Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0021359 (infertility)
26,075 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The ovary can be the target of an autoimmune disease involving many different autoantigens. The clinical feature of this disease often results in premature ovarian failure or infertility and may be either isolated or associated with other autoimmune pathologies, especially with adrenal autoimmunity. The diagnosis of an autoimmune mechanism relies on the presence of anti-ovarian antibodies, whose prevalence is quite variable according to the different methods used to detect them, and to the different stages of the disease. In addition, their clinical significance is not always clear, as to their pathologic or epiphenomenal nature. However, the study of these autoantibodies has led to the identification of some of their antigenic targets which have to be known for a better understanding of the pathologic mechanisms involved. This paper reviews anti-steroid producing cells, anti-gonadotrophin receptor, anti-gonadotrophin, anti-corpus luteum, anti-zona pellucida and anti-oocyte antibodies.
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PMID:[What are the antigenic targets in the ovary?]. 1449 23

The currently characterized chromosomal disorders and gene mutations that cause infertility in humans were reviewed. Of the four arbitrary compartments, genes expressed in the gonad comprise the most common site affected by mutations causing infertility. Clinicians should be aware of the most common causes that have clinical implications: (1) women with a 45,X cell line commonly have cardiac anomalies that may pose a risk for maternal death in pregnancies achieved by donor egg IVF; (2) men with Y-chromosome deletions may produce male offspring with the same deletion, rendering them infertile; (3) CBAVD must be ascertained in men with azoospermia because of the risk for having a child with CF; and (4) some women with premature ovarian failure may be fragile X syndrome carriers, so other family members may be at risk for the full syndrome. In the future, more genes will be identified to cause infertility in humans, which will translate into clinical significance. In select cases, in which the genetic defect is known, it may be possible to use preimplantation genetic diagnosis to screen embryos prior to uterine transfer.
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PMID:Genetic causes of human infertility. 1457 25

Follistatin plays an important role in female physiology by regulating FSH levels through blocking activin actions. Failure to regulate FSH has been implicated as a potential cause of premature ovarian failure. Premature ovarian failure is characterized by amenorrhea, infertility, and elevated gonadotropin levels in women under the age of 40. Because follistatin is essential for postnatal viability, we designed a cre/loxP conditional knockout system to render the follistatin gene null specifically in the granulosa cells of the postnatal ovary using Amhr2cre transgenic mice. The follistatin conditional knockout females develop fertility defects, including reduced litter number and litter sizes and, in the most severe case, infertility. Reduced numbers of ovarian follicles, ovulation and fertilization defects, elevated levels of serum FSH and LH, and reduced levels of testosterone were observed in these mice. These findings demonstrate that compromising granulosa cell follistatin function leads to findings similar to those characterized in premature ovarian failure. Follistatin conditional knockouts may therefore be a useful model with which to further study this human syndrome. These studies are the first report of a granulosa cell-specific deletion of a gene in the postnatal ovary and have important implications for future endeavors to generate ovary-specific knockout mouse models.
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PMID:Granulosa cell-specific inactivation of follistatin causes female fertility defects. 1470 41

Since the cloning of the bcl-2 gene in 1985, considerable progress has been made in elucidating the function of Bcl-2 and related proteins in controlling apoptosis. Although much of this work initially relied on the ectopic expression of bcl-2 gene family members in cell lines in vitro, a number of genetically manipulated mice have been generated to better understand the in vivo significance of specific family members to organ development and homeostasis. Of the many tissues that exhibit apoptosis at some point during fetal or postnatal life, the female gonads arguably possess one of the highest and most protracted incidences of apoptosis, associated with development and maturation of the germ line. Moreover, female germ cells (oocytes) are, for as-yet poorly understood reasons, extremely vulnerable to a host of pathological insults, such as anti-cancer therapies, that ultimately cause premature ovarian failure and infertility due to accelerated oocyte death. Accordingly, efforts to understand the occurrence and regulation of apoptosis in the ovary are of considerable importance from both biological and clinical perspectives. This review will highlight what is known of apoptosis in the female gonads, and the role that Bcl-2 family members play in regulating this process.
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PMID:Current concepts in Bcl-2 family member regulation of female germ cell development and survival. 1499 4

Maturation of oocytes from primordial follicles after cryopreservation of ovarian tissue with subsequent in vitro fertilisation would be an important method of infertility treatment for young women who are to undergo premature ovarian failure due to chemotherapy or genetic causes. Cryopreservation of human ovarian tissue is already feasible. Human primordial follicles can be cultured regularly to secondary and occasionally to early antral stages, yet cultures have to be further optimised before meiotically competent oocytes can be achieved for final maturation in vitro. Maturation in vitro (IVM) of oocytes obtained by aspiration from small antral follicles is already a feasible technique resulting in pregnancies, with many healthy infants born.
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PMID:Cryopreservation and culture of human ovarian cortical tissue containing early follicles. 1504 Nov 32

The involvement of autoimmune mechanisms in premature ovarian failure has been put forward by numerous investigators. In various other ovarian pathologies, such as idiopathic infertility, polycystic ovary syndrome, or endometriosis, similar mechanisms have been suggested. However, the exact role of autoimmunity in the pathophysiology of these diseases still remains controversial. The diagnosis of autoimmune ovarian disease relies on several clinical, biological and histological findings, but special interest has been focused on antiovarian autoantibodies. The search for these antibodies has been undertaken by several authors and yielded somewhat conflicting results which might be conditioned by methodological differences and by the multiplicity of potential immune targets. These targets, which comprise various steroidogenic enzymes, gonadotrophins and their receptors, the corpus luteum, zona pellucida and oocyte, are reviewed. Further investigation of these targets is required to improve the diagnostic tools that will lead to a precocious and reliable diagnosis of autoimmune ovarian disease, an appropriate clinical surveillance as well as the selection of patients who may benefit from immune-modulating therapy and possibly recover ovarian function and fertility.
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PMID:Autoimmunity and antigenic targets in ovarian pathology. 1507 45

A translocation breakpoint 171 kb 5' of the transcription start of FOXL2 causes blepharophimosis/ptosis/epicanthus inversus syndrome (BPES) and associated premature ovarian failure. The breakpoint falls within another gene, MRPS22, that has been sequenced in 500 kb of continuous DNA. MRPS22 encodes 20 exons and a number of alternative transcripts. Three CpG islands (>91% identical) are followed by noncoding exons 4-12 and coding exons 13-20. The 3'UTR extends into the 3'UTR of COPB2. Based on the sequence, three reported translocations that cause BPES all fall within intron 6 of MRPS22. Comparisons reveal conserved segments in introns 6, 11, and 12 of human and mouse. Notably intron 11 sequence is also deleted in goat PIS syndrome (which combines craniofacial defects, female infertility, and XX sex reversal). The conserved sequences are candidates for models in which they are distant enhancers or otherwise affect higher order chromatin structure to impose long-range cis regulation of FOXL2 expression.
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PMID:FOXL2 inactivation by a translocation 171 kb away: analysis of 500 kb of chromosome 3 for candidate long-range regulatory sequences. 1508 Nov 6

In a Slovene patient with primary amenorrhoea without an association with blepharophimosis/ptosis/epicanthus inversus syndrome (BPES), a novel 30 bp deletion was identified in the FOXL2 gene. We report the clinical features of this woman who has spontaneously conceived and delivered two live healthy babies. The novel deletion was predicted to remove 10 out of 14 alanines (A221_A230del), from the polyalanine tract downstream of the winged helix/forkhead domain of the FOXL2 protein. The patient's parents and sister were shown not to carry this deletion. Despite seeing an anovulatory secretory pattern of FSH, follicles developed spontaneously. Persistent and consistent monitoring have practical implications for genetic and fertility counselling in the era when women with premature ovarian failure usually seek ovum donation. The role of FOXL2 in the development of infertility is still unclear, but several lines of evidence suggest that it plays a central role in follicle development.
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PMID:A novel 30 bp deletion in the FOXL2 gene in a phenotypically normal woman with primary amenorrhoea: case report. 1545 70

In young patients with cervical carcinoma, the standard surgical treatment is often followed by postoperative radiotherapy. This treatment strategy, although resulting in a significant increase in cure rates, often causes infertility and premature ovarian failure. Ovarian autotransplantation outside the field of radiotherapy is a new technique to preserve gonadal function. One ovary was transplanted to the left upper arm during the surgical treatment for cervical carcinoma. Vascular anastomoses were performed by microsurgery. After transplantation, the ovary showed adequate arterial and venous blood flow. By clinical examination and ultrasound monitoring, the ovarian cycles remained regular and follicle growth occurred normally for > 1 year. Heterotopic autotransplantation of the ovary to the upper arm is a promising surgical technique to maintain the ovarian function in women who become menopausal due to cancer treatment regimens.
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PMID:Successful human ovarian autotransplantation to the upper arm. 1578 18

Non-random de novo autosomal chromosomal rearrangements have not been shown to cause exocrine or gonadal dysfunction. We report on two siblings, a brother and a sister, both with de novo chromosomal rearrangements and gonadal deficiency including premature ovarian failure. They had normal phenotypes without additional manifestations of known chromosomal breakage syndromes (except for the gonadal dysfunction) and normal alpha-fetoprotein dosage level. The association of sperm abnormalities in the brother and ovarian dysfunction in the sister suggested an increased spontaneous chromosomal instability. Since the co-occurrence of chromosomal anomalies and reproductive failures may not be coincidental, we performed repeated chromosomal analysis of peripheral blood lymphocytes prior to proposing ICSI for IVF (for the brother). In both sibs, infertility was associated with random and non-random de novo autosomal chromosomal abnormalities. We discuss the possible relationship between these unusual clinical and cytogenetic features and their potential links to ataxia-telangiectasia.
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PMID:Chromosomal instability in two siblings with gonad deficiency: case report. 1557 95


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