Browsing by Subject "Spermatogenesis"
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Item Open Access An approach to the development of quantitative models to assess the effects of exposure to environmentally relevant levels of endocrine disruptors on homeostasis in adults.(Environmental health perspectives, 1999-08) Ben-Jonathan, N; Cooper, RL; Foster, P; Hughes, CL; Hoyer, PB; Klotz, D; Kohn, M; Lamb, DJ; Stancel, GMThe workshop "Characterizing the Effects of Endocrine Disruptors on Human Health at Environmental Exposure Levels" was held to provide a forum for discussions and recommendations of methods and data needed to improve risk assessments of endocrine disruptors. This article was produced by a working group charged with determining the basic mechanistic information that should be considered when designing models to quantitatively assess potential risks of environmental endocrine disruptors in adults. To reach this goal, we initially identified a set of potential organ system toxicities in males and females on the basis of known and/or suspected effects of endocrine disruptors on estrogen, androgen, and thyroid hormone systems. We used this integrated, systems-level approach because endocrine disruptors have the potential to exert toxicities at many levels and by many molecular mechanisms. Because a detailed analysis of all these untoward effects was beyond the scope of this workshop, we selected the specific end point of testicular function for a more detailed analysis. The goal was to identify the information required to develop a quantitative model(s) of the effects of endocrine disruptors on this system while focusing on spermatogenesis, sperm characteristics, and testicular steroidogenesis as specific markers. Testicular function was selected because it is a prototypical integrated end point that can be affected adversely by individual endocrine disruptors or chemical mixtures acting at one specific site or at multiple sites. Our specific objective was to gather the information needed to develop models in the adult organism containing functional homeostatic mechanisms, and for this reason we did not consider possible developmental toxicities. Homeostatic mechanisms have the potential to ameliorate or lessen the effects of endocrine disruptors, but these pathways are also potential target sites for the actions of these chemicals.Item Open Access Critical windows of exposure for children's health: the reproductive system in animals and humans.(Environmental health perspectives, 2000-06) Pryor, JL; Hughes, C; Foster, W; Hales, BF; Robaire, BDrugs and environmental chemicals can adversely affect the reproductive system. Currently, available data indicate that the consequences of exposure depend on the nature of the chemical, its target, and the timing of exposure relative to critical windows in development of the reproductive system. The reproductive system is designed to produce gametes in far greater excess than would seem to be necessary for the survival of species. Ten to hundreds of millions of spermatozoa are generated daily by most adult male mammals, yet very few of these germ cells succeed in transmitting their genetic material to the next generation. Although the number of oocytes produced in mammalian females is more limited, and their production occurs only during fetal life, most ovaries contain several orders of magnitude more oocytes than ever will be fertilized. Toxicant exposures may affect critical events in the development of the reproductive system, ranging from early primordial germ cell determination to gonadal differentiation, gametogenesis, external genitalia, or signaling events regulating sexual behavior. Although there are differences between the human reproductive system and that of the usual animal models, such models have been extremely useful in assessing risks for key human reproductive and developmental processes. The objectives for future studies should include the elucidation of the specific cellular and molecular targets of known toxicants; the design of a systematic approach to the identification of reproductive toxicants; and the development of sensitive, specific, and predictive animal models, minimally invasive surrogate markers, or in vitro tests to assess reproductive system function during embryonic, postnatal, and adult life.Item Open Access Function of the Mouse PIWI Proteins and Biogenesis of Their piRNAs in the Male Germline(2009) Beyret, ErginPIWI proteins belong to an evolutionary conserved protein family as the sister sub-family of ARGONAUTE (AGO) proteins. While AGO proteins are functionally well-characterized and shown to mediate small-RNA guided gene regulation, the function of PIWI proteins remain elusive. Here we pursued functional characterization of PIWI proteins by studying MILI and MIWI, two PIWI proteins in the mouse.
We first show that both MIWI and MILI co-immunoprecipitate with a novel class of non-coding small RNAs from the post-natal mouse testis extract, which are named Piwi-interacting RNAs (piRNAs). Our cloning efforts identified thousands of different piRNA sequences, mostly derived from intergenic regions. Interestingly, both MILI and MIWI piRNAs correspond to the same regions on the genome and differ primarily in length. We propose piRNAs in the adult testis are produced by the processing of long, single stranded RNA precursors, based on the observation that piRNAs originate in clusters from a number of sites on the genome in a head-to-tail homology. In support, we bioinformatically predicted putative promoters, and yeast one hybrid analysis on two such regions found out that they interact with Krueppel C2H2 type zinc finger transcription factors. We did not observe the features of the "ping-pong" mechanism in their biogenesis: Both MILI and MIWI piRNAs are biased for 5` Uracil without an Adenine bias on the 10th nucleotide position, and do not significantly consist of sequences complementary to each other along their first 10nt. Moreover, MILI piRNAs are not down-regulated in Miwi-/- testis. These results indicate that the post-natal testicular piRNAs are produced independent of the ping-pong mechanism.
Although piRNAs are highly complex, PAGE and in situ analyses showed that piRNAs are germ cell-specific with predominant expression in spermatocytes and round spermatids, suggestive of a meiotic function. Correspondingly, we found that Miwi-/-; Mili-/- mice undergo only male infertility with terminal spermatogenic arrest during meiosis. piRNAs show a nucleo-cytoplasmic distribution, with enrichment in the chromatoid and dense bodies, two male germ cell-specific structures. The dense body has been implicated in synapsis and in the heterochromatinization of the sex chromosomes during male meiosis, a process known as meiotic sex chromosome inactivation (MSCI). Our histological analysis on Miwi-/-; Mili-/- testes showed that, while the overall synapsis is not affected, the sex chromosomes retain the euchromatin marker acetyl-H4K16 and lacks the heterochromatin marker H3K9-dimethyl. These observations indicate that murine PIWI proteins are necessary for MSCI. Moreover, we identified piRNA production from the X chromosome before MSCI, and propose PIWI proteins utilize piRNAs to target and silence unpaired chromosomal regions during meiosis.
Item Open Access Gene expression disruptions of organism versus organ in Drosophila species hybrids.(PLoS One, 2008-08-20) Catron, Daniel J; Noor, Mohamed AFHybrid dysfunctions, such as sterility, may result in part from disruptions in the regulation of gene expression. Studies of hybrids within the Drosophila simulans clade have reported genes expressed above or below the expression observed in their parent species, and such misexpression is associated with male sterility in multigenerational backcross hybrids. However, these studies often examined whole bodies rather than testes or had limited replication using less-sensitive but global techniques. Here, we use a new RNA isolation technique to re-examine hybrid gene expression disruptions in both testes and whole bodies from single Drosophila males by real-time quantitative RT-PCR. We find two early-spermatogenesis transcripts are underexpressed in hybrid whole-bodies but not in assays of testes alone, while two late-spermatogenesis transcripts seem to be underexpressed in both whole-bodies and testes alone. Although the number of transcripts surveyed is limited, these results provide some support for a previous hypothesis that the spermatogenesis pathway in these sterile hybrids may be disrupted sometime after the expression of the early meiotic arrest genes.Item Open Access Paternal cannabis extract exposure in rats: Preconception timing effects on neurodevelopmental behavior in offspring.(Neurotoxicology, 2020-12) Holloway, Zade R; Hawkey, Andrew B; Torres, Alexandra K; Evans, Janequia; Pippen, Erica; White, Hannah; Katragadda, Vaishnavi; Kenou, Bruny; Wells, Corinne; Murphy, Susan K; Rezvani, Amir H; Levin, Edward DMaternal toxicant exposure during gestation can have deleterious effects on neurobehavioral development of the offspring. The potential risks engendered by paternal toxicant exposure prior to conception have been largely understudied. Recently, we found that chronic THC exposure prior to conception in male rats causes long-lasting behavioral impairment in their offspring. The current study examined the effects of chronic preconception exposure to cannabis smoke extract in Sprague-Dawley rats at two different phases in sperm development. One group received daily subcutaneous (sc) injections of THC in cannabis extract at 4 mg/kg/day for 28 days until three days prior to mating with untreated females (late exposure group). Another group received the same regimen except they underwent 56 days of drug abstinence prior to mating (early exposure group). These were compared with a control group treated with vehicle. The offspring underwent a battery of tests for behavioral function to assess motor, emotional and cognitive function. On the elevated plus maze test, the offspring of both paternal cannabis smoke extract (CSE) exposure groups had significantly more time on the open arms than control offspring, indicative of greater risk-taking behavior. No significant main effects of CSE exposure were seen on adolescent or adult locomotor activity in the figure-8 apparatus. In the novel object recognition test, there was a significantly greater drop-off in novel object preference across the session in the male, but not female offspring of the late exposure group. There was also a sex-selective effect of paternal CSE treatment in the 16-arm radial maze test of memory function. Female offspring of the late exposure group had significantly more working memory errors than control females in the first half of the 12-session training sequence. No significant effects were seen in the operant visual signal sustained detection test of attention. This study shows that there are long-lasting behavioral consequences of preconception CSE exposure through the paternal lineage in rats.