Marjut Otala scite author profile

Infertility caused by ovarian failure is a characteristic feature in Turner's syndrome. Spontaneous pregnancies are seen in 2-5% of these women, and up to 30% have at least some pubertal development, indicating the presence of follicles in their ovaries in adolescence. It has not been clear at which age the follicles disappear. We analyzed the numbers and densities of follicles in ovarian cortical tissue from nine adolescent girls with Turner's syndrome who came to our clinics after having been informed about the study, with an aim to preserve ovarian tissue for possible infertility treatment later in life. A quarter to one whole ovary was laparoscopically removed for the procedure. Follicles were seen in the biopsy tissue in eight of nine subjects from whom ovarian tissue was laparoscopically obtained, the highest numbers being seen in the youngest girls and in those with mosaicism. In one 17-yr-old girl, no ovarian tissue was found. Follicle density was correlated with serum levels of FSH; individuals with the lowest FSH levels had the highest follicle density. One to 190 follicles were counted in the approximately 0.1-2.0 mm(3) of tissue analyzed, giving a density of 1.5-499 follicles/mm(3) of ovarian cortical tissue. Girls up to the age of 17 had primordial follicles in their ovaries. Three girls, two aged 15 yr and one aged 19, had only secondary follicles, with many being atretic. Our finding that adolescent girls with Turner's syndrome still have follicles in their ovarian cortical tissue raises the possibility of future fertility through cryopreservation of ovarian tissue. However, before such procedures can be recommended for clinical management, it is essential that future studies be performed to determine whether the oocytes retrieved from girls with Turner's syndrome have a normal chromosomal complement.

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Protection from Radiation-Induced Male Germ Cell Loss by Sphingosine-1-Phosphate1

Otala

Suomalainen

Pentikäinen

et al. 2004

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Male germ cells are susceptible to radiation-induced injury, and infertility is a common problem after total-body irradiation. Here we investigated, first, the effects of irradiation on germ cells in mouse testis and, second, the role of sphingosine-1-phosphate (S1P) treatment in radiation-induced male germ cell loss. Irradiation of mouse testes mainly damaged the early developmental stages of spermatogonia. The damage was seen by means of DNA flow cytometry 21 days after irradiation as decreasing numbers of spermatocytes and spermatids with increasing amounts of ionizing radiation (0.1-2.0 Gy). Intratesticular injections of S1P given 1-2 h before irradiation (0.5 Gy) did not protect against short-term germ cell loss as measured by in situ end labeling of DNA fragmentation 16 h after irradiation. However, after 21 days, in the S1P-treated testes, the numbers of primary spermatocytes and spermatogonia at G2 (4C peak as measured by flow cytometry) were higher at all stages of spermatogenesis compared with vehicle-treated testes, indicating protection of early spermatogonia by S1P, whereas the spermatid (1C) populations were similar. In conclusion, S1P appears to protect partially (16%-47%) testicular germ cells against radiation-induced cell death. This warrants further studies aimed at development of therapeutic agents capable of blocking sphingomyelin-induced pathways of germ cell loss.

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Sphingosine-1-Phosphate in Inhibition of Male Germ Cell Apoptosis in the Human Testis

Suomalainen

Hakala

Pentikäinen

et al. 2003

The Journal of Clinical Endocrinology & Metabolism

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It has been suggested that apoptosis is controlled by two intracellular sphingolipids, ceramide and sphingosine-1-phosphate (S1P), which are widely distributed in mammalian tissues. In the ovary, S1P was found to effectively block apoptosis caused by cancer therapies. Its role in male germ cell death, however, was unknown. In this study, we investigated the effects of ceramide and S1P on human male germ cell apoptosis. Germ cell death was induced by incubation of segments of seminiferous tubules in vitro. During apoptosis, ceramide levels increased rapidly before appearance of caspase 3 activation and DNA laddering, suggesting a role for ceramide in the induction of germ cell death. Ceramide appeared to regulate an early step of apoptosis because n-acetyl-L-cysteine and blockade of mitochondrial respiration inhibited apoptosis but had no effect on ceramide levels. Moreover, fumonisin B1 (ceramide synthetase inhibitor) did not significantly affect testicular apoptosis. Therefore, elevated ceramide levels are likely to result from breakdown of sphingomyelin rather than from de novo synthesis. Finally, we found that S1P at 1 and 10 micromol/liter suppressed germ cell apoptosis by 30% (P < 0.001). Taken together, sphingolipids appear to play a role in male germ cell apoptosis and can partly be inhibited by S1P.

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TNFα Down-Regulates the Fas Ligand and Inhibits Germ Cell Apoptosis in the Human Testis

Pentikäinen

Erkkilä

Suomalainen

et al. 2001

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The cytokine TNFalpha is known to be secreted by testicular germ cells. However, its effect on maturing germ cells is unknown, and its role in the regulation of spermatogenesis is unclear. Here we aimed at characterizing the effects of TNFalpha on germ cell survival in the human testis. We found that TNFalpha effectively and dose-dependently inhibited germ cell apoptosis, which was induced in vitro by incubating segments of human seminiferous tubules under serum-free culture conditions. EMSAs indicated increased activity of nuclear factor kappaB in seminiferous tubules cultured under apoptosis-inducing conditions. However, we did not observe any significant effect of TNFalpha on the activation of this transcription factor, which is often considered to be a mediator of TNFalpha-induced survival signals. As the expression of the TNF receptor protein in the human seminiferous epithelium was predominantly found in the Sertoli cells, the antiapoptotic effect of TNFalpha is probably mediated via these somatic cells. Interestingly, expression of the Fas ligand, a known inductor of testicular apoptosis, was down-regulated by TNFalpha. Thus, in the seminiferous tubules, germ cell-derived TNFalpha may regulate the level of the Fas ligand and thereby control physiological germ cell apoptosis.

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Demographic and evolutionary trends in ovarian function and aging

Laisk

Tšuiko

Jatsenko

et al. 2018

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Marjut Otala

Follicles Are Found in the Ovaries of Adolescent Girls with Turner’s Syndrome

Protection from Radiation-Induced Male Germ Cell Loss by Sphingosine-1-Phosphate1

Sphingosine-1-Phosphate in Inhibition of Male Germ Cell Apoptosis in the Human Testis

TNFα Down-Regulates the Fas Ligand and Inhibits Germ Cell Apoptosis in the Human Testis

Demographic and evolutionary trends in ovarian function and aging

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