The histone-to-protamine transition is important in the formation of spermatozoa. In mammals this involves two steps: replacement of histones by transition nuclear proteins (TPs) and replacement of TPs by protamines. To determine the functions of the TPs and their importance for sperm development, we generated mice lacking both TPs, since mice lacking only TP1 or TP2 were fertile. Our results indicated that TP1 and TP2 had partially complemented each other. In mice lacking both TPs, nuclear shaping, transcriptional repression, histone displacement, and protamine deposition proceeded relatively normally, but chromatin condensation was irregular in all spermatids, many late spermatids showed DNA breaks, and protamine 2 was not posttranslationally processed. Nevertheless, genomic integrity was maintained in mature spermatids, since efficient fertilization and production of offspring were achieved by intracytoplasmic sperm injection. However, many mature spermatids were retained in the testis, epididymal spermatozoa were drastically reduced in number and were highly abnormal, and the mice were sterile. Most epididymal spermatozoa were incapable of fertilization even using intracytoplasmic sperm injection. Thus, in mammals TPs are required for normal chromatin condensation, for reducing the number of DNA breaks, and for preventing the formation of secondary defects in spermatozoa, eventual loss of genomic integrity, and sterility.
These results demonstrate that in mice with sperm chromatin abnormalities, the decline in fertility of sperm with ICSI occurs after the caput epididymis. The advantage of using caput epididymal sperm for ICSI in certain situations may be considered as an approach to be tested in human assisted reproduction.
Reversible infertility can be induced in male mice by oral administration of the alkylated imino sugars N-butyldeoxynojirimycin (NB-DNJ) and N-butyldeoxygalactonojirimycin (NB-DGJ). Spermatozoa of these mice have grossly misshapen heads and reduced motility. Because NB-DNJ and related compounds may hold promise as nonhormonal male contraceptives, a comprehensive examination of their effects on male reproduction is necessary. To this end, we further examined reproductive properties of the dysmorphic spermatozoa that are produced after short-term imino sugar administration at the minimal dose that completely abolishes the ability of male C57BL/6 mice to produce offspring by natural mating. Here, we report that, in vitro, the abnormal spermatozoa from the NB-DNJ- and NB-DGJ-treated mice were unable to fertilize oocytes. In addition, we investigated whether the imino sugars damage the genetic integrity of spermatozoa. To test this, we microsurgically injected deformed spermatozoa from imino sugar-treated males into oocytes. The deformed spermatozoa from the testis were able to activate oocytes very efficiently, but those from the cauda epididymis often failed to do so. This problem was overcome when the sperm-injected oocytes were treated with a parthenogenetic agent, Sr(2+). Oocytes injected with the misshapen spermatozoa from NB-DNJ- and NB-DGJ-treated mice developed (with or without Sr(2+) treatment) into live offspring that grew normally and were normally fertile. This indicates that during short-term administration, alkylated imino sugars alter sperm morphology and physiology but do not diminish the genetic potential of spermatozoa.
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