Submitted October 2, 2006
Returned for revision October 27, 2006
Accepted January 15, 2007
Testis
The Cathepsin L First Intron Stimulates Gene Expression in
Sertoli Cells
Martin Charron *,
Jing-Yi Chern ,
and
William W. Wright
* To whom correspondence should be addressed. E-mail: mcharron{at}jhmi.edu.
Abstract
Large amounts of cathepsin L (CTSL), a cysteine protease
required for quantitatively normal spermatogenesis, are
synthesized by mouse and rat Sertoli cells during stages
VI to VII of the cycle of the seminiferous epithelium. We
previously demonstrated that all of the regulatory
elements required in vivo for both Sertoli cell- and
stage-specific expression of the Ctsl gene are
present within a ~3 kb genomic fragment that contains 2065
nucleotides upstream of the transcription start site and
977 nucleotides of downstream sequence. Most of the
downstream region encodes the first intron. In this study,
transient transfection assays using primary Sertoli cell
cultures and the TM4 Sertoli cell line established that
the Ctsl first intron increased reporter gene
activity by ~5-fold. While the intron-mediated enhancement
in reporter gene activity was not restricted to the
Ctsl promoter, positioning the first intron
upstream of the Ctsl promoter in either orientation
abolished its stimulatory activity, suggesting that it
does not contain a typical enhancer. Mutating the
5'-splice site of the Ctsl first intron or
replacing the first intron by the Ctsl fourth
intron abolished the stimulatory effect. Finally, The
introndependent increase in reporter gene activity could
be explained, in part, by increasing the amounts of total
RNA and transcript polyadenylation. Results from this
study suggest that the stimulatory effect mediated by the
Ctsl first intron may explain, in part, why Sertoli
cells in seminiferous tubules at stages VI to VII produce
high levels of CTSL.
Key words:
Testis •
Gene regulation •
Sertoli cells
