Randy R. Barbee scite author profile

To assess the structural stability of mammalian sperm nuclei and make interspecies comparisons, we microinjected sperm nuclei from six different species into hamster oocytes and monitored the occurrence of sperm nuclear decondensation and male pronucleus formation. The time course of sperm decondensation varied considerably by species: human and mouse sperm nuclei decondensed within 15 to 30 min of injection, and chinchilla and hamster sperm nuclei did so within 45 to 60 min, but bull and rat sperm nuclei remained intact over this same period of time. Male pronuclei formed in oocytes injected with human, mouse, chinchilla, and hamster sperm nuclei, but rarely in oocytes injected with bull or rat sperm nuclei. However, when bull sperm nuclei were pretreated with dithiothreitol (DTT) in vitro to reduce protamine disulfide bonds prior to microinjection, they subsequently decondensed and formed pronuclei in the hamster ooplasm. Condensed rat spermatid nuclei, which lack disulfide bonds, behaved similarly. The same six species of sperm nuclei were induced to undergo decondensation in vitro by treatment with DTT and detergent, and the resulting changes in nuclear size were monitored by phase-contrast microscopy and flow cytometry. As occurred in the oocyte, human sperm nuclei decondensed the fastest in vitro, followed shortly by chinchilla, mouse, and hamster and, after a lag, by rat and bull sperm nuclei. Thus species differences in sperm nuclear stability exist and appear to be related to the extent and/or efficiency of disulfide bonding in the sperm nuclei, a feature that may, in turn, be determined by the type(s) of sperm nuclear protamine(s) present.

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Expression of the spermatogenic cell‐specific glyceraldehyde 3‐phosphate dehydrogenase (GAPDS) in rat testis

Welch

Barbee

Magyar

et al. 2006

Molecular Reproduction Devel

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The spermatogenic cell-specific variant of glyceraldehyde 3-phosphate dehydrogenase (GAPDS) has been cloned from a rat testis cDNA library and its pattern of expression determined. A 1,417 nucleotide cDNA has been found to encode an enzyme with substantial homology to mouse GAPDS (94% identity) and human GAPD2 (83% identity) isozymes. Northern blotting of rat tissue RNAs detected the 1.5 kb Gapds transcript in the testis and not in RNA from liver, spleen, epididymis, heart, skeletal muscle, brain, seminal vesicle, and kidney. The rat Gapds mRNA was first detected at day 29 of postnatal testis development, an age which coincides with the initial post-meiotic differentiation of round spermatids. When isolated rat spermatogenic cell RNA was probed for Gapds expression, transcripts were detected only in round spermatids and condensing spermatids, but not in pachytene spermatocytes, demonstrating haploid expression of the Gapds gene. However, immunohistochemical staining of rat testis sections with anti-GAPDS antisera did not detect GAPDS in round spermatids, but localized the protein only to stage XIII and later condensing spermatids as well as testicular spermatozoa, indicating that Gapds expression is translationally regulated. The current results are similar to those previously obtained for mouse GAPDS and human GAPD2, suggesting that reliable comparisons can be made between these species in toxicant screening and contraceptive development.

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Acute exposure of female hamsters to carbendazim (MBC) during meiosis results in aneuploid oocytes with subsequent arrest of embryonic cleavage and implantation

Jeffay

Libbus²,

Barbee

et al. 1996

Reproductive Toxicology

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Reproductive Toxicity of a Single Dose of 1,3-Dinitrobenzene in Two Ages of Young Adult Male Rats¹²

et al. 1990

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Acute Effects and Long‐Term Sequelae of 1,3‐Dinitrobenzene on Male Reproduction in the Rat I. Sperm Quality, Quantity, and Fertilizing Ability

Linder

Hess²,

Perreault

et al. 1988

Journal of Andrology

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Groups of eight adult male rats were given a single oral dose of 0 or 48 mg/kg of 1,3-dinitrobenzene and sacrificed at 1, 2, 4, 8, 16, 24, 32, 72, and 175 days posttreatment. The groups killed at 175 days were bred to untreated females during weeks 3, 4, 6, 9, 13, and 24. Decreased testis weight and testicular sperm numbers were observed by day 4; decreased cauda sperm reserves and epididymis weight occurred by day 8 and day 16, respectively. Reduced numbers of motile spermatozoa and abnormal sperm morphology were seen in spermatozoa from the cauda epididymidis by day 16. Fertilizing ability, as indicated by the presence of two pronuclei and a sperm tail in eggs flushed from the oviducts of inseminated females, was slightly reduced by week 4 and declined to zero by week 6. Group means for reproductive organ weights, sperm production, and sperm reserves failed to return to control levels although some individual animals approached full recovery. Normal fertilizing ability was restored in most animals by week 13, but two of seven remained infertile. Occlusion of some efferent ductules was observed in three of seven animals at 175 days. This study indicates that 1,3-dinitrobenzene is a potent testicular toxicant in the rat, capable of producing marked testicular damage, infertility, and possibly sterility from a single exposure.

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Reproductive toxicity of a single dose of 1,3-dinitrobenzene in two ages of young adult male rats1, 2

Linder

Strader

Barbee

et al. 1990

Fundamental and Applied Toxicology

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Randy R. Barbee

Importance of glutathione in the acquisition and maintenance of sperm nuclear decondensing activity in maturing hamster oocytes

Interspecies Differences in the Stability of Mammalian Sperm Nuclei Assessed in Vivo by Sperm Microinjection and in Vitro by Flow Cytometry1

Expression of the spermatogenic cell‐specific glyceraldehyde 3‐phosphate dehydrogenase (GAPDS) in rat testis

Acute exposure of female hamsters to carbendazim (MBC) during meiosis results in aneuploid oocytes with subsequent arrest of embryonic cleavage and implantation

Reproductive Toxicity of a Single Dose of 1,3-Dinitrobenzene in Two Ages of Young Adult Male Rats¹²

Acute Effects and Long‐Term Sequelae of 1,3‐Dinitrobenzene on Male Reproduction in the Rat I. Sperm Quality, Quantity, and Fertilizing Ability

Reproductive toxicity of a single dose of 1,3-dinitrobenzene in two ages of young adult male rats1, 2

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Randy R. Barbee

Importance of glutathione in the acquisition and maintenance of sperm nuclear decondensing activity in maturing hamster oocytes

Interspecies Differences in the Stability of Mammalian Sperm Nuclei Assessed in Vivo by Sperm Microinjection and in Vitro by Flow Cytometry1

Expression of the spermatogenic cell‐specific glyceraldehyde 3‐phosphate dehydrogenase (GAPDS) in rat testis

Acute exposure of female hamsters to carbendazim (MBC) during meiosis results in aneuploid oocytes with subsequent arrest of embryonic cleavage and implantation

Reproductive Toxicity of a Single Dose of 1,3-Dinitrobenzene in Two Ages of Young Adult Male Rats12

Acute Effects and Long‐Term Sequelae of 1,3‐Dinitrobenzene on Male Reproduction in the Rat I. Sperm Quality, Quantity, and Fertilizing Ability

Reproductive toxicity of a single dose of 1,3-dinitrobenzene in two ages of young adult male rats*1, *2

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Reproductive Toxicity of a Single Dose of 1,3-Dinitrobenzene in Two Ages of Young Adult Male Rats¹²

Reproductive toxicity of a single dose of 1,3-dinitrobenzene in two ages of young adult male rats1, 2