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Journal of Andrology, Vol 22, Issue 4 665-671, Copyright © 2001 by The American Society of Andrology
JOURNAL ARTICLE |
A. Salva, G. R. Klinefelter and M. P. Hardy
Population Council, New York, New York 10021, USA. antonio@popcbr.rockefeller.edu
Procedures for purification of Leydig cells have facilitated studies of their regulatory biology. A multistep procedure that includes a filtration with nylon mesh (100-micron pore size) to separate interstitial cells from the seminiferous tubules, combining centrifugal elutriation and Percoll density gradient sedimentation, has been used to obtain a 95% enrichment of rat Leydig cells. However, the number of recovered Leydig cells by this procedure represents only a small fraction of the 25 million, on average, that exist in the adult rat testis. The objective of this study was to test whether the yield of purified Leydig cells might be enhanced by substitution of unit-gravity sedimentation (S method) for the filter step (F method). We also asked whether a greater number of Leydig cell clusters, macrophages, or both would be recovered by this new method, and if the presence of Leydig cell clusters is associated with increased capacity for testosterone production in vitro. The number of purified Leydig cells was 1.9-fold higher for the S method than for the F method, with no differences in purity assessed by 3beta-hydroxysteroid dehydrogenase histochemical staining. Leydig cell clusters were also found in greater numbers with the S method both after collagenase dispersion and at the end of the purification. No differences were seen in testosterone production or in the number of macrophages present in the Leydig cells that were prepared by the 2 methods. These results indicate that the new method recovers greater numbers of Leydig cells by collecting clustered Leydig cells that are systematically eliminated when a filtration step is used.
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