A cytogenetic study of breeding boars in Canada.

Chromosome abnormalities are well known for their negative impact on the reproductive performance of carriers. Such abnormalities could have severe effect on animal industries which rely heavily on efficient reproduction. We conducted a cytogenetic survey of breeder pigs from 4 different Canadian farms to investigate the frequency of chromosome abnormalities and to assess their reproductive impact on pig populations. Our study revealed that 50% of the 'hypoprolific' boars and 2.5% of the young boars raised for service in artificial insemination were carriers of chromosome anomalies while no chromosome defect was noted in any of the 'proven' breeder boars. G-banding technique to determine the type of abnormalities detected 3 previously unreported translocations involving chromosomes 1 and 6, chromosomes 10 and 13 and chromosomes 9 and 14. The reciprocal nature of these translocations was confirmed either using fluorescent in situ hybridization (FISH) technique or immunostaining for synaptonemal complex delineation and were named rcp(1;6)(p22,q12), rcp(10;13), and rcp(9;14) (p24;q27), respectively. Prolificacy of 1/6 and 10/13 translocation carriers was noted to be reduced by more than 40% compared to their normal counterparts while it was reduced by 26% in carriers of the 9/14 translocation. Carriers of 1/6 and 9/14 translocations displayed a higher repeat breeding tendency, compared to their herd average (5 and 16%, respectively). While for the 9/14 translocation the prevalence of stillbirths was lower than that in their herd [8.7 vs. 10.4% (p < 0.001)]. The present results, albeit based on a relatively small number of pigs, indicate that the prevalence of chromosome abnormalities could be much higher in Canadian pigs compared to that reported in European pigs and underline the urgent need to initiate cytogenetic screening programs as one of the effective ways to reduce reproductive problems in Canadian pig populations.

Veterinary cytogenetics: past and perspective.

Cytogenetics was conceived in the late 1800s and nurtured through the early 1900s by discoveries pointing to the chromosomal basis of inheritance. The relevance of chromosomes to human health and disease was realized more than half a century later when improvements in techniques facilitated unequivocal chromosome delineation. Veterinary cytogenetics has benefited from the information generated in human cytogenetics which, in turn, owes its theoretical and technical advancement to data gathered from plants, insects and laboratory mammals. The scope of this science has moved from the structure and number of chromosomes to molecular cytogenetics for use in research or for diagnostic and prognostic purposes including comparative genomic hybridization arrays, single nucleotide polymorphism array-based karyotyping and automated systems for counting the results of standard FISH preparations. Even though the counterparts to a variety of human diseases and disorders are seen in domestic animals, clinical applications of veterinary cytogenetics will be less well exploited mainly because of the cost-driven nature of demand on diagnosis and treatment which often out-weigh emotional and sentimental attachments. An area where the potential of veterinary cytogenetics will be fully exploited is reproduction since an inherited aberration that impacts on reproductive efficiency can compromise the success achieved over the years in animal breeding. It is gratifying to note that such aberrations can now be tracked and tackled using sophisticated cytogenetic tools already commercially available for RNA expression analysis, chromatin immunoprecipitation, or comparative genomic hybridization using custom-made microarray platforms that allow the construction of microarrays that match veterinary cytogenetic needs, be it for research or for clinical applications. Judging from the technical refinements already accomplished in veterinary cytogenetics since the 1960s, it is clear that the importance of the achievements to date are bound to be matched or out-weighed by what awaits to be accomplished in the not-too-far future.

Spatial distribution of histone isoforms on the bovine active and inactive X chromosomes.

The inactive X chromosome (Xi) in female mammals serves as an important model for studying the role of histone isoforms in directing specific nuclear processes leading to inherited differences in transcription. In the present study, we investigated the distribution of some histone isoforms known to be involved in the process of human X inactivation on their bovine counterparts. To ascertain the identity of active and inactive X chromosome, their distribution was investigated on the X chromosomes in a cell line derived from a bovine female carrying an X;autosome translocation rcp(Xp+;23q-) which allowed the recognition of the maternal (translocated) and paternal (normal) X chromosome. The distribution patterns of histone H3 trimethylated at lysine 9 (H3K9me3) and trimethylated at lysine 27 (H3K27me3), and histone macroH2A1 and macroH2A2 (isoforms specific to heterochromatin) were determined by immunocytochemistry and compared to the temporal pattern of replication using BrdU pulse labeling prior to staining. Immunostaining revealed that H3K9me3, H3K27me3, and macroH2A1 are preferentially concentrated on the Xi, whereas the histone variant macroH2A2 is not a marker for this chromosome. H3K9me3, H3K27me3, and macroH2A1 were consistently located in bands along the Xi, while H3K9me3, macroH2A1 and macroH2A2 localized in the pericentromeric regions of the autosomes. H3K27me3 identified two intense bands on the Xi at Xp22 and Xq31, representing the early replication regions of the chromosome. H3K27me3 and macroH2A1 overlapped in the Xq31 region. It was concluded that different heterochromatin regions on the bovine inactive X chromosome can be identified by their histone isoform composition.

Genetics then and now: breeding the best and biotechnology.

In the past, domesticated animals were genetically improved by identifying meritorious individuals, mating animals displaying desired traits, continued breeding of related animals to perpetuate their superior traits and crossbreeding when inbreeding depression became evident. Today, assisted reproduction and biotechnology allow breeders to design and direct the reproductive course, disseminate desired traits and hasten genetic improvement. Generation interval can be greatly reduced by combining artificial insemination, which is the oldest and most widely used assisted reproductive technology, with the more recent techniques, such as oestrus synchronization, superovulation, ovum pick up from immature females even out of breeding season, and in vitro embryo production and transfer. Furthermore, the sex and genetic make-up of the offspring can be selected by using sex-sorted sperm for insemination, marker-assisted selection, functional deletion or addition of specific genes to the offspring's genome, or somatic cell nuclear transfer for cloning. However, the poor success rates with some of these procedures have delayed their large-scale application which, in turn, has hindered the proper evaluation of their genetic impact. The potential genetic consequences of some of these approaches merit the same degree of diligent evaluation that is currently extended to the procedures used for overcoming their 'technical' inefficiencies.

Differences in the pattern of X-linked gene expression between fetal bovine muscle and fibroblast cultures derived from the same muscle biopsies.

The sex determination system in mammals creates an imbalance between males and females in the number of X chromosomes. This imbalance is compensated through transcriptional silencing of one of the two X chromosomes in female diploid cells by epigenetic modifications. Although common for mammals, X inactivation shows marked species-specific differences in mechanisms and end results, and provides a unique opportunity to study epigenetic regulation of gene expression. The aim of the present study was to establish the expression pattern of selected X-linked genes in bovine fetal muscle tissue and muscle fibroblast cultures in order to follow possible modifications at the transcriptional level attributable to in vitro culture. We used heterologous cDNA microarray hybridization and quantitative real-time PCR to study the pattern of expression of X-linked genes including SLC25A6, GAB3, MECP2, RPS4X, JARID1C, UBE1, BIRC4 and SLC16A2. Quantitative real-time PCR analysis in fetal bovine muscle showed higher transcript levels in females for all X-linked genes tested with the exception of SLC25A6, with differences being significant for RPS4X, JARID1C and UBE1. The expression in fibroblast cultures derived from the same samples differed, with significantly higher levels for UBE1, GAB3 and BIRC4, while the rest of the panel of X-linked genes remained unchanged. The changed expression pattern in vitro, probably reflecting modifications in the epigenetic mechanisms that regulate transcriptional activity and gene silencing in X inactivation, has important implications for the advancement of new biotechnologies such as somatic cell nuclear transfer and stem cell therapy.

Immunolocalization of heat shock protein 70 in bovine spermatozoa.

Heat shock protein 70 (HSP70) is part of a superfamily of molecular chaperones, which protect cells from chemical and heat shock. The objectives of this study were to determine the presence of HSP70 in bovine spermatozoa and its subcellular localization during different stages of spermatogenesis. Analysis of sperm proteins by Western blotting using a monoclonal antibody to the inducible form of HSP70 revealed a single immunoreactive band with an estimated molecular weight of 70 kDa in samples from 18 of 18 bulls. Using immunofluorescence microscopy and the same antibody, HSP70 was localized to the cytoplasm of prophase spermatocytes and elongating spermatids, to cytoplasmic droplets of caput epididymal spermatozoa, and to cytoplasmic droplets, acrosome, post-acrosomal region and middle piece of corpus and cauda epididymal spermatozoa. The pattern of distribution changed in freshly ejaculated spermatozoa as HSP70 was detected on the acrosome only. During capacitation and acrosome reaction, HSP70 was once again redistributed, and was localized to the equatorial segment, post-acrosomal region and middle piece. Thus, HSP70 is present in the spermatozoa of mature bulls and redistribution of the protein occurs during capacitation and the acrosome reaction.

Ultrastructural and immunologic characteristics of mouse x cattle xenogeneic hybridomas originating from bovine leukemia virus-infected cattle.

Nine percent of xenogeneic hybridomas originating from a bovine leukemia virus (BLV)-infected cow secreted monoclonal IgM antibodies with multispecific reactivity. Similar reactivity was evident in some antibodies with an unusually long (> 50 amino acids) third complementarity-determining region of the heavy chain. Electron microscopy of hybridomas demonstrated the presence of c-type virus particles consistent with polymerase chain reaction detection of BLV env gene. Some hybridomas contained dilated rough endoplasmic reticulum and cisternae filled with moderately electron-dense granular substance compatible with plasma cells at presecretory stage. The number of chromosomes in xenogeneic hybridomas corresponded to the sum total of mouse and bovine chromosomes. None of the hybridomas showed polyploidy. The immunochemical and genetic analysis of stable bovine immunoglobulin-secreting xenogeneic hybridomas confirms that BLV infection causes polyclonal B cell activation regardless of antigen specificity. Presence of c-type particles in hybridomas suggests that T cell-derived cytokines are not required for sustained BLV expression.

Sex-chromosome linked gene expression in in-vitro produced bovine embryos.

The expression of XIST, G6PD, HPRT, ZFX and ZFY were investigated in in-vitro produced bovine embryos. Transcripts of these genes were assayed by RT-PCR in pools of pre-compaction stage embryos and sexed pools of morulae and blastocysts. The expression of XIST, G6PD, HPRT and ZFX in female and male morulae and blastocysts were compared using a semi-quantitative RT-PCR. G6PD, HPRT and ZFX transcripts were noted in all pre-compaction stage embryos and in female and male blastocysts. ZFY transcripts were detected in unsexed pools of 8-16-cell stage embryos and in male blastocysts. XIST transcripts were detected in unsexed pools at the 8-16 cell stage, in male and female morulae, and in female blastocysts. The level of XIST RNA was significantly higher in female morulae than in males. Levels of G6PD and HPRT RNA were also higher in female morulae and blastocysts than in males, but only G6PD levels were significantly different between the sexes. The expression of ZFX was also significantly higher in female than in male blastocysts. These results show sexually dimorphic expression of sex chromosome linked genes prior to the blastocyst stage in in-vitro produced bovine embryos.

In vitro production of cattle-water buffalo (Bos taurus--Bubalus bubalis) hybrid embryos.

Interspecific hybrid embryos are useful models for the study of maternal-fetal interactions, transmission pattern of species-specific markers and parental contributions to growth and developmental potential of pre-attachment embryos. In an attempt to investigate the possibility of producing hybrid embryos of domestic cattle (Bos taurus) and water buffalo (Bubalus bubalis), cattle oocytes were exposed to buffalo sperm and buffalo oocytes were exposed to cattle sperm and the cleavage rate and the post-fertilisation features of hybrid embryos up to the blastocyst stage were compared with those of buffalo and cattle embryos. The cleavage rate in buffalo oocytes exposed to cattle sperm was low (40.8%), with only 8.8% of these hybrid embryos reaching the blastocyst stage. Cattle oocytes exposed to buffalo sperm showed 86.3% cleavage, while 25.9% of these attained the blastocyst stage. The speed of development of both types of hybrids was intermediate between that of cattle and buffalo embryos, with hatching occurring on day 7.5 in hybrid embryos, day 8-9 in cattle and day 7 in buffalo. The proportions of cells contributing to the trophectoderm and the inner cell mass were closer to those of the maternal species in both types of hybrid embryos. Our results indicate that cattle-water buffalo hybrid embryos produced using inter species gametes are capable of developing to advanced blastocyst stages and that their in vitro fate, and developmental potential, are influenced by the origin of the oocyte.

Maturation status, protein synthesis and developmental competence of oocytes derived from lambs and ewes.

The efficacy of oocyte selection for in vitro embryo production depends on the abundance and diameter of follicles, cumulus layers around the oocytes and subsequent fertilization. Application of 'ovum pick-up' technique allows us to utilize partially matured oocytes for embryo production even from juvenile subjects. To compare their developmental competence, oocytes derived from lambs and ewes and cultured in maturation medium for up to 26 h were assessed at 2 h intervals by confocal microscopy after chromatin and microtubulin-specific fluorochrome labelling. Lamb oocytes reached second meiotic metaphase (MII) at lower numbers at 24 h (60.0%) and 26 h (28.6%) whereas 85.7% of adult-derived oocytes attained MII status by 24 h of maturation. Radiolabelling of oocyte proteins revealed higher incorporation of [(35)S-]-methionine and [(35)S]-cysteine in adult-derived oocytes compared to lamb oocytes. Although the cleavage rate of lamb oocytes was similar to that of ewe oocytes, the proportion reaching blastocyst stage was significantly lower (p < 0.05) in the lamb-derived oocytes. However, blastocysts from both types of oocytes displayed similar cell lineage allocations to inner cell mass and trophectoderm.

Sex-linked genes are not silenced in fetal bovine testes expressing X-inactive specific transcript (XIST).

X-inactive specific transcript (XIST), which is thought to be the central factor for the X-inactivation process in female mammals, is known to be expressed in males during spermatogenesis. Our studies have shown that XIST is not only expressed in adult bovine testis but is also expressed in fetal, newborn, and prepubertal testes long before spermatogenesis is established. To determine whether the XIST expressed in fetal testes is involved in silencing the genes on the X chromosome, we investigated the status of X-linked genes, including glucose-6-phosphate-dehydrogenase (G6PD), hypoxanthine phosphoribosyl transferase (HPRT), and X-linked zinc finger protein gene (ZFX), in fetal bovine gonads at the developmental stage, when meiosis is initiated in fetal ovaries in this species. Reverse transcription and a semiquantitative polymerase chain reaction based on the optical density of each gene-specific band relative to that of the co-amplified Quantum RNA 18S Internal Standard (Ambion, Austin, TX) showed that the XIST gene was expressed in the testes of approximately 90-day-old fetuses and was silent in all their nongonadal organs tested, although at a significantly lower level than that in fetal organs of female fetuses. Our observation that the expression of X-linked genes in the fetal testis was comparable to that in male nongonadal organs, in which X inactivation does not occur, indicates that the low level of XIST, or XIST-like RNA, expressed in the fetal bovine testis is not involved in silencing X-linked genes.

Development and mapping of microsatellites from a microdissected BTA 11-specific DNA library.

A chromosome-specific library was developed for Bos taurus autosome 11 by chromosome microdissection and microcloning using a bovine primary fibroblast culture, obtained from a t(X;23) heifer, that spontaneously developed a translocation chromosome involving bovine chromosome 11. The library was screened using (AC)12 oligos, positive clones selected, sequenced and primers developed to generate bovine chromosome 11-specific microsatellite markers. This study suggests that chromosome-specific libraries have great potential for development of microsatellite markers for the construction of marker-saturated linkage maps for each chromosome.

The effects of antibodies to heat shock protein 70 in fertilization and embryo development.

The role of heat shock proteins in shielding organisms from environmental stress is illustrated by the large-scale synthesis of these proteins by the organisms studied to date. However, recent evidence also suggests an important role for heat shock proteins in fertilization and early development of mammalian embryos. We found that the presence of anti-HSP70 antibody significantly reduced tight binding of spermatozoa to the zona pellucida of bovine oocytes and interrupted completion of meiosis II and pronuclear formation. Furthermore, the presence of anti-HSP70 in culture medium from day 3 to day 9 of development increased apoptosis and significantly reduced the number of embryos reaching the blastocyst stage. We further observed that the proportion of apoptotic cells in bovine blastocysts was significantly lower after in-vitro culture with a prior exposure to increased temperature. However, nuclear localization of the p53 protein, which is thought to be essential for the up-regulation of genes involved in apoptosis and cell cycle arrest, was detected in the majority of nuclei in blastocysts exposed to increased temperature, whereas in their untreated (control) counterparts, p53 protein was only detected in the cytoplasm. The decrease in apoptosis after exposure of blastocysts to increased temperature may be attributed to cell cycle arrest resulting from nuclear localization of the p53 protein and/or to an increase in heat shock protein synthesis. We propose that HSP70 plays a critical role in fertilization and early embryonic development.

X-autosome translocation and low fertility in a family of crossbred cattle.

An investigation was carried out on a family of Limousin-Jersey crossbreds exhibiting low fertility in the females, to determine the impact of a previously identified X-autosome translocation (X-AT) on the reproductive performance of the carrier cows. Three of the identified translocation carriers, including a cow and two of her daughters, were maintained at our University Research Station and artificially inseminated periodically with semen from different bulls of known fertility. Attempts to breed the X-AT carriers resulted in high rates of return to estrus between days 28 and 60, abortions between days 121 and 235 after insemination, and a total of 13 live births including 4 translocation carrier calves. Results of superovulation and embryo retrieval trials on X-AT carriers revealed significantly higher proportions of unfertilized and uncleaved ova and abnormal embryos compared to those from normal cows, and no pregnancy in the recipients transferred with morphologically normal blastocysts from X-AT carriers. While the higher rates of failed fertilization and cleavage, abnormal embryos and return to estrus in X-AT carriers could be attributed to chromosome imbalance expected in their gametes, the relatively high prevalence of abortion (late in gestation) was unexpected. Our observations on the fetuses expelled by X-AT carriers after 5 months of gestation indicated that a majority (three out of four) of these fetuses were products of abnormal (3:1) segregation in meiosis I and that these chromosomally unbalanced (hyperdiploid) conceptuses were able to survive early embryogenesis and fetal life up to the end of the second trimester. We hypothesize that their relatively long in utero life and the absence of any overt birth defects may be attributable to the type of chromosomes over-represented in these fetuses and that their eventual expulsion may have been the result of selection against the clonal population of cells in which the altered X carrying a segment of chromosome 23 (Xp(+)), remained inactive.

Synaptic pattern of sex complements and sperm head malformation in X-autosome translocation carrier bulls.

Testicular activity and semen characteristics of bulls carrying an X-autosome translocation t(Xp +;23q-) revealed all stages of spermatogenesis although their semen consisted of few and, exclusively, of malformed spermatozoa. Chromosome painting on metaphase spreads of their mother and synaptonemal complex analysis on these and normal bulls were carried out to test whether the location and meiotic pairing behaviour of the rearranged segments could have contributed to the sperm head malformation and oligospermia in our X-autosome translocation (X-AT) carrier bulls. Spermatocytes of X-AT carriers displayed the rearranged chromosomes in a univalent-trivalent association, with 23q- always remaining as a univalent and Xp + in synapsis with normal chromosome 23 and the Y chromosome. Chromosome painting studies to test whether the total absence of meiocytes showing a quadrivalent is due to the non-reciprocal nature of this translocation, identified Xp sequence homology with the distal end of 23q- confirming its relocation to the terminal segment of 23q-. Our synaptonemal complex analyses also confirmed that the bovine pseudo-autosomal region (PAR) is at the distal ends of Xq and Yp and further revealed that over 85% of spermatocytes of X-AT carriers (and up to 13% of spermatocytes of normal bulls) sustain a Y-axis break adjacent to the PAR. Although the exact cause of a Y-axis break in bovine spermatocytes is not known at present, we believe that the break and possible loss of Yq in such high proportions of spermatocytes of X-AT carriers could have contributed to the sperm head malformation and oligospermia in our X-AT carrier bulls.

Expression of X inactive specific transcript (Xist) and testicular morphogenesis in bovine fetuses.

Inactivation of one of the 2 X chromosomes in the somatic cells of female mammals is the process by which their X-linked gene products are equalized to those of their male counterparts. In male mammals, however, a sex vesicle representing the condensed and transcriptionally silenced sex chromosomes is detected during early meiotic prophase. Since the exact stage of development at which X inactivation is initiated in the bovine testis is not established as yet, we undertook to study fetuses ranging in age from 30 to 180 days of gestation, to determine the transcriptional status of the Xist gene currently thought to be the prerequisite component of X inactivation. Our studies using reverse transcription polymerase chain reaction (RT-PCR) approach with primers designed to amplify a 463 bp product from a conserved region of the first exon of bovine Xist gene, proved that Xist expression is evident in bovine fetal testes as early as 50 days of gestation and that it continues at least to the end of the second trimester (180 days) of gestation. Morphological studies on fetal testes during gestational stage spanning the period of Xist expression revealed the presence of large intra-tubular cells overtly resembling the prespermatogonia of postnatal bovine testes, at 50 days and preleptotene like cells as early as 90 days of gestation. We hypothesize that the expression of the Xist gene, or the recently discovered Tsix gene antisense to Xist in orientation, may be related to the presence of these cells which participate in the morphogenesis of the fetal bovine testis.

Meiosis and apoptosis in germ cells of X-autosome translocation carrier boars.

Meiotic features and fate of germ cells were studied using electron microscopy on surface spread spermatocytes and in situ tests for apoptosis on testicular tissues of normal boars and X-autosome translocation (X-AT) carrier boars. Histological sections of the translocation t(Xp+; 14q-) carrier boars showed accumulation of degenerating germ cells including binucleate and multinucleate cells, as well as pyknosis and nuclear fragmentation characteristic of apoptosis. Synaptonemal complex analysis of X-AT carrier boars revealed 19 bivalents including a large complex made up of the altered X (Xp+) and normal chromosome 14, and a smaller element representing the Y chromosome in synapsis with the derived chromosome 14 (14q-) in most (89.3%) of the germ cells. In situ tests for apoptotic DNA fragmentation revealed positive signals exclusively among early spermatocytes and degenerating germ cells. These findings and the absence of stages beyond pachytene suggest that the meiocytes are arrested at pachytene and eliminated through apoptotic process in spite of the complete synapsis displayed by the chromosomes involved in this translocation. Failure of meiotic progress in our X-AT carriers would appear to be the result of the disruption of gene sequence (or function) caused by the involvement of the X chromosome in this rearrangement, rather than the deleterious consequences of abnormal segregation anticipated in reciprocal translocation carriers. We hypothesize that this disruption could have affected the induction of stage-specific gene products in meiosis such as heat shock proteins and caused the excessive release of endonucleases normally produced by early prophase meiocytes, leading to their apoptosis in our X-autosome translocation carrier boars.

X inactive-specific transcript (Xist) expression and X chromosome inactivation in the preattachment bovine embryo.

Expression of the X inactive-specific transcript (Xist) is thought to be essential for the initiation of X chromosome inactivation and dosage compensation during female embryo development. In the present study, we analyzed the patterns of Xist transcription and the onset of X chromosome inactivation in bovine preattachment embryos. Reverse transcription-polymerase chain reaction (RT-PCR) revealed the presence of Xist transcripts in all adult female somatic tissues evaluated. In contrast, among the male tissues examined, Xist expression was detected only in testis. No evidence for Xist transcription was observed after a single round of RT-PCR from pools of in vitro-derived embryos at the 2- to 4-cell stage. Xist transcripts were detected as a faint amplicon at the 8-cell stage initially, and consistently thereafter in all stages examined up to and including the expanded blastocyst stage. Xist transcripts, however, were subsequently detected from the 2-cell stage onward after nested RT-PCR. Preferential [3H]thymidine labeling indicative of late replication of one of the X chromosomes was noted in female embryos of different developmental ages as follows: 2 of 7 (28.5%) early blastocysts, 6 of 13 (46.1%) blastocysts, 8 of 11 (72.1%) expanded blastocysts, and 14 of 17 (77.7%) hatched blastocysts. These results suggest that Xist expression precedes the onset of late replication in the bovine embryo, in a pattern compatible with a possible role of bovine Xist in the initiation of X chromosome inactivation.

Status of oocytes and embryos of X-autosome translocation carrier sows.

The impact of an X-autosome translocation t(Xp+; 14q-), on ovulation, fertilization and embryo survival in carrier sows, was examined and compared with these parameters of normal sows. Corpora lutea counts during week-2 and week-4 of gestation were similar in normal and carrier sows (14.4 +/- 1.36 and 15.5 +/- 2.18) although embryo recovery (11.0 +/- 1.87 and 6.0 +/- 1.47) was lower than that from normal sows (12.8 +/- 1.46 and 11.5 +/- 0.87), at these stages. Among the embryos karyotyped from the week-2 embryos of carrier sows, 42% were normal, 26.4% were carriers and 31.6% were of unbalanced chromosome make-up, and of the week-4 embryos of carriers, 33.3% were normal, 57.1% were carriers and 9.1% were chromosomally unbalanced females. The preponderance of females among the unbalanced embryos recovered at week-2 of gestation (11_ and 1_) and the total absence of males among those recovered at week-4, suggest that oocytes with unbalanced chromosome constitution are eliminated before week-2 of gestation if they are fertilized by Y bearing sperm, and that the unbalanced oocytes fertilized by X bearing sperm survive up to the peri-attachment stage even though all chromosomally unbalanced embryos are eliminated before term regardless of their sex.

A comparison of the adrenal cortical response to ACTH stimulation in Angora and non-Angora goats.

The adrenal cortex is believed to be implicated in the high incidence of abortion in the Angora goat. Stimulation testing with adrenocorticotrophic hormone (ACTH) was used to assess the adrenal cortical function in 5 Angora does from herds with a history of abortion and 5 non-Angora does. An acute test involving a single intramuscular (i.m.) injection of 0.25 mg of synthetic ACTH was given during anoestrus, at mid-oestrus, on day 90 and on day 120 of gestation. Blood samples were collected from the jugular vein at 30 min intervals for 1 h before and 5 h after injection. Cortisol concentrations rose within 30 min and returned to baseline values within 3.5 h. Cortisol production was lower (p < 0.01) in the pregnant state compared to the non-pregnant state in both groups. Production of cortisol was consistently lower (p < 0.05) in the Angora does compared to the non-Angora does during anoestrus and pregnancy and marginally so at mid-oestrus. A chronic stimulation test involving once daily injections of 0.5 mg of a depot form of ACTH i.m. for 7 days commencing on day 90 of pregnancy was also conducted. Cortisol concentrations rose to reach a peak on the third day of treatment in both groups. The values then declined in the Angora does despite continued ACTH treatment, while those for the non-Angora does exhibited a second peak. During and following this treatment, two non-Angora does delivered live kids (day 95, day 120). Out of 7 Angora pregnancies, one Angora doe aborted two dead fetuses at day 116. No significant difference in the cortisol response in the acute test was detected between the animals that aborted and their respective cohorts, but the two non-Angora does that aborted had significantly lower cortisol concentrations during depot ACTH administration. Progesterone and oestradiol levels did not differ between Angora and non-Angora animals during pregnancy or on the test days. The results suggest that the steroidogenic response of the adrenal cortex to ACTH stimulation is significantly less in Angora does with a history of abortion than it is in non-Angora does and support the view that the Angora goat would make a more limited adrenal cortical response to a stressful occurrence during pregnancy.