced reciprocal translocation 46,X,t(Y;6) (q11.23 ∼ q12;p11.1) was observed in an infertile man with severe oligozooteratozoospermia. Different mitotic chromosome banding patterns were performed and fluorescence in situ hybridization indicated a breakpoint in the fluorescent Yq heterochromatin. Molecular genetic deletion experiments for the azoospermia factor region in distal Yq11 showed the retention of the DAZ gene and meiotic pairing configurations suggested that the man’s infertility could be due to the pairing behaviour of the Y;6 translocation chromosome with the X chromosome visualised by synaptonemal complex analysis at the electron microscopy level. The morphological appearance of the normal chromosome 6 and the Y;6 translocated chromosome included in the compartment of the sex vesicle may allow an explanation of the degeneration of most spermatocytes after the pachytene stage. Received: 1 August 1997 / Accepted: 25 September 1997     

Y;autosome translocations and mosaicism in the aetiology of 45,X maleness: assignment of fertility factor to distal Yq11

Summary Three 45,X males have been studied with Y-DNA probes by Southern blotting and in situ hybridization. Southern blotting studies with a panel of mapped Y-DNA probes showed that in all three individuals contiguous portions of the Y chromosome including all of the short arm, the centromere, and part of the euchromatic portion of the long arm were present. The breakpoint was different in each case. The individual with the largest portion (intervals 1–6) is a fertile male belonging to a family in which the translocation is inherited in four generations. The second adult patient, who has intervals 1–5, is an azoospermic, sterile male. These phenotypic findings suggest the existence of a gene involved in spermatogenesis in interval 6 in distal Yq11. The third case, a boy with penoscrotal hypospadias, has intervals 1–4B. In situ hybridization with the pseudoautosomal probe pDP230 and the Y chromosome specific probe pDP105 showed that Y-derived DNA was translocated onto the short arm of a chromosome 15, 14, and 14, respectively. One of the patients was a mosaic for the 14p+ translocation chromosome. Our data and those reported by others suggest the following conclusions based on molecular studies in eight 45,X males: The predominant aetiological factor is Y;autosome translocation observed in seven of the eight cases. As the remaining case was a low-grade mosaic involving a normal Y chromosome, the maleness in all cases was due to the effect of the testis determing factor, TDF. There is preferential involvement of the short arm of an acrocentric chromosome (five out of seven translocations) but other autosomal regions can also be involved. The reason why one of the derivative translocation chromosomes becomes lost may be that it has no centromere.     

Loss of TSLC1 causes male infertility due to a defect at the spermatid stage of spermatogenesis

Tumor suppressor of lung cancer 1 (TSLC1), also known as SgIGSF, IGSF4, and SynCAM, is strongly expressed in spermatogenic cells undergoing the early and late phases of spermatogenesis (spermatogonia to zygotene spermatocytes and elongating spermatids to spermiation). Using embryonic stem cell technology to generate a null mutation of Tslc1 in mice, we found that Tslc1 null male mice were infertile. Tslc1 null adult testes showed that spermatogenesis had arrested at the spermatid stage, with degenerating and apoptotic spermatids sloughing off into the lumen. In adult mice, Tslc1 null round spermatids showed evidence of normal differentiation (an acrosomal cap and F-actin polarization indistinguishable from that of wild-type spermatids); however, the surviving spermatozoa were immature, malformed, found at very low levels in the epididymis, and rarely motile. Analysis of the first wave of spermatogenesis in Tslc1 null mice showed a delay in maturation by day 22 and degeneration of round spermatids by day 28. Expression profiling of the testes revealed that Tslc1 null mice showed increases in the expression levels of genes involved in apoptosis, adhesion, and the cytoskeleton. Taken together, these data show that Tslc1 is essential for normal spermatogenesis in mice.     

Lymphoid-specific helicase (HELLS) is essential for meiotic progression in mouse spermatocytes

Lymphoid-specific helicase (HELLS; also known as LSH) is a member of the SNF2 family of chromatin remodeling proteins. Because Hells-null mice die at birth, a phenotype in male meiosis cannot be studied in these animals. Allografting of testis tissue from Hells(-/-) to wild-type mice was employed to study postnatal germ cell differentiation. Testes harvested at Day 18.5 of gestation from Hells(-/-), Hells(+/-), and Hells(+/+) mice were grafted ectopically to immunodeficient mice. Bromodeoxyuridine incorporation at 1 wk postgrafting revealed fewer dividing germ cells in grafts from Hells(-/-) than from Hells(+/+) mice. Whereas spermatogenesis proceeded through meiosis with round spermatids in grafts from Hells heterozygote and wild-type donor testes, spermatogenesis arrested at stage IV, and midpachytene spermatocytes were the most advanced germ cell type in grafts from Hells(-/-) mice at 4, 6, and 8 wk after grafting. Analysis of meiotic configurations at 22 days posttransplantation revealed an increase in Hells(-/-) spermatocytes with abnormal chromosome synapsis. These results indicate that in the absence of HELLS, proliferation of spermatogonia is reduced and germ cell differentiation arrested at the midpachytene stage, implicating an essential role for HELLS during male meiosis. This study highlights the utility of testis tissue grafting to study spermatogenesis in animal models that cannot reach sexual maturity.