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Fetal Testis (fetal + testis)

Distribution by Scientific Domains
Life Sciences85%

Selected Abstracts

Chronological gene expression of ADAMs during testicular development: Prespermatogonia (gonocytes) express fertilin , (ADAM2)

DEVELOPMENTAL DYNAMICS, Issue 3 2003
Carolina Rosselot
Abstract Immediately after birth, primordial germinal cell-derived prespermatogonia (PSG), located in the center of the testicular cords, migrate between adjacent Sertoli cells to establish contact with the cord basal lamina. PSG migration suggests continued assembly and disassembly of cell,cell contacts by a molecular mechanism that may involve integrins and their ligands, the disintegrin domain of spermatogenic cell-specific plasma membrane proteins called ADAMs. We have analyzed the temporal gene expression of selected ADAMs in intact fetal, early postnatal, and pubertal rat testis and Sertoli,spermatogenic cell cocultures by reverse transcriptase-polymerase chain reaction, in situ hybridization, and immunocytochemistry. We report that several ADAM transcripts are expressed in fetal, neonatal, and prepubertal testes. Cyritestin (ADAM3), ADAM5, ADAM6, and ADAM15 are expressed in day 17 fetal testes. In contrast, no expression of fertilin , (ADAM1) and fertilin , (ADAM 2) was detected in fetal testes. Fertilin , gene expression starts after postnatal day 2, subsequent to the expression of fertilin ,, which occurs on postnatal day 1. After postnatal day 2, all the indicated ADAMs, including the fertilin , and fertilin ,, continue to be expressed. Transcripts of spermatogenic cell-specific fertilin ,, fertilin ,, ADAM3, and ADAM5 were detected during the coculture of PSG with Sertoli cells for up to 72 hr after plating. The presence of fertilin , mRNA and protein in cocultured PSG was visualized by in situ hybridization and immunocytochemistry, respectively. These observations indicate that PSG in coculture with Sertoli cells provide a suitable approach for analyzing cell,cell adhesive responses involving spermatogenic cell-specific ADAMs. Development Dynamics 458,467, 2003. © 2003 Wiley-Liss, Inc. [source]

Congenital absence of the testis in human fetuses and in cryptorchid patients

INTERNATIONAL JOURNAL OF UROLOGY, Issue 12 2004
LUCIANO A FAVORITO
Abstract, Background, The aim of the present study is to make a comparative study in human fetuses and in patients with cryptorchidism, analyzing the incidence of a number anomalies of the testes for both populations. Methods, We studied 326 testes from 163 human fetuses ranging in age from 10 to 35 weeks postconception (WPC) and 133 testes from 101 cryptorchid patients aged from 1 to 15 years old (mean, 6.4 years). The Fisher's exact test was used for comparison. Results, Among 326 fetal testes, 224 (68.7%) were abdominal, 45 (13.8%) were inguinal and 55 (16.8%) were scrotal. In one fetus at 23 WPC, both testes (0.6%) were absent. Of the 133 cryptorchid testes, 17 (12.78%) were abdominal, 92 (69.1%) were inguinal and 24 (18%) were high scrotal. Of the 17 abdominal testes, three (17.6%) were atrophic and two were vanished (11.7%). Of the 92 inguinal testes, one (1.08%) was vanished. Twenty-eight (21%) of the cryptorchid testes were impalpable and among these, 17 were located in the abdomen (60.7%) and 11 (38.2%) in the inguinal region (internal ring). Conclusions, Testicular agenesis is a very rare anomaly, both in fetuses and patients with cryptorchidism. [source]

Transgenic sperm produced by electrotransfection and allogeneic transplantation of chicken fetal spermatogonial stem cells

MOLECULAR REPRODUCTION & DEVELOPMENT, Issue 4 2010
Fei Yu
To study self-renewal, genetic modification, and differentiation of avian spermatogonial stem cells (SSCs), we isolated chicken SSCs from fetal testes on the 16th hatching day via enzyme digestion, and then cultured the SSCs over 2 months after purification in vitro. SSCs were identified by alkaline phosphatase staining and SSEA-1 fluorescence. The EGFP gene was transfected into SSCs by three different methods: electroporation, liposome transfer and calcium acid phosphate precipitation. The transfection rate and cell survival rate using electroporation were higher than when using liposomes or calcium acid phosphate (20.52% vs. 9.75% and 5.61%; 69.86% vs. 65.00% and 51.16%, respectively). After selection with G418 for 8 days, the transgenic SSCs were transplanted into the testes of cocks treated with busulfan. Twenty-five days after transplantation, the recipients' semen was light ivory in color, and the density of spermatozoa was 3.87 (×107/ml), with 4.25% expressing EGFP. By 85 days after transplantation, the number of spermatozoa increased to 32.7 (×107/ml) and the rate of EGFP expression was 16.25%. Frozen sections of the recipients' testes showed that transgenic SSCs were located on the basal membrane of the seminiferous tubules and differentiated into spermatogenic cells at different stages. The EGFP gene was successfully amplified from the DNA of all recipients' semen samples. Mol. Reprod. Dev. 77: 340,347, 2010. © 2010 Wiley-Liss, Inc. [source]

Measurement of the linear dynamics of the descent of the bovine fetal testis

JOURNAL OF ANATOMY, Issue 1 2003
M. J. Edwards
Abstract Measurements were made on 86 male bovine fetuses collected from abattoirs in the vicinity of Sydney, Australia. The fetal body length was used to calculate the approximate day of gestational age (DGA); most fetuses were between 60 and 150 DGA. The distances from the caudal pole of the kidney (metanephros) to, respectively, the tip of the scrotum, the distal end of the testis and the internal ring of the inguinal canal were measured, as well as the dimensions of the testis and gubernaculum testis. Distances of (1) testis to inguinal canal, (2) inguinal canal to scrotum, (3) testis to scrotum and (4) gubernaculum to scrotum were calculated from these measurements, which were made on both left and right sides. The total length of the gubernaculum testis increased during transabdominal passage and during transinguinal passage of the testis. Furthermore, the gubernaculum appeared to maintain the testis at a relatively fixed distance from the scrotum during transabdominal passage so that the inguinal canal appeared to move towards the testis. The greatest distance between the testis and the tip of the scrotum was found during the transinguinal passage of the testis and was 2.8 cm for the left testis and 2.3 cm for the right. When located within the scrotum, each testis was still 1.6,1.7 cm from the tip of the scrotum, so the distance to be traversed was only 0.6,1.2 cm. Following passage of the testis through the inguinal canal, the gubernaculum became shorter and its distal tip was displaced toward the distal end of the scrotum. Traction by the gubernaculum could account for the final transposition of the testis from the external inguinal ring to the scrotum. Other factors involved in displacement of the testis include differential growth patterns as well as increases in the dimensions of the testis itself. [source]

Importance of forkhead transcription factor Fkhl18 for development of testicular vasculature

MOLECULAR REPRODUCTION & DEVELOPMENT, Issue 9 2008
Yuko Sato
Abstract Forkhead transcription factors are characterized by a winged helix DNA binding domain, and the members of this family are classified into 20 subclasses by phylogenetic analyses. Fkhl18 is structurally unique, and is classified into FoxS subfamily. We found Fkhl18 expression in periendothelial cells of the developing mouse fetal testis. In an attempt to clarify its function, we generated mice with Fkhl18 gene disruption. Although KO mice developed normally and were fertile in both sexes, we frequently noticed unusual blood accumulation in the fetal testis. Electron microscopic analysis demonstrated frequent gaps, measuring 100,400 nm, in endothelial cells of blood vessels. These gaps probably represented ectopic apoptosis of testicular periendothelial cells, identified by caspase-3 expression, in KO fetuses. No apoptosis of endothelial cells was noted. Fkhl18 suppressed the transcriptional activity of FoxO3a and FoxO4. Considering that Fas ligand gene expression is activated by Foxs, the elevated activity of Foxs in the absence of Fkhl18 probably explains the marked apoptosis of periendothelial cells in Fkhl18 KO mice. Mol. Reprod. Dev. 75: 1361,1371, 2008. © 2008 Wiley-Liss, Inc. [source]

Identification, molecular cloning, and cellular distribution of the rat homolog of minichromosome maintenance protein 7 (MCM7) in the rat testis,

MOLECULAR REPRODUCTION & DEVELOPMENT, Issue 7 2006
Emmanuelle Com
Abstract As part of a program to decipher the rat testicular proteome, we studied spermatogonia and identified numerous proteins including the human homolog of the Minichromosome Maintenance Protein 7 (MCM7). MCM7 has been implicated in DNA replication in various species, but had not been detected in the testis. Here we describe the cellular distribution of MCM7 transcripts and protein, and their testicular ontogenetic expression. The full-length coding region of the rat MCM7 was also characterized. Northern blot analyses showed that MCM7 transcripts are more abundant in the testis than other organs and confirmed the presence of the 2.4 kb MCM7 transcript at all ages studied. Interestingly, two additional transcripts of 3.2 and 1.6 kb were found from 26 days post partum onwards, when spermatocytes and spermatids accumulate within the tubules. This was confirmed in isolated cell types: the three MCM7 transcripts were observed in meiotic and post-meiotic germ cells. The 3.2 kb isoform has an extended 5, untranslated region (UTR) and the 1.6 kb transcript is the result of alternative splicing of five exons. Western blot and immunohistochemistry experiments evidenced abundant MCM7 in proliferating gonocytes and Sertoli cells in the fetal testis. In the adult testis, an intense signal was observed in spermatogonia and primary spermatocytes. We conclude that the Mcm7 is one example of genes that are differently transcribed and translated in somatic and spermatogenetic cells in mammals. Further work is required to determine the roles of MCM7 in spermatogonia and germ lineage. Mol. Reprod. Dev. © 2006 Wiley-Liss, Inc. [source]