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Reproductive Toxicology (Elmsford, N.Y.) Dec 2020Phthalates are known endocrine-disrupting chemicals that are found in many consumer products. Our laboratory previously developed a relevant phthalate mixture consisting...
Phthalates are known endocrine-disrupting chemicals that are found in many consumer products. Our laboratory previously developed a relevant phthalate mixture consisting of six phthalates and found that it disrupted female fertility in mice. However, it is unknown if prenatal exposure to phthalate mixtures can accelerate reproductive aging and if this occurs in multiple generations. Thus, we tested the hypothesis that prenatal exposure to a mixture of phthalates accelerates biomarkers of reproductive aging in multiple generations of female mice. Pregnant CD-1 mice were orally dosed with vehicle control or a phthalate mixture (20 μg/kg/day-500 mg/kg/day) daily from gestational day 10 to birth. Adult F1 females born to these dams were used to create the F2 and F3 generations by mating them with unexposed males. At 13 months, estrous cyclicity was monitored and ovaries and sera were collected for analysis. In the F1 generation, the mixture decreased testosterone and inhibin B levels, but increased follicle-stimulating hormone and luteinizing hormone levels compared to control. In the F2 generation, the phthalate mixture decreased the percent of antral follicles and testosterone hormone levels compared to control. In the F3 generation, prenatal exposure to the phthalate mixture increased ovarian weight, increased the time in metestrus/diestrus, altered follicle numbers, and decreased the levels of luteinizing hormone compared to control. Collectively, these data suggest that prenatal exposure to a phthalate mixture may accelerate several biomarkers of reproductive aging in a multi- and transgenerational manner in female mice.
Topics: Aging; Animals; Biomarkers; Endocrine Disruptors; Environmental Pollutants; Estrous Cycle; Female; Gonadal Steroid Hormones; Male; Mice; Ovary; Peptide Hormones; Phthalic Acids; Pregnancy; Prenatal Exposure Delayed Effects; Reproduction
PubMed: 33129917
DOI: 10.1016/j.reprotox.2020.10.009 -
Hormones and Behavior Nov 2020N-glycosylation is a posttranslational modification that plays significant roles in regulating protein function. One form of N-glycosylation, polysialylation, has been...
N-glycosylation is a posttranslational modification that plays significant roles in regulating protein function. One form of N-glycosylation, polysialylation, has been implicated in many processes including learning and memory, addiction, and neurodegenerative disease. Polysialylation appears to be modulated by the estrous cycle in the hypothalamus in rat, but this has not been assessed in other brain regions. To determine if polysialylation was similarly estrous phase-dependent in other neuroanatomical structures, the percent area of polysialic acid (PSA) immunoreactivity in subregions of the medial prefrontal cortex, hippocampus, and nucleus accumbens was assessed in each of the four phases in adult female mice. In this study, we found that PSA immunoreactivity fluctuated across the estrous cycle in a subregion-specific manner. In the prefrontal cortex, PSA immunoreactivity was significantly lower in proestrus phase compared to estrus in the prelimbic cortex, but did not differ across the estrous cycle in the infralimbic cortex. In the hippocampus, PSA immunoreactivity was significantly increased in proestrus compared to metestrus in the CA1 and CA2 and compared to diestrus in CA3, but remain unchanged in the dentate gyrus. PSA immunoreactivity did not vary across the estrous cycle in the nucleus accumbens core or shell. These findings may have implications for estrous cycle-dependent alterations in behavior.
Topics: Animals; Brain; Estrous Cycle; Female; Glycosylation; Hippocampus; Immunohistochemistry; Mice; Mice, Inbred C57BL; Nucleus Accumbens; Organ Specificity; Prefrontal Cortex; Protein Processing, Post-Translational; Sialic Acids
PubMed: 32941849
DOI: 10.1016/j.yhbeh.2020.104851 -
Frontiers in Behavioral Neuroscience 2020Female animals in biomedical research have traditionally been excluded from research studies due to the perceived added complexity caused by the estrus cycle. However,...
Female animals in biomedical research have traditionally been excluded from research studies due to the perceived added complexity caused by the estrus cycle. However, given the importance of sex differences in a variety of neurological disorders, testing female mice is critical to identifying sex-linked effects in diseases. To determine the susceptibility of simple behaviors to hormonal fluctuations in the estrus cycle, we studied the effects of sex and the estrus cycle on a variety of behavioral tasks commonly used in mouse phenotyping laboratories. Male and female C57BL/6J mice were tested in a small battery of short duration tests and, immediately on completion of each test, females were classified using cytology of vaginal lavages as sexually-receptive (proestrus and estrus) or non-receptive (NR; metestrus and diestrus). We showed that there was a significant difference in 3-chamber social interaction (SI) between female mice at different stages of their estrus cycle, with sexually-receptive mice showing no preferential interest in a novel female mouse compared with an empty chamber. NR female mice showed the same level of preference for a novel female mouse as male mice did for a novel male mouse. No differences between or within sexes were found for tests of anxiety elevated plus maze (EPM; Hole board), working memory [Novel object recognition (NOR)], and motor learning (repeated tests on rotarod). We conclude that the stage of the estrus cycle may impact SI between same-sex conspecifics, and does not impact performance in the elevated plus-maze, hole board, NOR, and rotarod.
PubMed: 32714163
DOI: 10.3389/fnbeh.2020.00113 -
Molecular and Cellular Endocrinology Apr 202017β-Estradiol (E2) action can be mediated by the full-length estrogen receptor alpha (ERα66), and also by the AF1 domain-deficient ERα (ERα46) isoform, but their...
17β-Estradiol (E2) action can be mediated by the full-length estrogen receptor alpha (ERα66), and also by the AF1 domain-deficient ERα (ERα46) isoform, but their respective sensitivity to E2 is essentially unknown. We first performed a dose response study using subcutaneous home-made pellets mimicking either metestrus, proestrus or a pharmacological doses of E2, which resulted in plasma concentrations around 3, 30 and 600 pM, respectively. Analysis of the uterus, vagina and bone after chronic exposure to E2 demonstrated dose-dependent effects, with a maximal response reached at the proestrus-dose in wild type mice expressing mainly ERα66. In contrast, in transgenic mice harbouring only an ERα deleted in AF1, these effects of E2 were either strongly shifted rightward (10-100-fold) and/or attenuated, depending on the tissue studied. Finally, experiments in different cell lines transfected with ERα66 or ERα46 also delineated varying profiles of ERα AF1 sensitivity to E2. Altogether, this work emphasizes the importance of dose in the tissue-specific actions of E2 and demonstrates the key sensitizing role of AF1 in ERα activity.
Topics: Animals; Bone and Bones; Cell Line, Tumor; Cholesterol; Estradiol; Estrogen Receptor alpha; Female; Mice, Inbred C57BL; Organ Specificity; Protein Domains; Structure-Activity Relationship; Uterus; Vagina
PubMed: 32004676
DOI: 10.1016/j.mce.2020.110741 -
Nutrients Dec 2019High amylose wheat (HAW) has a higher resistant starch content and lower glycaemic index than standard amylose wheat (SAW), which may be associated with health benefits....
High amylose wheat (HAW) has a higher resistant starch content and lower glycaemic index than standard amylose wheat (SAW), which may be associated with health benefits. This study aimed to determine the effects of replacing SAW with HAW on metabolic and reproductive parameters in male and female mice. Male and female C57BL/6 mice were randomly divided into groups ( = 8/group/sex) and fed either a SAW65 (65% SAW w/w; control), HAW35 (35% HAW w/w), HAW50 (50% HAW w/w) or HAW65 (65% HAW w/w) diet for eight weeks. In male but not female, the HAW65 group had a lower abdominal circumference, relative total fat mass, relative gonadal fat mass and plasma leptin concentration compared to the HAW35 group. There were no differences in fasting blood glucose concentrations or plasma concentrations of cholesterol, triglycerides or non-esterified fatty acids between groups in either males or females. The HAW-fed males had a higher testicular weight and HAW-fed females spent less time in diestrus and a longer time in metestrus compared to the SAW-fed mice. Higher dietary intake of HAW appears to reduce abdominal fat deposition compared to the lower level of HAW in a sexually dimorphic manner. The impacts on reproductive parameters in the HAW-fed mice require further investigation.
Topics: Amylose; Animals; Blood Glucose; Body Size; Diet; Eating; Energy Metabolism; Female; Glycemic Index; Male; Mice; Mice, Inbred C57BL; Reproduction; Sex Characteristics; Triticum
PubMed: 31881677
DOI: 10.3390/nu12010061 -
Behavioural Brain Research Jan 2020Women are at greater risk than men for developing posttraumatic stress disorder (PTSD) after trauma exposure. Sleep, especially rapid-eye-movement sleep (REMS), has been...
Women are at greater risk than men for developing posttraumatic stress disorder (PTSD) after trauma exposure. Sleep, especially rapid-eye-movement sleep (REMS), has been considered a contributing factor to the development of PTSD symptoms through its effects on the processing of emotional memories. However, it remains unknown if sex and sex hormones play a role in the hypothesized impact of sleep on the development of PTSD. Animal models have methodological advantages over human studies in investigating this research question; however, animal models of sleep in PTSD have been tested only with males. C57BL/6 mice (7 males and 15 females) were exposed to 15 footshocks in a footshock chamber, and 5 min after the last footshock, were returned to their home cages for telemetric electroencephalographic sleep recording. Nine to thirteen days later, mice were returned to the footshock chamber for 10 min without footshocks. Fear recall rates were computed by comparing freezing behaviors in the footshock chamber immediately after the footshocks to those during fear context reexposure. Males had significantly lower recall rates compared to metestrous females (that received footshocks on metestrus). Overall, males slept more than both proestrous females (that received footshocks on proestrus) and metestrous females during the dark period. Regression analyses revealed that average REMS episode durations after footshocks were differentially associated with recall rates across groups, such that the association was positive in males, but negative in proestrous females. Results suggest that both sex and the estrous cycle modulate the associations between REMS continuity and fear memory consolidation.
Topics: Animals; Behavior, Animal; Conditioning, Classical; Disease Models, Animal; Estrous Cycle; Fear; Female; Male; Memory Consolidation; Mental Recall; Mice; Mice, Inbred C57BL; Sex Characteristics; Sleep Stages; Stress Disorders, Post-Traumatic
PubMed: 31593790
DOI: 10.1016/j.bbr.2019.112156 -
Human Reproduction (Oxford, England) Oct 2019Can mice serve as a translational model to investigate the reproductive effects of testosterone (T) therapy commonly used by transgender men?
STUDY QUESTION
Can mice serve as a translational model to investigate the reproductive effects of testosterone (T) therapy commonly used by transgender men?
SUMMARY ANSWER
T enanthate subcutaneous injections at 0.45 mg twice weekly can be used in the postpubertal C57BL/6N female mouse to investigate the reproductive effects of T therapy given to transgender men.
WHAT IS KNOWN ALREADY
Most models of T treatment in female mice involve prenatal or prepubertal administration, which are not applicable to transgender men who often begin T therapy after puberty. Studies that have looked at the impact of postpubertal T treatment in female mice have generally not investigated reproductive outcomes.
STUDY DESIGN, SIZE, DURATION
A total of 20 C57BL/6N female mice were used for this study. Study groups (n = 5 mice per group) included sesame oil vehicle controls and three doses of T enanthate (0.225, 0.45 and 0.90 mg). Mice were injected subcutaneously twice weekly for 6 weeks.
PARTICIPANTS/MATERIALS, SETTING, METHODS
Daily vaginal cytology was performed prior to initiation of treatment to confirm that all mice were cycling. At 8-9 weeks of age, therapy with subcutaneous T enanthate (0.225, 0.45 or 0.90 mg) or the vehicle control was begun. T therapy continued for 6 weeks, at which point mice were sacrificed and compared to control mice sacrificed during diestrus/metestrus. Data collected included daily vaginal cytology, weekly and terminal reproductive hormone levels, terminal body/organ weights/measurements, ovarian follicular distribution/morphology and corpora lutea counts.
MAIN RESULTS AND THE ROLE OF CHANCE
Of the mice treated with 0.90 mg T enanthate, two of five mice experienced vaginal prolapse, so this group was excluded from further analysis. T enanthate administration twice weekly at 0.225 or 0.45 mg resulted in cessation of cyclicity and persistent diestrus. One of five mice at the 0.225-mg dose resumed cycling after 2.5 weeks of T therapy. As compared to controls, T-treated mice had sustained elevated T levels and luteinizing hormone (LH) suppression in the terminal blood sample. T-treated mice demonstrated increases in clitoral area and atretic cyst-like late antral follicles (0.45 mg only) as compared to controls. No reduction in primordial, primary, secondary or total antral follicle counts was detected in T-treated mice as compared to controls, and T-treated mice demonstrated an absence of corpora lutea.
LIMITATIONS, REASONS FOR CAUTION
Mouse models can provide us with relevant key findings for further exploration but may not perfectly mirror human reproductive physiology.
WIDER IMPLICATIONS OF THE FINDINGS
To our knowledge, this report describes the first mouse model mimicking T therapy given to transgender men that facilitates analysis of reproductive changes. This model allows for future studies comparing duration and reversibility of T-induced changes, on the reproductive and other systems. It supports a role for T therapy in suppressing the hypothalamic-pituitary-gonadal axis in adult female mice as evidenced by LH suppression, persistent diestrus and absence of corpora lutea. The increase in atretic cyst-like late antral follicles aligns with the increased prevalence of polycystic ovary morphology seen in case series of transgender men treated with T therapy. The results also suggest that T therapy does not deplete the ovarian reserve.
STUDY FUNDING/COMPETING INTEREST(S)
This work was supported by the American Society for Reproductive Medicine/Society of Reproductive Endocrinology and Infertility Grant and NIH R01-HD098233 to M.B.M. and University of Michigan Office of Research funding (U058227). H.M.K. was supported by the Career Training in Reproductive Biology and Medical Scientist Training Program T32 NIH Training Grants (T32-HD079342, T32-GM07863) as well as the Cellular and Molecular Biology Program. The University of Virginia Center for Research in Reproduction Ligand Assay and Analysis Core is supported by the Eunice Kennedy Shriver NICHD/NIH (NCTRI) Grant P50-HD28934. E.E.M. consults for Allergan. No other authors have competing interests.
Topics: Androgens; Animals; Drug Administration Schedule; Female; Gender Dysphoria; Humans; Injections, Subcutaneous; Male; Mice; Mice, Inbred C57BL; Models, Animal; Sex Reassignment Procedures; Sexual Development; Testosterone; Transgender Persons; Treatment Outcome
PubMed: 31585007
DOI: 10.1093/humrep/dez177 -
Brain Sciences Sep 2019Alcohol use disorders (AUDs) have a high incidence of co-morbidity with stress-related psychopathologies, such as post-traumatic stress disorder (PTSD). Genetic and...
Alcohol use disorders (AUDs) have a high incidence of co-morbidity with stress-related psychopathologies, such as post-traumatic stress disorder (PTSD). Genetic and pharmacological studies support a prominent role for the endocannabinoid system (ECS) in modulating stress-related behaviors relevant to AUDs and PTSD. Mouse lines selectively bred for high (HAP) and low (LAP) alcohol preference show reproducible differences in fear-potentiated startle (FPS), a model for PTSD-related behavior. The first experiment in this study assessed levels of the endocannabinoids, anandamide (AEA) and -2 arachidonylglycerol (2-AG), in the prefrontal cortex (PFC), amygdala (AMG), and hippocampus (HIP) of male and female HAP1 and LAP1 mice following the expression of FPS to determine whether ECS responses to conditioned-fear stress (FPS) were correlated with genetic propensity toward high or low alcohol preference. The second experiment examined effects of a cannabinoid receptor type 1 agonist (CP55940) and antagonist (rimonabant) on the expression of FPS in HAP1 and LAP1 male and female mice. The estrous cycle of females was monitored throughout the experiments to determine if the expression of FPS differed by stage of the cycle. FPS was greater in male and female HAP1 than LAP1 mice, as previously reported. In both experiments, LAP1 females in diestrus displayed greater FPS than LAP1 females in metestrus and estrus. In the AMG and HIP, AEA levels were greater in male fear-conditioned HAP1 mice than LAP1 mice. There were no line or sex differences in effects of CP55940 or rimonabant on the expression of FPS. However, surprisingly, evidence for anxiogenic effects of prior treatment with CP55940 were seen in all mice during the third drug-free FPS test. These findings suggest that genetic differences in ECS function in response to fear-conditioning stress may underlie differences in FPS expression in HAP1 and LAP1 selected lines.
PubMed: 31561480
DOI: 10.3390/brainsci9100254 -
Hormones and Behavior Nov 2019Naturally occurring alterations in estradiol influence food intake in females. However, how motivational responses to food cues are affected by the estrous cycle or...
Effects of the estrous cycle and ovarian hormones on cue-triggered motivation and intrinsic excitability of medium spiny neurons in the Nucleus Accumbens core of female rats.
Naturally occurring alterations in estradiol influence food intake in females. However, how motivational responses to food cues are affected by the estrous cycle or ovarian hormones is unknown. In addition, while individual susceptibility to obesity is accompanied by enhanced incentive motivational responses to food cues and increased NAc intrinsic excitability in males, studies in females are absent. Therefore, we examined basal differences in intrinsic NAc excitability of obesity-prone vs. obesity-resistant females and determined how conditioned approach (a measure of cue-triggered motivation), food intake, and motivation for food vary with the cycle in naturally cycling female obesity-prone, obesity-resistant, and outbred Sprague-Dawley rats. Finally, we used ovariectomy followed by hormone treatment to determine the role of ovarian hormones in cue-triggered motivation in selectively-bred and outbred female rats. We found that intrinsic excitability of NAc MSNs and conditioned approach are enhanced in female obesity-prone vs. obesity-resistant rats. These effects were driven by greater MSN excitability and conditioned approach behavior during metestrus/diestrus vs. proestrus/estrus in obesity-prone but not obesity-resistant rats, despite similar regulation of food intake and food motivation by the cycle in these groups. Furthermore, estradiol and progesterone treatment reduced conditioned approach behavior in obesity-prone and outbred Sprague-Dawley females. To our knowledge, these data are the first to demonstrate cycle- and hormone-dependent effects on the motivational response to a food cue, and the only studies to date to determine how individual susceptibility to obesity influences NAc excitability, cue-triggered food-seeking, and differences in the regulation of these neurobehavioral responses by the estrous cycle.
Topics: Animals; Appetitive Behavior; Choice Behavior; Cues; Estrous Cycle; Feeding Behavior; Female; Food; Gonadal Hormones; Male; Motivation; Neurons; Nucleus Accumbens; Obesity; Ovary; Rats; Rats, Sprague-Dawley
PubMed: 31454509
DOI: 10.1016/j.yhbeh.2019.104583 -
Hormones and Behavior Sep 2019A growing body of evidence demonstrates that estrogen and corticosterone (CORT) impact on cognition and emotion. On the one hand, ovarian hormones may have beneficial...
A growing body of evidence demonstrates that estrogen and corticosterone (CORT) impact on cognition and emotion. On the one hand, ovarian hormones may have beneficial effects on several neurophysiological processes, including memory. On the other hand, chronic exposure to stressful conditions has negative effects on brain structures related to learning and memory. In the present study, we used the plus-maze discriminative avoidance task (PMDAT) to evaluate the influence of endogenous variations of sex hormones and exposure to different types of prolonged stressors on learning, memory, anxiety-like behavior and locomotion. Female Wistar rats were submitted to seven consecutive days of restraint stress (4 h/day), overcrowding (18 h/day) or social isolation (18 h/day) and tested in different phases of the estrous cycle. The main results showed that: (1) neither stress conditions nor estrous cycle modified PMDAT acquisition; (2) restraint stress and social isolation induced memory impairments; (3) this impairment was observed particularly in females in metestrus/diestrus; (4) stressed females in estrus displayed less risk assessment behavior, suggesting reduced anxiety-like behavior; (5) restraint stress and social isolation, but not overcrowding, elevated corticosterone levels. Taken together, our findings suggest that the phase of the estrous cycle is an important modulatory factor of the cognitive processing disrupted by stress in female rats. Negative effects were observed in metestrus/diestrus, indicating that the peak of sex hormones may protect females against stress-induced memory impairment.
Topics: Animals; Corticosterone; Disease Models, Animal; Estradiol; Estrous Cycle; Female; Memory Disorders; Rats; Rats, Wistar; Stress, Psychological
PubMed: 31377100
DOI: 10.1016/j.yhbeh.2019.104563