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Testes to incubate stem cells
April 25, 2006Men may cringe at the idea, but sperm-producing stem cells found in testicles could be extracted, grown in the lab, and frozen for future use. A team in the Netherlands has successfully harvested spermatogonial stem cells from cows and cultured them inside mouse testes. The hope is that the same thing could be done for men. "This is a very promising route to help young cancer patients undergoing chemotherapy," Dirk de Rooij of Utrecht University, Netherlands, told participants gathered at the first EuroSTELLS conference in Venice last month.
The research team were delighted to find abundant bovine spermatogonial stem cells thriving in the mouse testes, since they are hard to spot in tissue sections. Once the researchers learned to isolate these elusive sperm-producing cells from bull calfs, they transplanted them into mouse testes. Despite the foreign surroundings, the bovine cells survived for long periods, up to three months, although they failed to fully develop into sperm, said de Rooij.
"Our plan is to develop a culture system for spermatogonial stem cells" de Rooij told conference attendees. Although admitting the leap to humans is considerable, the colonised mouse testes are already providing useful insights.
"We'd like to know how to culture human spermatogenic stem cells to restore male fertility after cancer therapy," says Hannu Sariola, from the University of Helsinki in Finland who is also working towards a similar goal.
Bizarrely, a brain cell growth factor also has a powerful influence on spermatogonial stem cells. Glial cell derived neurotrophic factor (GDNF) is also involved in spermatogenesis: levels are high during the neonatal period and drop in adulthood. Indeed, mice that have been genetically manipulated to express high levels of GDNF in the testes produce huge clusters of spermatogonial stem cells. But the risk of cancer is boosted too, so it is not just about turning on the GDNF tap indiscriminately. It must be tightly regulated, Sariola pointed out.
The Dutch researchers are also hunting for the ideal conditions and nutrients that will coax spermatogonial stem cells into becoming sperm. So far, they have found that growth factors GDNF and fibroblast growth factor (FGF) seem to be necessary to enhance cell growth. The team's next move is to transplant monkey and human cells into the mouse testes system.
"It is truly remarkable that mouse testes can sustain these bovine cells in culture," says Elaine Dzierzak, who coordinates a EuroSTELLS project at Erasmus University Medical Centre in Rotterdam. Testicular cultures could also prove an ideal system to test compounds that might affect sperm-production such as endocrine disruptors or therapeutic drugs.
European Science Foundation
"We'd like to know how to culture human spermatogenic stem cells to restore male fertility after cancer therapy," says Hannu Sariola, from the University of Helsinki in Finland who is also working towards a similar goal.
Bizarrely, a brain cell growth factor also has a powerful influence on spermatogonial stem cells. Glial cell derived neurotrophic factor (GDNF) is also involved in spermatogenesis: levels are high during the neonatal period and drop in adulthood. Indeed, mice that have been genetically manipulated to express high levels of GDNF in the testes produce huge clusters of spermatogonial stem cells. But the risk of cancer is boosted too, so it is not just about turning on the GDNF tap indiscriminately. It must be tightly regulated, Sariola pointed out.
The Dutch researchers are also hunting for the ideal conditions and nutrients that will coax spermatogonial stem cells into becoming sperm. So far, they have found that growth factors GDNF and fibroblast growth factor (FGF) seem to be necessary to enhance cell growth. The team's next move is to transplant monkey and human cells into the mouse testes system.
"It is truly remarkable that mouse testes can sustain these bovine cells in culture," says Elaine Dzierzak, who coordinates a EuroSTELLS project at Erasmus University Medical Centre in Rotterdam. Testicular cultures could also prove an ideal system to test compounds that might affect sperm-production such as endocrine disruptors or therapeutic drugs.
European Science Foundation
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Regulation of Sertoli Cell and Germ Cell Differentiation (Advances in Anatomy, Embryology and Cell Biology) by R. Brehm (Author), K. Steger (Author) Unwanted childlessness affects approximately one in six couples worldwide. Although the exact proportion of the predominant cause of the problem remains controversial, according to the World Health Organization, in nearly 40 % of cases the cause can be attributed to the female, in 20 % to the male, in 25 % to both, and in 15 % the cause remains unknown. Based on these figures, the incidence of male factor infertility in the general population is approximately 7 %. The majority of these men, approximately 30 %, experience irreversible idiopathic infertility and cannot father children without some form of medical intervention. Male factor infertility, in addition, may be caused by testicular germ cell cancer which is known to represent the most common cancer among young men, aged... |
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Testicular Tangrams: 12th European Workshop on Molecular and Cellular Endocrinology of the Testis (Ernst Schering Foundation Symposium Proceedings / Schering ... Symposium Proceedings Supplements) by F.F.G. Rommerts (Editor), K.J. Teerds (Editor) The book contains the proceedings of the 12th European Testis Workshop and gives an excellent overview of the state of the art in testicular research. The chapters are written by leading scientists in the field of male reproduction, who were selceted on the basis of their specific area of research. The book covers all important aspects of testicular functioning, for example, Sertoli and Leydig cell functioning, spermatogonial development and transplantation, meiosis and spermiogenesis. Even for those investigators who were not present at the workshop, this volume provides a clear impression of the topics discussed during that meeting. |
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