Response of Barley Genotypes to Fusarium Head Blight under Natural Infection and Artificial Inoculation Conditions

Forty-eight spring barley genotypes were evaluated for deoxynivalenol (DON) concentration under natural infection across 5 years at Harrington, Prince Edward Island. These genotypes were also evaluated for Fusarium head blight (FHB) severity and DON concentration under field nurseries with artificial inoculation of Fusarium graminearum by the grain spawn method across 2 years at Ottawa, Ontario, and one year at Hangzhou, China. Additionally, these genotypes were also evaluated for FHB severity under greenhouse conditions with artificial inoculation of F. graminearum by conidial suspension spray method across 3 years at Ottawa, Ontario. The objective of the study was to investigate if reactions of barley genotypes to artificial FHB inoculation correlate with reactions to natural FHB infection. DON concentration under natural infection was positively correlated with DON concentration (r = 0.47, P < 0.01) and FHB incidence (r = 0.56, P < 0.01) in the artificially inoculated nursery with grain spawn method. Therefore, the grain spawn method can be used to effectively screen for low DON. FHB severity, generated from greenhouse spray, however, was not correlated with DON concentration (r = 0.12, P > 0.05) under natural infection and it was not correlated with DON concentration (r = -0.23, P > 0.05) and FHB incidence (r = 0.19, P > 0.05) in the artificially inoculated nursery with grain spawn method. FHB severity, DON concentration, and yield were affected by year, genotype, and the genotype × year interaction. The effectiveness of greenhouse spray inoculation for indirect selection for low DON concentration requires further studies. Nine of the 48 genotypes were found to contain low DON under natural infection. Island barley had low DON and also had high yield.

Foxl2 gene and the development of the ovary: a story about goat, mouse, fish and woman

In this review, we describe recent results concerning the genetics of sex determination in mammals. Particularly, we developed the study of the FOXL2 gene and its implication in genetic anomalies in goats (PIS mutation) and humans (BPES). We present the expression of FOXL2 in the ovaries of different species.

Positional cloning of the PIS mutation in goats and its impact on understanding mammalian sex-differentiation

In goats, the PIS (polled intersex syndrome) mutation is responsible for both the absence of horns in males and females and sex-reversal affecting exclusively XX individuals. The mode of inheritance is dominant for the polled trait and recessive for sex-reversal. In XX PIS-/- mutants, the expression of testis-specific genes is observed very precociously during gonad development. Nevertheless, a delay of 4-5 days is observed in comparison with normal testis differentiation in XY males. By positional cloning, we demonstrate that the PIS mutation is an 11.7-kb regulatory-deletion affecting the expression of two genes, PISRT1 and FOXL2 which could act synergistically to promote ovarian differentiation. The transcriptional extinction of these two genes leads, very early, to testis-formation in XX homozygous PIS-/- mutants. According to their expression profiles and bibliographic data, we propose that FOXL2 may be an ovary-differentiating gene, and the non-coding RNA PISRT1, an anti-testis factor repressing SOX9, a key regulator of testis differentiation. Under this hypothesis, SRY, the testis-determining factor would inhibit these two genes in the gonads of XY males, to ensure testis differentiation.

Barley traits associated with resistance to fusarium head blight and deoxynivalenol accumulation

ABSTRACT Fusarium head blight (FHB) or scab is a destructive disease of barley in many countries. A better understanding of the interrelationships between plant traits and FHB resistance should help in the development of effective and efficient breeding strategies for FHB-resistant cultivars. Recent mapping studies indicate that many of the quantitative trait loci (QTL) for FHB resistance coincide with the QTL for plant height, heading date, and spike characteristics. Therefore, a study was conducted to investigate the relationship of morphological and physiological traits to FHB infection and deoxynivalenol (DON) accumulation in a barley doubled-haploid (DH) population derived from a Léger x CI9831 cross. Approximately 190 DH lines were grown at Ottawa (Ontario) for 2 years, Charlottetown (Prince Edward Island) for 1 year, and Hangzhou (Zhejiang) for 2 years. The field plots were inoculated with Fusarium graminearum at each location. FHB incidence was positively correlated with DON content. Resistance to FHB was associated with two-row spike, purple lemma, long glume awn, tall stature, and resistance to lodging, but it was not associated with long rachilla hairs, rough lemma awn, or heading date. Two-row spike was associated with tall stature and resistance to lodging. These associations as well as its spike characteristics helped reduce FHB infection and DON accumulation in two-row lines compared with six-row lines. The association between long glume awn and FHB resistance could be due to genetic linkages. Therefore, trait associations should be taken into consideration when breeding for FHB resistance and interpreting data from FHB experiments.

Expression profiles and chromosomal localization of genes controlling meiosis and follicular development in the sheep ovary

In female sheep fetuses, two of the most crucial stages of ovarian development are prophase of meiosis I and follicle formation. In the present study, sheep ovaries collected on Days 25, 38, 49, 56, 67, 75, 94, and 120 of gestation, at birth, and in adulthood were tested by reverse transcription-polymerase chain reaction (RT-PCR) for the expression of 14 genes known to be involved in the ovarian differentiation in diverse organisms. The aim of this study was to determine 1) the expression pattern of six genes involved in germ cell development or meiosis (DMC1, SPO11, MSH4, MSH5, DAZL, and Boule) and five ovary-derived factors (OVOL1, SIAH2, DIAPH2, FOXL2, and FGF9), 2) the onset of gene expression for several members of the bone morphogenetic protein (BMP) pathway involved in follicular development (GDF9, BMP15, BMPR-IB), and 3) the chromosomal localization of seven of these genes in the sheep genome. The RT-PCR analysis revealed that the two germline-specific genes, DAZL and Boule, were expressed between 49 and 94 days postcoitum (dpc) with a similar pattern to typical meiosis genes (DMC1, MSH4, and MSH5), suggesting their possible participation in prophase of meiosis I. GDF9 and OVOL1 gene transcription started at 56 dpc and extended until birth, while BMP15 presented a more restricted window of expression between 94 dpc and birth, corresponding to the formation of first growing follicles. The homologous ovine genes for SPO11, DMC1, MSH5, DAZL, FGF9, DIAPH2, and SIAH2 were located on OAR 13q21-22, 3q35, 20q22, 19q13, 10q15, Xq44, and 1q41-42, respectively. In sheep, quantitative trait loci affecting female reproductive capacities are currently being detected. The ontology and precise mapping of ovarian genes will be useful to identify potential candidate genes that might underlie these effects.

Age dependent changes in plasma anti-Müllerian hormone concentrations in the bovine male, female, and freemartin from birth to puberty: relationship between testosterone production and influence on sex differentiation

To understand the behaviour of the gonads, in terms of hormonal secretion, in a model of intersexual development naturally occurring in mammals, we determined plasma concentrations of testosterone, progesterone, and anti-Müllerian hormone (AMH) in bovine freemartins, and compared them to normal levels measured in males and females from birth to puberty. We found that newborn males and freemartins have very high concentrations of AMH (over 700ng/ml). Conversely, plasma AMH concentration is always below 120ng/ml in females. While values remain stable in males for the first five months of life, they sharply decrease in the freemartins within the first fortnight, and reach female levels, which demonstrates that AMH is essentially originated in the male twin. In young bulls the trend of plasma testosterone concentrations is opposite to that of the AMH. The rise in testosterone production at puberty corresponds to a sharp decline in AMH concentrations. Bovine plasma concentrations of AMH are surprisingly higher than those measured in other mammals, including man and mouse. The results obtained are discussed in reference to comparative aspects of endocrine functions.

Comparison of mycotoxin profiles among cereal samples from eastern Canada

The relative susceptibilities of major cereal species to mycotoxin contamination have rarely been studied in eastern Canada or elsewhere. The concentration of 13 mycotoxins in 673 corn (Zea mays L.), 99 wheat (Triticum aestivum L.), 116 barley (Hordeum vulgare L.), and 73 oat (Avena sativa L.) samples collected from eastern Canada from 1991 to 1998 crops were compared. Deoxynivalenol (DON) was found to be the most common mycotoxin in all four species. DON contamination was more frequent but less severe in corn than in wheat and barley, and it was least frequent and least severe in oats. Wheat and barley were equally susceptible to DON contamination. The DON content of 8.9% of the corn, 31.3% of the wheat, 22.4% of the barley, and 1.4% of the oat samples exceeded 1 mg·kg-1, the maximum tolerance level recommended for swine feed. Contamination with zearalenone, T-2, HT-2, diacetoxyscirpenol, ochratoxin A, nivalenol, fumonisins, 3-acetyl DON, or 15-acetyl DON was minor in eastern Canada and varied from species to species. Fusarenon X, 15-monoacetoxyscirpenol, and neosolaniol were not detected. Equally significant, approximately one third of the corn and barley samples were contaminated with two to seven mycotoxins. The presence of two or more mycotoxins could have additive or synergistic effects on the toxicity. Measures to reduce DON contamination are needed for corn, wheat, and barley.Key words: Fusarium, mycotoxins, corn, wheat, barley, oats.

Ontogenesis of female-to-male sex-reversal in XX polled goats

The association of polledness and intersexuality in domestic goats (PIS mutation) made them a practical genetic model for studying mammalian female-to-male sex reversal. In this study, gonads from XX sex-reversed goats (PIS-/-) were thoroughly characterized at the molecular and histologic level from the first steps of gonadal differentiation (36 days post coitum [dpc]) to birth. The first histologic signs of gonadal sex reversal were detectable between 36 and 40 dpc (4-5 days later than the XY male) and were mainly characterized by the reduction of the ovarian cortex and the organization of seminiferous cords. As early as 36 dpc, aromatase (CYP19) gene expression was decreased in XX (PIS-/-) gonads, whereas genes normally up-regulated in males, such as SOX9 and AMH, showed an increased expression level from 40 dpc. Thereafter, steroidogenic cell precursors were affected, and at 56 dpc, WNT4 and 3beta-HSD were expressed in a male-specific manner in sex-reversed gonads. Another noticeable feature was a progressive disappearance of germ cells, clearly visible in testicular cords around 70 dpc where 50-75% of germ cells were absent in XX (PIS-/-) gonads. These observations indicated that the causal mutation of PIS acts very early in the sex-determining cascade and affects primarily the supporting cells of the gonad.

Contribution of domestic animals to the identification of new genes involved in sex determination

Among farm animals, two species present an intersex condition at a relatively high frequency: pig and goat. Both are known to contain XX sex-reversed individuals which are genetically female but with a true hermaphrodite or male phenotype. It has been clearly demonstrated that the SRY gene is not involved in these phenotypes. Consequently, autosomal or X-linked mutations in the sex-determining pathway may explain these sex-reversed phenotypes. A mutation referred to as "polled" has been characterized in goats by the suppression of horn formation and abnormal sexual differentiation. The Polled Intersex Syndrome locus (PIS) was initially located in the distal region of goat chromosome 1. The homologous human region has been precisely identified as an HSA 3q23 DNA segment containing the Blepharophimosis Ptosis Epicanthus locus (BPES), a syndrome combining Premature Ovarian Failure (POF) and an excess of epidermis of the eyelids. In order to isolate genes involved in pig intersexuality, a similar genetic approach was attempted in pigs using genome scanning of resource families. Genetic analyses suggest that pig intersexuality is controlled multigenically. Parallel to this work, gonads of fetal intersex animals have been studied during development by light and electron microscopy. The development of testicular tissue and reduction of germ cell number by apoptosis, which simultaneously occurs as soon as 50 days post coïtum, also suggests that several separate genes could be involved in pig intersexuality.

A 11.7-kb deletion triggers intersexuality and polledness in goats

Mammalian sex determination is governed by the presence of the sex determining region Y gene (SRY) on the Y chromosome. Familial cases of SRY-negative XX sex reversal are rare in humans, often hampering the discovery of new sex-determining genes. The mouse model is also insufficient to correctly apprehend the sex-determination cascade, as the human pathway is much more sensitive to gene dosage. Other species might therefore be considered in this respect. In goats, the polled intersex syndrome (PIS) mutation associates polledness and intersexuality. The sex reversal affects exclusively the XX individuals in a recessive manner, whereas the absence of horns is dominant in both sexes. The syndrome is caused by an autosomal gene located at chromosome band 1q43 (ref. 9), shown to be homologous to human chromosome band 3q23 (ref. 10). Through a positional cloning approach, we demonstrate that the mutation underlying PIS is the deletion of a critical 11.7-kb DNA element containing mainly repetitive sequences. This deletion affects the transcription of at least two genes: PISRT1, encoding a 1.5-kb mRNA devoid of open reading frame (ORF), and FOXL2, recently shown to be responsible for blepharophimosis ptosis epicanthus inversus syndrome (BPES) in humans. These two genes are located 20 and 200 kb telomeric from the deletion, respectively.

Time course of female-to-male sex reversal in 38,XX fetal and postnatal pigs

In an attempt to understand the etiology of intersexuality in pigs, we thoroughly analyzed the gonads of 38,XX (SRY negative) female to male sex-reversed animals at different developmental stages: during fetal life [50 and 70 days postcoitum (dpc)], just after birth [35 days postpartum (dpp)] and during adulthood. For each animal studied, we performed parallel histological and ultrastructural analyses on one gonad and RT-PCR analysis on the other gonad in order to define the expression profiles of sexually regulated genes: SOX9, 3beta-HSD, P450 aromatase, AMH, FOXL2, and Wnt4. Light and electron microscopic examination showed that testicular cords differentiated in XX sex-reversed gonads but were hypoplastic. Although the testicular cords contained gonia at the fetal stages, the germ cells had all died through apoptosis within a few weeks after birth. Ultrastructurally normal Leydig cells also differentiated, but later, and enclosed whorl-like residual bodies. At the fetal stages, three of the six genes studied in the intersex gonads presented, as early as 50 dpc, a modified expression profile corresponding to an elevated expression of SOX9 and the beginning of AMH and P450 aromatase gene transcription. In addition to genes involved in the testicular pathway, the same gonads expressed FOXL2, an ovarian-specific factor. The ovaries of true hermaphrodites were ineffective in ensuring correct folliculogenesis and presented abnormal expression profiles of ovarian specific genes after birth. These results indicate that the genes involved in this pathology act very early during gonadogenesis and affect the ovary-differentiating pathway with variable expressivity from ovarian germ cell depletion through to trans-differentiation into testicular structures.

Pre-harvest accumulation of deoxynivalenol in sweet corn ears inoculated with Fusarium graminearum

Three types of commercial sweet corn hybrids [surgary (su1), shrunken or 'supersweet' (sh2) and surgary enhancer (se1)] were silk channel inoculated in 1996 and 1997 with a macroconidial suspension of Fusarium graminearum to determine how early the mycotoxin deoxynivalenol accumulates in kernels. Disease symptoms rapidly developed on all hybrids and were apparent 4 days after inoculation. Symptoms stabilized by 28 days after inoculation. Toxin levels were greater than 1 microgram/g in kernels as early as 2 weeks after silk emergence and rapidly increased to extremely high levels. Susceptibility in all hybrids decreased as the silk dried out. Deoxynivalenol concentrations were correlated to disease severity. There was some indication that the sh2 genotype was more susceptible than the su1 or se1 genotypes. These results suggest that improvement needs to be made in sweet corn with respect to resistance to gibberella ear rot.

Effect of anti-Mullerian hormone on Sertoli and Leydig cell functions in fetal and immature rats

Anti-Mullerian hormone (AMH) is mainly involved in the regression of Mullerian ducts in male fetuses, but it may have other functions linked to gonadal development. The present study examines the effect of AMH on steroidogenesis by Sertoli and Leydig cells in fetal and immature rats during the period where AMH is physiologically produced in the testis. The basal aromatase activity of Sertoli cells in primary culture was strongly stimulated (77-91%) by cAMP. AMH (35 nM) reduced cAMP-stimulated aromatase activity by 49-69% as early as fetal day 16 and until postnatal day 20. This effect was dose dependent and was seen after 48 h in culture. AMH also blocked the Sertoli cell aromatase activity stimulated by FSH, but LH did not stimulate this activity, confirming that the aromatase activity effectively resulted from Sertoli cells and not from contaminating Leydig cells. RT-PCR analysis showed that AMH reduced aromatase activity by decreasing the amount of aromatase messenger RNA. AMH also inhibited the LH-stimulated testosterone production by dispersed fetal Leydig cells in culture in a dose-dependent manner. The inhibitory effect of AMH did not depend on the fetal stage studied (16 or 20 days postconception) and resulted from a drop in the steroidogenic activity of each Leydig cell without affecting the number of 3beta-hydroxysteroid dehydrogenase-positive cells. These data provide the first evidence that AMH, like other members of the transforming growth factor-beta family, has an autocrine/paracrine effect on testicular steroidogenic function during the fetal and prepubertal periods.

Anti-müllerian hormone in relation to the growth and differentiation of the gubernacular primordia in mice

The present study analysed gubernaculum development in mice that had been induced, through transgenesis, to express human anti-Müllerian hormone (h-AMH) throughout prenatal life. Growth and differentiation of the gubernacular primordia were assessed through the analysis of serial, transverse or sagittal, histological sections of the lower abdomen. Transgenic males and females expressed biologically active amounts of h-AMH as measured by sensitive and specific ELISA and evidenced through the regression, in females, of Müllerian ducts after day 13 of prenatal life. Gubernacular primordia became distinguishable at the same age in control and transgenic male and female fetuses on day 12 after coitus. In both groups gubernacular cords (inguinal folds of the genital mesenteries) increased in length more in females than in males while gubernacular cones showed larger growth in males. h-AMH thus appeared not to affect the sexually dimorphic pattern of growth and development of these structures. Growth and differentiation of the gubernacular primordia was further examined in 18-day-old control and h-AMH transgenic fetuses that had been exposed to testosterone propionate injected into their mothers on days 12 and 14 of pregnancy. Testosterone treatment affected, to a minor extent, the growth of the female gubernacular cords: these were reduced in length (but had a larger surface area) compared with controls. The gubernacular cones were slightly increased in length but male-like differentiation of the tissues of the cones into a muscular and mesenchymal component was not noticed to any extent. The observations thus add experimental support to the contention that AMH, even in combination with testosterone, is not effective in establishing the male pattern of gubernacular primordia development.

Cloning and expression of the chick anti-Müllerian hormone gene

Müllerian duct regression in male embryos is due to early production by fetal Sertoli cells of anti-Müllerian hormone, a homodimeric protein of the transforming growth factor- beta superfamily. In mammals, both female Müllerian ducts develop into the uterus and Fallopian tubes, whereas in birds, the right oviduct does not develop. To gain insight into sex differentiation in birds, we have cloned the cDNA for chick anti-Müllerian hormone using antibodies raised against the partially purified protein. Expression cloning was required because of the lack of cross-hybridization between mammalian and chick anti-Müllerian hormone DNA. The chick DNA and protein are significantly longer, due to insertions that abolish nucleotide homology, except in the cDNA coding for the C-terminal, bioactive part of the protein. Nevertheless, the general structure of the gene, sequenced from the transcription initiation to the polyadenylation site, and the main features of the protein are conserved between the chick and mammals. The chick anti-Müllerian hormone gene is expressed at high levels in Sertoli cells of the embryonic testes and in lower amounts in both ovaries, higher levels being reached on the left side after 10 days of incubation.

Ontogeny of reproductive abnormalities induced by deregulation of anti-müllerian hormone expression in transgenic mice

Anti-müllerian hormone, normally responsible for the regression of müllerian ducts in male fetuses, induces stunting, germ cell loss, and seminiferous tubule formation in ovaries of bovine freemartin fetuses and of transgenic mice, which express the human anti müllerian hormone gene under the control of the metallothionein promoter. Because the latter have been studied only after birth, we undertook a detailed chronological study of their reproductive organs. Müllerian ducts of transgenic female fetuses regressed at the same time as those of normal or transgenic males. Maximal reduction of germ cell number occurred between 16 days postcoitus and birth, when most transgenic oocytes were still in the leptotene stage of the meiotic prophase, whereas normal oocytes had already reached the pachytene phase. Interference with progression of the meiotic prophase and germ cell loss in the fetal ovary are probably responsible for subsequent ovarian regression and retardation of follicle growth. Seminiferous tubule formation was not detectable prior to birth and occurred only rarely in postnatal ovaries. Aromatase activity of fetal transgenic ovaries was decreased, as well as serum concentration of testosterone in adult transgenic males, suggesting that high levels of anti-müllerian hormone may impair Leydig cell steroidogenesis.

Development of the gubernaculum and processus vaginalis in freemartinism: further evidence in support of a specific fetal testis hormone governing male-specific gubernacular development

BACKGROUND

Freemartinism occurs in some species of ruminants and affects most female bovine fetuses in heterosexual, multiple pregnancies owing to fusion of the chorionic blood circulations soon after implantation. Maldevelopment of the ovaries and Müllerian ducts have been described and recognized as resulting from exposure of their respective primordia to an excess of anti-Müllerian hormone. The present study aimed to analyse the prenatal growth and development of the gubernaculum in freemartins to find out its possible affliction through foetal testis hormones derived from their male co-twin.

METHODS

Histological sections of young and drawings and photographs of further developed freemartins and control male and female bovine foetuses were analysed. The specimens had been collected earlier for analysis of the time course of male and female gonadal and genital development and its impairment associated with freemartinism.

RESULTS

The gubernaculum of 35-40-day-old male and female fetuses was in the initial stage of development and of similar appearance in all specimens. Gubernacula of 60-70-day-old male fetuses differed from those of females of similar age in various respects: the male gubernaculum size was larger and extension of the processus vaginalis was deeper. Freemartins showed an intermediate development with some individuals resembling male and others resembling female agemates. During further development, gubernacula in males developed into muscular cremaster sacs, whereas those in females generally did not develop beyond the size and structural complexity of 70-day-old foetuses. Beyond day 70 of fetal life, gubernaculum development in freemartins definitely showed male characteristics with respect to size and growth of a processus vaginalis with a cremaster muscular wall. The male-like pattern of the outgrowth of the processus vaginalis changed during the second half of prenatal life. Rather than its further deepening as in males, this structure became inverted to become emerging as a papilla-like structure from the inguinal abdomen bottom. An explanation is proposed for this unprecedented inversion, taking into account: (1) the faster and higher reaching rightsided ascent of the kidneys and gonads, (2) the femalelike outgrowth of the cranial gonadal suspensory ligaments, and (3) the absence of scrotum development. The ovaries and mesonephric remnants in developing freemartins, during their ascent together with the kidneys while remaining attached to the bottom of the developing processus vaginalis sacs via the gubernaculum ligament, are proposed to act together to pull up the bottom of the processus vaginalis sacs. From this action, "inverted hernia sacs" result as the irreversible consequence.

CONCLUSION

The data support the concept that foetal testes act, via as an yet unidentified third hormone, to establish malelike development of gubernacula into muscular cremaster sacs. Further work is required to reveal the identity of this hormone. Furthermore, the apparent similarity of the freemartins' inverted processus vaginalis sacs and the fetal rodents' gubernacular cones suggests that the ruminants' and rodents' processus vaginalis are essentially similar structures. Thus there is no longer an urgent need to distinguish between two different types of gubernaculum development and testis descent in rodents and ruminants, respectively, and involving or not fetal gubernacular cones. The present observations may thus contribute to the development of a unified hypothesis for sexually dimorphic development of the gubernaculum throughout the mammalian class.

Cloning, expression, and alternative splicing of the receptor for anti-Müllerian hormone

Anti-Müllerian hormone, also called Müllerian-inhibiting substance or factor, is a glycoprotein dimer belonging to the transforming growth factor-beta superfamily and synthesized by immature Sertoli cells and postnatal granulosa cells. Anti-Müllerian hormone plays a key role in sex differentiation by inducing the regression of Müllerian ducts in the male fetus. It is also responsible for the stunting and masculinization of fetal ovaries in bovine freemartin fetuses and may be involved in the control of follicular maturation in the postnatal ovary. Using a degenerate probe for a consensus region of the transforming growth factor-beta receptor superfamily to screen a complementary DNA library from rabbit fetal ovaries, we cloned a complementary DNA coding for a transmembrane serine/threonine kinase, which is expressed around the fetal Müllerian duct, in fetal and adult granulosa cells, and in immature Sertoli cells. Two transcripts, generated by alternative splicing of an exon coding for an N-terminal 61-amino acid domain, are strongly expressed in anti-Müllerian hormone target organs and Sertoli cells. The longer, 569-amino acid, isoform binds anti-Müllerian hormone when transiently expressed in COS cells and is believed to encode its functional receptor.

Mullerian inhibiting substance requires its N-terminal domain for maintenance of biological activity, a novel finding within the transforming growth factor-beta superfamily

Mullerian inhibiting substance (MIS)/anti-Mullerian hormone is a differentiation factor that causes regression of the Mullerian duct in the developing male fetus and an apparent sex reversal of the fetal ovary when inappropriately exposed to it. The purified product is a 140-kilodalton glycoprotein composed of two identical subunits. We show that a C-terminal fragment of MIS, which shares homology with transforming growth factor-beta, causes regression of the Mullerian duct and inhibits the biosynthesis of aromatase in the fetal ovary. However, both activities are enhanced dramatically by addition of the N-terminal portion of MIS. Under conditions where potentiation occurs, the N- and C-terminal domains of MIS reassociate. These results indicate that the N-terminus of MIS, unlike that of the other members of the transforming growth factor-beta family, plays a role in maintaining the biological activity of the C-terminus.

A quantitative and interspecific test for biological activity of anti-mullerian hormone: the fetal ovary aromatase assay

Anti-Mullerian hormone (AMH), also known as Mullerian-inhibiting substance or factor, has previously been shown to sex-reverse the steroidogenic pattern of fetal mammalian ovaries through repression of aromatase biosynthesis. Study of the ontogeny of the response of cyclic AMP-stimulated aromatase activity of rat fetal ovaries to AMH has allowed us to develop a quantitative bioassay for the hormone. Linear responses as a function of the logarithm of AMH concentration were observed over ranges of 0.2-7.5 micrograms/ml for the bovine protein and 0.15-2 micrograms/ml for the human protein, with a maximal decrease in aromatase activity of 90% for both proteins. Under the same in vitro conditions, AMH treatment did not affect cyclic AMP-stimulated fetal rat testicular aromatase activity. Partially purified chick AMH also decreased rat ovarian aromatase activity, allowing us to use this test to study AMH ontogeny in chick gonads. Analysis of the species specificity of AMH repression of ovarian aromatase activity indicated that turtle and rat fetal ovaries responded to AMH of other vertebrate classes, whereas aromatase activity of chick embryo ovaries could be repressed only by the homospecific hormone.

Anti-Müllerian hormone produces endocrine sex reversal of fetal ovaries

We have previously reported that anti-Müllerian hormone (AMH), also known as Müllerian-inhibiting substance, the testicular glycoprotein involved in regression of the Müllerian ducts of the male fetus, induces the formation of seminiferous cord-like structures in fetal ovaries exposed to it in organ culture. We have now investigated the effect of bovine AMH, purified to homogeneity, on ovarian endocrine differentiation. Ovine fetal ovaries exposed to AMH release testosterone instead of estradiol, an endocrine sex reversal due to suppression of aromatase activity. AMH dramatically decreases the conversion rate of testosterone to estradiol and also decreases total aromatase activity, as measured by the tritiated water technique. AMH acts by decreasing aromatase biosynthesis rather than by blocking enzyme activity, as suggested by the relatively long period of AMH exposure required to produce an effect. In the rabbit fetal ovary, aromatase activity is AMH-responsive during the whole gestational period. The basal steroidogenic activity of rat fetal ovaries is extremely low but can be markedly increased by cAMP. AMH completely blocks the effect of cAMP. Taken together, our results suggest that AMH plays a pivotal role in both morphological and endocrine gonadal sex differentiation.

A monoclonal antibody against human testicular anti-müllerian hormone

Using immunochromatography on a polyclonal antibody, testicular anti-Müllerian hormone (AMH) was purified from homogenates of human fetal testicular tissue and used as an antigen for hybridoma production. Two IgM clones were obtained. Both recognized AMH on biopsies of human testicular tissue and one blocked its anti-Müllerian activity. This monoclonal antibody (MAb) exhibited a relatively high affinity for AMH, and was studied further. It is interspecific, recognizing AMH in other mammalian species. The study of this MAb in relation to an IgM MAb raised against bovine AMH (bAMH) indicates that both MAbs recognize different but related epitopes on bAMH.

Anti-müllerian hormone and freemartinism: inhibition of germ cell development and induction of seminiferous cord-like structures in rat fetal ovaries exposed in vitro to purified bovine AMH

In 13 and 14-day old fetal rat ovaries maintained 3 to 10 days in organ culture, purified bovine anti-Müllerian hormone (AMH) (1.5 to 3 micrograms/ml) induced a characteristic freemartin effect. Gonadal volume and germ cell number were significantly reduced, compared to control ovaries cultured in anhormonal medium, and epithelial cells with large clear cytoplasm linked by interdigitations differentiated in the gonadal blastema. These cells resembling rat fetal Sertoli cells became polarized and formed seminiferous cord-like structures delineated by a basal membrane containing laminin and fibronectin as is the case of testicular seminiferous cords at the first step of their differentiation. These data indicate that AMH is probably the testicular factor responsible for the morphological modifications of bovine freemartin gonads and suggest that this hormone could also be involved in normal morphological differentiation of the testis. In contrast, in fetal rat ovaries, AMH did not trigger the testosterone production which occurs in freemartin gonads at an early stage of the gestation.

Anti-müllerian hormone in sheep follicles

The purpose of this work was to study anti-Müllerian hormone (AMH) secretion during ovarian development in sheep before and after birth. We used avidinbiotin immunocytochemistry and a monoclonal antibody specific for ruminant AMH. Only granulosa cells have an immunoreactivity; this immunoreactivity was influenced by animal age and by the degree of follicular development. In the fetus, no immunoreactivity was detected in somatic cells of ovigerous cords at 70 days post-coitum (p.c.) or in primordial and growing follicles at 100 and 120 days p.c. A faint reaction was only seen occasionally in a few cells belonging to preantral follicles at 120 days p.c. AMH was never detected in primordial follicles in ovaries of 144 days p.c., at birth, at 8, 97, 145 days post-natal or in adult ovaries. A faint reaction, elicited in small growing follicles, increased with follicle size to become more intense in antral follicles. Immunoreactivity was strongly positive in granulosa cells, especially in those lining the antral cavity and close to the oocyte, whereas there was little or no reactivity in peripheral cells near the basal membrane. Follicles without AMH reactivity were found at all times and their number decreased with age.

Immunocytochemical study of anti-Müllerian hormone in sheep ovarian follicles during fetal and post-natal development

Anti-Müllerian hormone (AMH) was detected in perinatal and postnatal sheep ovaries, using avidin-biotin immunohistochemistry with a monoclonal antibody specific for ruminant AMH. Immunoreactivity was limited to granulosa cells, and was influenced both by the degree of follicular development, and by the age of the animal. In the fetus, only the most advanced follicles exhibited a faint immunoreactivity at 120 days gestation, and no reaction was observed in younger animals. Immediately before and after birth, primordial follicles were still negative, but a faint reaction was elicited in young growing follicles, increasing with follicle size. Strong immunoreactivity was visible in antral follicles, especially in the innermost granulosa cell layers, close to the oocyte and lining the antral cavity.

Purified bovine AMH induces a characteristic freemartin effect in fetal rat prospective ovaries exposed to it in vitro

To determine whether anti-Mullerian hormone (AMH) is responsible for the gonadal lesions observed in bovine genetic females united by placental anastomoses to male twins (freemartins), prospective ovaries of fetal rats were exposed to purified bovine AMH in vitro. In cultures initiated at 14 days p.c. and maintained 3 to 10 days, AMH consistently induced a characteristic ‘freemartin effect’, namely reduction of gonadal volume, germ cell depletion and differentiation, in the gonadal blastema, of epithelial cells with large clear cytoplasm linked by interdigitations, resembling rat fetal Sertoli cells. These cells tend to become polarized and form cords, delineated by a continuous basal membrane containing laminin and fibronectin. Such structures, resembling developing seminiferous cords, were not detected in control ovarian cultures. These data strongly suggest that AMH is the testicular factor responsible for triggering the morphological abnormalities of freemartin gonads.

Monoclonal antibodies raised against bovine anti-müllerian hormone: bovine, ovine, and caprine hormones share a set of identical epitopes

Monoclonal antibodies (Mabs) have been raised against purified bovine anti-Müllerian hormone (bAMH) in an effort to obtain nonzoospecific reagents. Although the majority of the resulting hybridomas resembled those obtained previously insofar as they recognized only bovine, ovine and caprine AMH, four others, all immunoglobulin Ms, were directed against an epitope shared with AMH of other species, namely rabbit, pig and cat. Both the zoospecific and the conserved epitopes were located close to the site required for biological activity. It is suggested that the similarity between the immunogenic characteristics of bovine, ovine and caprine AMH is in some way related to the fact that AMH in these species is disseminated in the blood stream and may produce freemartinism.

Persistence of müllerian ducts in male rabbits passively immunized against bovine anti-müllerian hormone during fetal life

A female rabbit was immunized against purified bovine AMH and mated. Booster injections were given at Day 8 of pregnancy to ensure a high titer of anti-AMH antibodies at the time the rabbit fetal testis begins to produce AMH. In three consecutive litters, the immunized female produced a total of 12 males, 9 of which had persistent Müllerian duct derivatives. No other significant abnormalities were detected in these animals, which were compared to the offspring of a control saline-injected female. In particular, testicular morphology was normal in most animals, and serum FSH levels did not differ from controls. This experimental model lends no support to the hypothesis that AMH controls extra-Müllerian events of male sex differentiation, nor that of the existence of a regulatory mechanism for synthesis of AMH by Sertoli cells, but it does not definitely exclude these possibilities, inasmuch as our tentative conclusions are based upon study of only one immunized female.

Secretion of anti-Müllerian hormone by immature bovine Sertoli cells in primary culture, studied by a competition-type radioimmunoassay: lack of modulation by either FSH or testosterone

Secretion of anti-Müllerian hormone (AMH) by immature bovine Sertoli cells in primary culture was studied through a competition-type RIA employing a polyclonal antibody and 125I-labelled purified AMH. This RIA is approximately 10 times more sensitive than the solid-phase two-site monoclonal antibody-based RIA described previously. Biosynthesis and secretion of AMH by cultured Sertoli cells require approximately 48 h, are not influenced by FSH or testosterone and steadily decrease over a one-week period of culture. Cyclic AMP response to FSH stimulation is normal in cultured cells. Whether the factors responsible for the extinction of AMH production in vitro are in any way related to those operating during normal maturation, which lead to repression of AMH biosynthesis in adult Sertoli cells, is not known at the present time and deserves further study.

Production of anti-Müllerian hormone: another homology between Sertoli and granulosa cells

Anti-Müllerian hormone (AMH) has been detected by RIA in the follicular fluid of mature bovine ovaries and in incubation medium of bovine granulosa cells. Purification of AMH from two independent batches of follicular fluid was achieved with a yield of 11% and 15% respectively. Both ovarian and control testicular AMH produced near-complete regression of fetal rat Müllerian ducts exposed to it in culture at a final concentration of 200-300 mU/ml and were recognized by the same monoclonal and polyclonal antibodies. These findings indicate that adult mammalian granulosa cells are capable of producing immunoreactive and bioactive AMH at a rate apparently similar to that already demonstrated for mature Sertoli cells and add yet another item to the homologies reported between male and female somatic gonadal cells.

Origin of anti-Mullerian hormone in bovine freemartin fetuses

The origin of AMH responsible for Müllerian duct regression in bovine freemartins has been reinvestigated, using a sensitive RIA for this hormone. Between 50 and 80 days, Müllerian duct regression occurs simultaneously in males and freemartins. Both twins exhibited high and positively correlated serum AMH concentrations, whereas gonadal in-vitro production of AMH and biological anti-Müllerian activity were detectable at a low level only in 2 out of 13 freemartins. In the gonads of approximately half the freemartins after 80 days, seminiferous tubules differentiated and the gonads produced AMH, but the output was very low compared to that of the male twin. These data suggest that regression of Müllerian duct in freemartins is essentially mediated by AMH produced by the testes of the male twin.

Use of monoclonal antibody techniques to study the ontogeny of bovine anti-Müllerian hormone

Monoclonal antibodies against bovine anti-Müllerian hormone (AMH) were used to study the hormone in cattle. Anti-Müllerian activity of testicular tissue, immunoreactive testicular AMH, serum AMH concentration and AMH production by incubated testicular tissue were detectable from 42 days, i.e. at the time of seminiferous tubule differentiation, and peaked between 50 and 80 days, when the Müllerian ducts regress in the male fetus. All the values stabilized at a lower level until 30 days after birth and then slowly decreased. At 18 months, only traces of AMH immunoreactivity were detectable in testicular tissue and serum concentration and AMH production by incubated testicular tissue were negligible; the main source of AMH in the adult animal was the rete testis fluid. Study of the disappearance rate of AMH from the serum of castrated calves gave a half-life of approximately 2 days for bovine AMH.

A sensitive radioimmunoassay for bovine anti-Müllerian hormone, allowing its detection in male and freemartin fetal serum

Two monoclonal antibodies have been used to set up a solid-phase RIA for bovine anti-Müllerian hormone (bAMH). One AMH unit is defined as the amount released by 1 g of bovine fetal testicular tissue during a 4 h incubation period. Calibration curves were prepared using aliquots of a standard 500 ml pool of incubation medium, containing 200 AMH mU/ml, diluted either in 50% pig testes incubation medium, 5% horse serum, 10% female calf fetal serum or pure female calf fetal serum. Linearization of the calibration curves was achieved through "logit-log" transformation, all four lines were parallel. Within and between-assay variability were less than 5%. The RIA is at least 600 times more sensitive than the bioassay for anti-Müllerian activity and can detect AMH in male and freemartin fetal serum.

A monoclonal antibody against bovine anti-Müllerian hormone

Anti-Müllerian hormone (AMH) was partially purified from incubation medium of calf fetal testes and injected into a BALB/c mouse, whose splenocytes were fused with Sp2/Ag8 myeloma cells. Hybridomas were screened for specific antibody production by double antibody precipitation of labeled AMH, which was obtained by incubating fetal calf testes in the presence of tritiated fucose and submitting the medium to the standard procedure of purification. In spite of the extremely low concentration of AMH in the preparation used for immunization, three hybridomas gave positive results in the screening assay. One was cloned and grown in mice. The monoclonal antibody purified from ascites fluid abolished anti-Müllerian activity of partially purified AMH, whether or not the immune complex was removed from solution by a second, antimouse immunoglobulin antibody. The monoclonal antibody also blocked anti-Müllerian activity of calf but not rat fetal testes. Our results indicate that the monoclonal antibody is species specific and is directed towards the antigenic determinant responsible for biological activity.

[Purification of bovine antimullerian hormone using a monoclonal antibody]

Bovine antimüllerian hormone (AMH) has been purified from incubation medium of bovine fetal testes, by immunoaffinity chromatography using a monoclonal antibody. Presence of AMH in the column eluate is demonstrated by its high antimüllerian activity. Biochemical analysis, by SDS polyacrylamide gel electrophoresis, indicates that the testicular protein eluted from the column co-electrophoreses with native tritiated AMH which, as previously shown, is a dimer of 124,000 +/- 15,000 MW.

Anti-Müllerian hormone: a local or long-distance morphogenetic factor?

In an attempt to determine whether anti-Müllerian hormone could exert long-distance effects, we studied the anti-Müllerian activity of gonads from bovine Freemartin fetuses. Anti-Müllerian activity was detected in 3 out of the 7 animals studied: one was 62 days old, and its gonad contained undifferentiated tissue only; the 2 others were 110 and 130 days old respectively, and their gonads contained seminiferous tubules. The gonads devoid of anti-Müllerian activity contained only rete tubules or fibrous tissue. Anti-Müllerian activity was absent in fetal male and Freemartin serum, except in 2 cases, in which low activity was present after 37-fold purification by lectin affinity chromatography. The presence of anti-Müllerian activity in Freemartin gonads with seminiferous tubules is an indication that gonadal virilization in these fetuses is functional as well as morphological. Further experiments are needed to determine whether regression of the Müllerian ducts in the Freemartin is due to anti-Müllerian hormone produced by the Freemartin gonads in situ.

[Meiotic prophase in germinal cells of rat ovarian primordium cultivated in vitro in anhormonal medium]

Gonads of female Rat fetuses were cultured in vitro in an anhormonal medium with the whole or parts of the mesonephros, at an age of 12, 13 or 14 days, i.e. 2 to 4 days before the onset of meiosis. Under these conditions the meiotic prophase takes place and proceeds to the dictyate phase, obeying a somewhat delayed chronology in comparison with controls in vivo.

[The first manifestations of freemartinism in the calf fetus do not depend on XX/XY chromosomal chimerism]

In order to investigate the eventual role of XX/XY chimerism in freemartinism the vascular anastomoses between twin fetuses were surgically suppressed in litters with several fetuses, before the appearance of the first sexual anomalies. In three female fetuses isolated from their co-twins on days 37 and 45, the initial freemartin effect of gonadal and Müllerian inhibition was absent, in spite of an important XX/XY chimerism in the liver.

[Absence of correlation between XX-XY chimerism in the liver and the first signs of freemartinism in the calf fetus]

XX/XY chimerism has been studied in the liver of 22 presumptive freemartin fetuses and in 12 male cotwins of multiple pregnancies, at an age of 39 to 62 days post-insemination. At these stages, the majority of the liver cells are hematopoietic cells. In these fetuses, the degree of chimerism varies from 0% to 55 %. Except for one case, the cells of the host predominate, i.e., the percentage of XY cells in freemartins is less than 50 % and is of the same order of magnitude as the number of XX cells in the male twin. According to several authors, freemartins and their male twins, when studied postnatally, possess the same percentage of XY (or XX) blood cells (variations from 1 % to almost 100%). These data suggest that the degree of chimerism of blood cells might change during development. If this is so, it seems unwarranted to compare chimerism in postnatal freemartins with the sex anomalies which appeared at an early fetal stage. The first signs of freemartinism (inhibition of gonadal growth and regression of the upper part of the Müllerian ducts) appear after day 48. In 15 freemartin fetuses of 49 to 62 days of age, the degree of inhibition of the left ovary and of the upper Müllerian ducts was compared with the percentage of XY cells present in the liver. The degree of inhibition of the ovarian volume and of the diameter of the upper Müllerian ducts was evaluated by reference to regression lines which had been previously calculated for a larger number of freemartins of the same age. There is no correlation between the percentage of XY cells and the degree of inhibition of the ovaries or of the Müllerian ducts.