Characterisation of germline progenitor cells in the testes of phylostomid bats: Artibeus jamaicensis and Sturnira lilium.

Context A population of sperm progenitor cells, known as Asingle spermatogonia, has been described in mammalian testes. During division cycles in spermatogenesis, some cells will form part of the Asingle spermatogonia group, while others form primary spermatocytes. Thus, during spermatogenesis, spermatogonia are the progenitor cells of spermatozoa. Aims In this study, we characterise the spermatogonial stem cells (SSCs) in the testicles of Artibeus jamaicensis and Sturnira lilium bats. The knowledge generated from this will contribute to the understanding of the biology of germ cells and the mechanisms of spermatogenesis in mammals, generating information on wildlife species that are important for biodiversity. Methods Testes were analysed by light and electron microscopy. Likewise, the expression of specific factors of stem cells (Oct4 and C-kit), germ cells (Vasa), cell proliferation (pH3 and SCP1) and testicular somatic cells (MIS, 3ßHSD and Sox9) was characterised by immunofluorescence and western blot. Key results The histological analysis enabled the location of type Asingle, Apaired and Aaligned spermatogonia in the periphery of the seminiferous tubules adjacent to Sertoli cells. The expression of genes of stem and germ cells made it possible to corroborate the distribution of the SSCs. Conclusions Results indicate that type Asingle spermatogonia were not randomly distributed, since proliferative activity was detected in groups of cells adjacent to the seminiferous tubules membrane, suggesting the localisation of spermatogonial niches in a specific region of testes. Implications This study provides evidence for the existence of SSCs in the testis of chiropterans that contribute to the renewal of germline progenitor cells to maintain the reproduction of the organisms.

Multimodal profiling of term human decidua demonstrates immune adaptations with pregravid obesity.

Leukocyte diversity of the first-trimester maternal-fetal interface has been extensively described; however, the immunological landscape of the term decidua remains poorly understood. We therefore profiled human leukocytes from term decidua collected via scheduled cesarean delivery. Relative to the first trimester, our analyses show a shift from NK cells and macrophages to T cells and enhanced immune activation. Although circulating and decidual T cells are phenotypically distinct, they demonstrate significant clonotype sharing. We also report significant diversity within decidual macrophages, the frequency of which positively correlates with pregravid maternal body mass index. Interestingly, the ability of decidual macrophages to respond to bacterial ligands is reduced with pregravid obesity, suggestive of skewing toward immunoregulation as a possible mechanism to safeguard the fetus against excessive maternal inflammation. These findings are a resource for future studies investigating pathological conditions that compromise fetal health and reproductive success.

The Endocrine Disruptor Compound Bisphenol-A (BPA) Regulates the Intra-Tumoral Immune Microenvironment and Increases Lung Metastasis in an Experimental Model of Breast Cancer.

Breast cancer (BC) metastasis represents the main physiopathology leading to poor prognosis and death. Bisphenol A (BPA) is a pollutant, classified as an endocrine-disrupting chemical compound with estrogenic properties, their exposure in the early stages of neonatal life leads to an increase in the size and weight of breast tumors and induces cellular changes in the tumoral immune microenvironment where cytokines play a key role. Thus, we used female BALB/c mice exposed neonatally to a single dose of BPA. Once mice reached sexual maturity, a mammary tumor was induced, injecting 4T1 cells in situ. After 25 days of injection, we evaluated endocrine alterations, cytokine expression, tissue alterations denoted by macro or micro-metastasis in the lung, and cell infiltration induced by metastasis. We found that BPA neonatal treatment did not show significant endocrine alterations. Noteworthy, BPA led to an augmented rate of metastasis to the lung associated with higher intratumoral expression of IL-1ß, IL-6, IFN-γ, TNF-α, and VEGF. Our data suggest that cytokines are key players in the induction of BC metastasis and that BPA (an environmental pollutant) should be considered as a risk factor in the clinical history of patients as a possible inductor of BC metastasis.

The Safety and Immunologic Effectiveness of the Live Varicella-Zoster Vaccine in Patients Receiving Tumor Necrosis Factor Inhibitor Therapy : A Randomized Controlled Trial.

BACKGROUND: The safety and effectiveness of live virus vaccines, such as the varicella-zoster vaccine, are unknown in patients with inflammatory diseases receiving immunomodulatory therapy such as tumor necrosis factor inhibitors (TNFis). OBJECTIVE: To evaluate the safety and immunogenicity of the live attenuated zoster vaccine (ZVL) in patients receiving TNFis. DESIGN: Randomized, blinded, placebo-controlled trial. (ClinicalTrials.gov: NCT02538341). SETTING: Academic and community-based rheumatology, gastroenterology, and dermatology practices. PATIENTS: Adults aged 50 years or older receiving TNFis for any indication. INTERVENTION: Random assignment to ZVL versus placebo. MEASUREMENTS: Glycoprotein enzyme-linked immunosorbent assay (gpELISA) and enzyme-linked immunosorbent spot (ELISpot) from serum and peripheral blood mononuclear cells measured at baseline and 6 weeks after vaccination. Suspected varicella infection or herpes zoster was clinically assessed using digital photographs and polymerase chain reaction on vesicular fluid. RESULTS: Between March 2015 and December 2018, 617 participants were randomly assigned in a 1:1 ratio to receive ZVL (n = 310) or placebo (n = 307) at 33 centers. Mean age was 62.7 years (SD, 7.5); 66.1% of participants were female, 90% were White, 8.2% were Black, and 5.9% were Hispanic. The most common TNFi indications were rheumatoid arthritis (57.6%) and psoriatic arthritis (24.1%); TNFi medications were adalimumab (32.7%), infliximab (31.3%), etanercept (21.2%), golimumab (9.1%), and certolizumab (5.7%). Concomitant therapies included methotrexate (48.0%) and oral glucocorticoids (10.5%). Through week 6, no cases of confirmed varicella infection were found; cumulative incidence of varicella infection or shingles was 0.0% (95% CI, 0.0% to 1.2%). At 6 weeks, compared with baseline, the mean increases in geometric mean fold rise as measured by gpELISA and ELISpot were 1.33 percentage points (CI, 1.17 to 1.51 percentage points) and 1.39 percentage points (CI, 1.07 to 1.82 percentage points), respectively. LIMITATION: Potentially limited generalizability to patients receiving other types of immunomodulators. CONCLUSION: This trial informs safety concerns related to use of live virus vaccines in patients receiving biologics. PRIMARY FUNDING SOURCE: The National Institute of Arthritis and Musculoskeletal and Skin Diseases and the American College of Rheumatology.

Biology of primordial germ cells in vertebrates with emphasis in urodeles amphibians.

Primordial germ cells (PGCs) are highly specialized cells that play a relevant role in the maintenance and evolution of the species, since they create new combinations of genetic information between the organisms. Amphibians are a class of amniote vertebrates that are divided into three subclasses, the anurans (frogs and toads), the urodeles (salamanders and newts), and the gymnophiones (caecilians). The study of PGCs in amphibians has been addressed in more detail in anurans while little is known about the biology of this cell lineage in urodeles. Studies in some urodeles species have suggested that PGCs are of mesodermal origin, specifying in the lateral plate mesoderm at the late gastrula stage. With classical experiments it shown that, there is an induction of mesoderm, therefore most likely urodeles PGCs develop from unspecialized mesodermal tissue that responds to extracellular signals. However, some fundamental biological processes of PGCs such as the analysis of their specification, arrival, and colonization to the gonads, and their maintenance and differentiation into mature and fertile gametes remain to be elucidated. Therefore, knowledge about the biology of PGCs is of great importance to ensure the perpetuation of urodeles amphibians, as some species are in danger of becoming extinct.

Functional and genomic adaptations of blood monocytes to pregravid obesity during pregnancy.

Pregravid obesity is associated with several adverse maternal health outcomes, such as increased risk of infection, suggesting an altered immunological state. However, the mechanisms by which obesity disrupts the pregnancy "immune clock" are still unknown. Here, we profiled circulating immune mediators, immune cell subset frequencies, and peripheral immune responses during the first and third trimesters of pregnancy in lean and obese mothers. While both Th1 and Th2 cytokines were elevated with pregnancy regardless of BMI, obese subjects had dysregulated myeloid factors in circulation at term. Pregnancy in lean subjects was associated with enhanced monocyte activation, augmented chromatin accessibility at inflammatory loci, and heightened responses to LPS. Pregravid obesity disrupted this trajectory, resulting in a lack of transcriptional, epigenetic, and metabolic changes strongly suggesting a skewing toward innate immune tolerance. These findings provide novel insight into the increased susceptibility to infections in women with obesity during pregnancy and following cesarean delivery.

Phenotypic and Epigenetic Adaptations of Cord Blood CD4+ T Cells to Maternal Obesity.

Pregravid obesity has been shown to disrupt the development of the offspring's immune system and increase susceptibility to infection. While the mechanisms underlying the impact of maternal obesity on fetal myeloid cells are emerging, the consequences for T cells remain poorly defined. In this study, we collected umbilical cord blood samples from infants born to lean mothers and mothers with obesity and profiled CD4 T cells using flow cytometry and single cell RNA sequencing at resting and following ex vivo polyclonal stimulation. We report that maternal obesity is associated with higher frequencies of memory CD4 T cells suggestive of in vivo activation. Moreover, single cell RNA sequencing revealed expansion of an activated subset of memory T cells with maternal obesity. However, ex vivo stimulation of purified CD4 T cells resulted in poor cytokine responses, suggesting functional defects. These phenotypic and functional aberrations correlated with methylation and chromatin accessibility changes in loci associated with lymphocyte activation and T cell receptor signaling, suggesting a possible link between maternal obesogenic environment and fetal immune reprogramming. These observations offer a potential explanation for the increased susceptibility to microbial infection in babies born to mothers with obesity.

Early Transcriptional Changes within Liver, Adrenal Gland, and Lymphoid Tissues Significantly Contribute to Ebola Virus Pathogenesis in Cynomolgus Macaques.

Ebola virus (EBOV) continues to pose a significant threat to human health, as evidenced by the 2013-2016 epidemic in West Africa and the ongoing outbreak in the Democratic Republic of the Congo. EBOV causes hemorrhagic fever, organ damage, and shock culminating in death, with case fatality rates as high as 90%. This high lethality combined with the paucity of licensed medical countermeasures makes EBOV a critical human pathogen. Although EBOV infection results in significant damage to the liver and the adrenal glands, little is known about the molecular signatures of injury in these organs. Moreover, while changes in peripheral blood cells are becoming increasingly understood, the host responses within organs and lymphoid tissues remain poorly characterized. To address this knowledge gap, we tracked longitudinal transcriptional changes in tissues collected from EBOV-Makona-infected cynomolgus macaques. Following infection, both liver and adrenal glands exhibited significant and early downregulation of genes involved in metabolism, coagulation, hormone synthesis, and angiogenesis; upregulated genes were associated with inflammation. Analysis of lymphoid tissues showed early upregulation of genes that play a role in innate immunity and inflammation and downregulation of genes associated with cell cycle and adaptive immunity. Moreover, transient activation of innate immune responses and downregulation of humoral immune responses in lymphoid tissues were confirmed with flow cytometry. Together, these data suggest that the liver, adrenal gland, and lymphatic organs are important sites of EBOV infection and that dysregulating the function of these vital organs contributes to the development of Ebola virus disease.IMPORTANCE Ebola virus (EBOV) remains a high-priority pathogen since it continues to cause outbreaks with high case fatality rates. Although it is well established that EBOV results in severe organ damage, our understanding of tissue injury in the liver, adrenal glands, and lymphoid tissues remains limited. We begin to address this knowledge gap by conducting longitudinal gene expression studies in these tissues, which were collected from EBOV-infected cynomolgus macaques. We report robust and early gene expression changes within these tissues, indicating they are primary sites of EBOV infection. Furthermore, genes involved in metabolism, coagulation, and adaptive immunity were downregulated, while inflammation-related genes were upregulated. These results indicate significant tissue damage consistent with the development of hemorrhagic fever and lymphopenia. Our study provides novel insight into EBOV-host interactions and elucidates how host responses within the liver, adrenal glands, and lymphoid tissues contribute to EBOV pathogenesis.

Interaction between oocytes, cortical germ cells and granulosa cells of the mouse and bat, following the dissociation-re-aggregation of adult ovaries.

It is widely accepted that the oocyte plays a very active role in promoting the growth of the follicle by directing the differentiation of granulosa cells and secreting paracrine growth factors. In turn, granulosa cells regulate the development of the oocytes, establishing close bidirectional communication between germ and somatic cells. The presence of cortical cells with morphological characteristics, similar to primordial germ cells that express specific germline markers, stem cells and cell proliferation, known as adult cortical germ cells (ACGC) have been reported in phyllostomid bats. Using magnetic cell separation techniques, dissociation-cellular re-aggregation and organ culture, the behaviour of oocytes and ACGC was analyzed by interacting in vitro with mouse ovarian cells. Bat ACGC was mixed with disaggregated ovaries from a transgenic mouse that expressed green fluorescent protein. The in vitro reconstruction of the re-aggregates was evaluated. We examined the viability, integration, cellular interaction and ovarian morphogenesis by detecting the expression of Vasa, pH3, Cx43 and Laminin. Our results showed that the interaction between ovarian cells is carried out in the adult ovary of two species, without them losing their capacity to form follicular structures, even after having been enzymatically dissociated.

Mejoramiento de la extracción de carotenoides y capsaicinoides del ají nativo (Capsicum baccatum), asistido con enzimas celulolíticas

Se realizó la producción de celulasas de Aspergillus niger ATCC 10864 mediante fermentación en biopelículas (FB). Los extractos de celulasas se usaron para hidrolizar la celulosa del fruto de Capsicum baccatum "ají escabeche", para ello los frutos de ají fueron deshidratados y molidos a un tamaño de partícula menor a 0.425 mm. Luego se mezcló ají seco: celulasas y se hidrolizó en condiciones de agitación, tiempo y temperatura controlada. Se filtró el medio y se separó el sobrenadante de la torta de ají hidrolizado, este último se secó a 10% de humedad y se lixivió con una mezcla de hexano:acetona:etanol para extraer los carotenoides y capsaicinoides, los cuales fueron cuantificados por HPLC. El rendimiento de oleorresina extraída era cinco veces mayor comparado al método convencional; así mismo en los tratamientos T2 y T5, se logró mayor extracción de carotenoides y capsaicinoides totales, respectivamente, comparado a los otros tratamientos. La acción hidrolítica de las celulasas, sobre las estructuras moleculares de la celulosa del fruto ají escabeche, favorecieron mayor liberación de los carotenoides y capsaicinoides totales comparado a los métodos convencionales.

The production of cellulases of Aspergillus niger ATCC 10864 was carried out by fermentation in biofilms (FB). The extracts of cellulases were used to hydrolyze the cellulose of Capsicum baccatum "escabeche chili" fruit, for this the chili fruits were dehydrated and ground to a particle size < 0.045 mm. Then dry chili: cellulase was mixed and hydrolyzed under conditions of agitation, controlled time and temperature. The medium was filtered and the supernatant of the hydrolyzed chili cake was separated, the latter was dried at 10% humidity and leached with a mixture of hexane:acetone:ethanol to extract the carotenoids and capsaicinoids, which were quantified by HPLC. The extraction yield of oleoresin was five times higher compared to the conventional method; likewise in the T8 and T5 treatments, greater extraction of carotenoids and total capsaicinoids was achieved compared to the other treatments. The hydrolytic action of the cellulases, on the molecular structures of the cellulose of the red drop chili fruit, favored greater release of the carotenoids and total capsaicinoids compared to conventional methods.

Mechanisms related to sexual determination by temperature in reptiles.

A number of strategies have emerged that appear to relate to the evolution of mechanisms for sexual determination in vertebrates, among which are genetic sex determination caused by sex chromosomes and environmental sex determination, where environmental factors influence the phenotype of the sex of an individual. Within the reptile group, some orders such as: Chelonia, Crocodylia, Squamata and Rhynchocephalia, manifest one of the most intriguing and exciting environmental sexual determination mechanisms that exists, comprising temperature-dependent sex determination (TSD), where the temperature of incubation that the embryo experiences during its development is fundamental to establishing the sex of the individual. This makes them an excellent model for the study of sexual determination at the molecular, cellular and physiological level, as well as in terms of their implications at an evolutionary and ecological level. There are different hypotheses concerning how this process is triggered and this review aims to describe any new contributions to particular TSD hypotheses, analyzing them from the "eco-evo-devo" perspective.

A Multidimensional Assessment of Successful Aging Among Older People Living with HIV in Palm Springs, California.

We assessed successful aging among older people living with HIV (PLWH) compared with older people without HIV. One hundred ten older men and women in Palm Springs, California completed a self-administered 28-question survey, which collected data on physiological and psychosocial factors related to successfully aging with HIV, including demographics, HIV status, sexual activity, health and well-being, experiences of stigma or discrimination, feelings of isolation, receipt of disability benefits, work and volunteer participation, and presence of comorbid infectious diseases, noninfectious diseases, and geriatric syndromes. Most participants were male (96.4%), non-Hispanic white (84.5%), college educated (61.7%), and ranged in age from 55 to 87 years (median = 64 years). Respondents with HIV were significantly older than those without HIV (p = .04). The overall prevalence of two or more comorbid conditions across the sample was 59.1%. PLWH were more likely to report depression (p = .008). PLWH were also significantly more likely to report having a current sex partner living with HIV (p < .001) and receiving disability benefits than people without HIV (41.9% vs. 6.3%). Among PLWH, there was a significant relationship between not working or volunteering and feelings of isolation (p = .005). For people without HIV, we found a significant relationship between feelings of isolation and not living with someone (p < .001), but there was no such relationship among PLWH-possibly reflecting the strength of the support network for PLWH in Palm Springs. Our findings suggest that older PLWH experience successful aging to a similar degree compared with their peers without HIV. However, depression and social isolation remain highly salient issues that threaten successful aging and with which PLWH must contend.

Insecticidal Properties of Capsaicinoids and Glucosinolates Extracted from Capsicum chinense and Tropaeolum tuberosum.

Food security and biodiversity conservation are threatened by the emergence and spread of pest and pathogens, and thus there is a current need to develop pest management strategies that are sustainable and friendly to the environment and human health. Here, we performed laboratory and field bioassays to evaluate the insecticidal effects of several concentrations of capsaicinoids and glucosinolates (separately and mixed) on an aphid pest (Aphis cytisorum). The capsaicinoids were extracted from the fruits of Capsicum chinense and glucosinolates from the tubers of native Andean crop Tropaeolum tuberosum. We found that both capsaicinoids and glucosinolates have a biocidal effect on A. cytisorum, acting within a fairly short time. Under laboratory conditions, the toxicity of the compounds increased in relation to their concentrations, causing a high percentage of mortality (83-99%) when the aphids were exposed to dilutions of 10% capsaicinoids, 75-100% glucosinolates, or a mixture of 10% capsaicinoids and 90% glucosinolates. The mortality of aphids sprayed in the field with 5% capsaicinoids, 50% glucosinolates, or with a mixture of 5% capsaicinoids and 45% glucosinolates reached 87-97%. Results obtained from laboratory and field experiments were consistent. Our results suggest the potential use of bioinsecticides based on capsaicinoids and/or glucosinolates as an effective alternative to synthetic pesticides.

Altered Immunity and Microbial Dysbiosis in Aged Individuals With Long-Term Controlled HIV Infection.

The introduction of highly active antiretroviral therapy (HAART) resulted in a significant increase in life expectancy for HIV patients. Indeed, in 2015, 45% of the HIV+ individuals in the United States were ≥55 years of age. Despite improvements in diagnosis and treatment of HIV infection, geriatric HIV+ patients suffer from higher incidence of comorbidities compared to age-matched HIV- individuals. Both chronic inflammation and dysbiosis of the gut microbiome are believed to be major contributors to this phenomenon, however carefully controlled studies investigating the impact of long-term (>10 years) controlled HIV (LTC-HIV) infection are lacking. To address this question, we profiled circulating immune cells, immune mediators, and the gut microbiome from elderly (≥55 years old) LTC-HIV+ and HIV- gay men living in the Palm Springs area. LTC-HIV+ individuals had lower frequency of circulating monocytes and CD4+ T-cells, and increased frequency CD8+ T-cells. Moreover, levels of systemic INFγ and several growth factors were increased while levels of IL-2 and several chemokines were reduced. Upon stimulation, immune cells from LTC-HIV+ individuals produced higher levels of pro-inflammatory cytokines. Last but not least, the gut microbiome of LTC-HIV+ individuals was enriched in bacterial taxa typically found in the oral cavity suggestive of loss of compartmentalization, while levels of beneficial butyrate producing taxa were reduced. Additionally, prevalence of Prevotella negatively correlated with CD4+ T-cells numbers in LTC-HIV+ individuals. These results indicate that despite long-term adherence and undetectable viral loads, LTC-HIV infection results in significant shifts in immune cell frequencies and gut microbial communities.

Expression of the Sox9, Foxl2, Vasa, and TRPV4 genes in the ovaries and testes of the Morelet's crocodile, Crocodylus moreletii.

The Sox9 gene is important for determining sex in vertebrates, as well as for maintaining testis morphology and fertility during adult life. In the same way, Vasa is an important gene for the maintenance of the germinal lineage and has been highly conserved throughout evolution, as it is expressed in germ cells of both vertebrates and invertebrates. In the particular case of crocodiles, the expression of Sox9 during gonadal morphogenesis and in the testes of 3-month-old Alligator mississippiensis has been studied. However, it is interesting to carry out studies on other species of crocodiles in relation to their particular mechanism for sex determination influenced by temperature. In this work, we investigated the expression of the Sox9, Vasa, Foxl2, and TRPV4 genes in the ovaries and testes of 5-year-old juvenile crocodiles from Crocodylus moreletii. As expected, Sox9 expression was found in males, but surprisingly, it was also found in females. For the first time, the expression of Vasa was reported in spermatogonia, oogonia, and oocytes of 5-year-old crocodiles. Foxl2 is important for the development and maintenance of the ovary during adult life in vertebrates; moreover, Foxl2 protein and transcripts are both highly expressed in the ovaries compared to the testes. A possible upstream regulator of the Sox9 gene in reptiles has not yet been discovered; as such, the expression of the TRPV4 ion channel was evaluated. The TRPV4 ion channel was expressed in the cytoplasm of Sertoli and follicular cells and was therefore proposed as a possible regulator of SOX9.

Health Volunteerism and Improved Cancer Health for Latina and African American Women and Their Social Networks: Potential Mechanisms.

Health volunteerism has been associated with positive health outcomes for volunteers and the communities they serve. This work suggests that there may be an added value to providing underserved populations with information and skills to be agents of change. The current study is a first step toward testing this hypothesis. The purpose is to identify how volunteerism may result in improved cancer health among Latina and African American women volunteers. A purposive sample of 40 Latina and African American female adults who had participated in cancer volunteerism in the past 5 years was recruited by community advocates and flyers distributed throughout community venues in San Diego, CA. This qualitative study included semi-structured focus groups. Participants indicated that volunteerism not only improved their health but also the health of their family and friends. Such perceptions aligned with the high rates of self-report lifetime cancer screening rates among age-eligible patients (e.g., 83-93 % breast; 90-93 % cervical; 79-92 % colorectal). Identified mechanisms included exposure to evidence-based information, health-protective social norms and support, and pressure to be a healthy role model. Our findings suggest that train-the-trainer and volunteer-driven interventions may have unintended health-protective effects for participating staff, especially Latina and African American women.

Neo-oogenesis in mammals.

Recently, the existence of a mechanism for neo-oogenesis in the ovaries of adult mammals has generated much controversy within reproductive biology. This mechanism, which proposes that the ovary has cells capable of renewing the follicular reserve, has been described for various species of mammals. The first evidence was found in prosimians and humans. However, these findings were not considered relevant because the predominant dogma for reproductive biology at the time was that of Zuckerman. This dogma states that female mammals are born with finite numbers of oocytes that decline throughout postnatal life. Currently, the concept of neo-oogenesis has gained momentum due to the discovery of cells with mitotic activity in adult ovaries of various mammalian species (mice, humans, rhesus monkeys, domestic animals such as pigs, and wild animals such as bats). Despite these reports, the concept of neo-oogenesis has not been widely accepted by the scientific community, generating much criticism and speculation about its accuracy because it has been impossible to reproduce some evidence. This controversy has led to the creation of two positions: one in favour of neo-oogenesis and the other against it. Various animal models have been used in support of both camps, including both classic laboratory animals and domestic and wild animals. The aim of this review is to critically present the current literature on the subject and to evaluate the arguments pro and contra neo-oogenesis in mammals.

Gonadal morphogenesis and establishment of the germline in the phyllostomid bat Sturnira lilium.

In vertebrates such as the mouse and the human, primordial germ cells (PGCs) arise at the base of the allantois and are carried to the epithelium of the posterior intestine, to later migrate to the primordial gonads. In the case of bats, almost nothing is known about this process. To clarify the dynamics of PGCs during gonadal morphogenesis in the phyllostomid bat Sturnira lilium, the proteins for the Ddx4, Sox9 and Mis genes were detected in the gonads of embryos at different stages of development. We identified 15 stages (St) of embryonic development in Sturnira lilium. We found that the formation of the genital ridge and the establishment of the undifferentiated gonad take place between stages 11 and 14. The onset of morphological differentiation in the gonad is first detected in the male gonads at St17. The first PGCs in meiosis are detected in the ovary at St19, whereas in the testicles, the PGCs were in mitotic arrest. Structural changes leading to testicular and ovarian development in Sturnira lilium are observed to be similar to those described for the mouse; however, differences will be established concerning the time taken for these processes to occur.

Morphological structures for potential sperm storage in poeciliid fishes. Does superfetation matter?

Sperm storage within the female reproductive tract has been reported as a reproductive strategy in several species of vertebrates and invertebrates. However, the morphological structures that allow for sperm to be stored and kept viable for long periods are relatively unknown in osteichthyes. We use histological and stereological tools to identify and quantify sperm storage structures (spermathecae) in 12 species of viviparous Poeciliidae. We found spermathecae in nine species, six of which exhibit superfetation (the ability of females to simultaneously carry within the ovary two or more broods of embryos at different stages of development). These spermathecae are folds of ovarian tissue that close around spermatozoa. We compared the number and size (volume) of spermathecae between species with and without superfetation. Species that exhibit superfetation had a significantly higher number of spermathecae than species that do not exhibit this reproductive strategy. In addition, we found that the mean volume of spermathecae and total volume of spermathecae present in the ovary are marginally higher in species with superfetation. Our results contribute to the understanding of the morphological structures that allow for sperm storage in viviparous osteichthyes and suggest a positive relationship between superfetation and the capacity of females to store sperm.

Characterization of the myoepithelial cells in the major salivary glands of the fruit bat Artibeus jamaicensis.

Bats constitute one of the most numerous mammalian species. Bats have a wide range of dietary habits and include carnivorous, haematophagous, insectivorous, frugivorous and nectivorous species. The salivary glands of these species have been of particular research interest due to their structural variability among chiropterans with different types of diets. Myoepithelial cells (MECs), which support and facilitate the expulsion of saliva from the secretory portions of salivary glands, are very important for their function; however, this cell type has not been extensively studied in the salivary glands of bats. In this study, we characterized the MECs in the major salivary glands of the fruit bat Artibeus jamaicensis. Herein, we describe the morphology of the parotid, submandibular and sublingual glands of A. jamaicensis at the light- and electro-microscopic level and the distribution of MECs in these glands, as defined by their expression of smooth-muscle markers such as α-smooth muscle actin (SMAα) and desmin, and of epithelial cell markers, such as KRT14. We found that the anatomical locations of the major salivary glands in this bat species are similar to those of humans, except that the bat sublingual gland appears to be unique, extending to join the contralateral homologous gland. Morphologically, the parotid gland has the characteristics of a mixed-secretory gland, whereas the submandibular and sublingual glands were identified as mucous-secretory glands. MECs positive for SMAα, KRT14 and desmin were found in all of the structural components of the three glands, except in their excretory ducts. Desmin is expressed at a lower level in the parotid gland than in the other glands. Our results suggest that the major salivary glands of A. jamaicensis, although anatomically and structurally similar to those of humans, play different physiological roles that can be attributed to the dietary habits of this species.