ABSTRACT
Premature ovarian insufficiency (POI) is a common cause of infertility in women, characterised by amenorrhea and elevated FSH under the age of 40 years. In some cases, POI is syndromic in association with other features such as sensorineural hearing loss in Perrault syndrome. POI is a heterogeneous disease with over 80 causative genes known so far; however, these explain only a minority of cases. Using whole-exome sequencing (WES), we identified a MRPL50 homozygous missense variant (c.335T > A; p.Val112Asp) shared by twin sisters presenting with POI, bilateral high-frequency sensorineural hearing loss, kidney and heart dysfunction. MRPL50 encodes a component of the large subunit of the mitochondrial ribosome. Using quantitative proteomics and western blot analysis on patient fibroblasts, we demonstrated a loss of MRPL50 protein and an associated destabilisation of the large subunit of the mitochondrial ribosome whilst the small subunit was preserved. The mitochondrial ribosome is responsible for the translation of subunits of the mitochondrial oxidative phosphorylation machinery, and we found patient fibroblasts have a mild but significant decrease in the abundance of mitochondrial complex I. These data support a biochemical phenotype associated with MRPL50 variants. We validated the association of MRPL50 with the clinical phenotype by knockdown/knockout of mRpL50 in Drosophila, which resulted abnormal ovarian development. In conclusion, we have shown that a MRPL50 missense variant destabilises the mitochondrial ribosome, leading to oxidative phosphorylation deficiency and syndromic POI, highlighting the importance of mitochondrial support in ovarian development and function.
Subject(s)
Gonadal Dysgenesis, 46,XX , Hearing Loss, Sensorineural , Primary Ovarian Insufficiency , Female , Humans , Gonadal Dysgenesis, 46,XX/genetics , Hearing Loss, Sensorineural/genetics , Mitochondria/genetics , Mutation, Missense , Primary Ovarian Insufficiency/genetics , Animals , Drosophila melanogasterABSTRACT
Snail family members regulate epithelial-to-mesenchymal transition (EMT) during invasion of intestinal tumours, but their role in normal intestinal homeostasis is unknown. Studies in breast and skin epithelia indicate that Snail proteins promote an undifferentiated state. Here, we demonstrate that conditional knockout of Snai1 in the intestinal epithelium results in apoptotic loss of crypt base columnar stem cells and bias towards differentiation of secretory lineages. In vitro organoid cultures derived from Snai1 conditional knockout mice also undergo apoptosis when Snai1 is deleted. Conversely, ectopic expression of Snai1 in the intestinal epithelium in vivo results in the expansion of the crypt base columnar cell pool and a decrease in secretory enteroendocrine and Paneth cells. Following conditional deletion of Snai1, the intestinal epithelium fails to produce a proliferative response following radiation-induced damage indicating a fundamental requirement for Snai1 in epithelial regeneration. These results demonstrate that Snai1 is required for regulation of lineage choice, maintenance of CBC stem cells and regeneration of the intestinal epithelium following damage.
Subject(s)
Intestinal Mucosa/metabolism , Intestines/cytology , Transcription Factors/metabolism , Animals , Apoptosis/genetics , Apoptosis/physiology , Cell Differentiation/genetics , Cell Differentiation/physiology , Cell Lineage , Membrane Glycoproteins/genetics , Membrane Glycoproteins/metabolism , Mice , Mice, Knockout , Signal Transduction/genetics , Signal Transduction/physiology , Snail Family Transcription Factors , Transcription Factors/geneticsABSTRACT
The enteric nervous system (ENS) is an extensive network of neurons in the gut wall that arises from neural crest-derived cells. Like other populations of neural crest cells, it is known that enteric neural crest-derived cells (ENCCs) influence the behaviour of each other and therefore must communicate. However, little is known about how ENCCs communicate with each other. In this study, we used Ca2+ imaging to examine communication between ENCCs in the embryonic gut, using mice where ENCCs express a genetically-encoded calcium indicator. Spontaneous propagating calcium waves were observed between neighbouring ENCCs, through both neuronal and non-neuronal ENCCs. Pharmacological experiments showed wave propagation was not mediated by gap junctions, but by purinergic signalling via P2 receptors. The expression of several P2X and P2Y receptors was confirmed using RT-PCR. Furthermore, inhibition of P2 receptors altered the morphology of the ENCC network, without affecting neuronal differentiation or ENCC proliferation. It is well established that purines participate in synaptic transmission in the mature ENS. Our results describe, for the first time, purinergic signalling between ENCCs during pre-natal development, which plays roles in the propagation of Ca2+ waves between ENCCs and in ENCC network formation. One previous study has shown that calcium signalling plays a role in sympathetic ganglia formation; our results suggest that calcium waves are likely to be important for enteric ganglia development.
Subject(s)
Calcium Signaling/physiology , Enteric Nervous System/embryology , Neural Crest/embryology , Receptors, Purinergic P2X/metabolism , Receptors, Purinergic P2Y/metabolism , Animals , Mice , Mice, Inbred C57BL , Mice, Transgenic , Neural Crest/cytology , Neurogenesis/physiology , Organ Culture Techniques , Purinergic P2X Receptor Antagonists/pharmacology , Purinergic P2Y Receptor Antagonists/pharmacologyABSTRACT
Tob1 is a member of the BTG/TOB family of proteins with established antiproliferative function. In Danio rerio and Xenopus laevis, the Tob1 gene is expressed from the one-cell stage through to early gastrula stages, followed in later development by discrete expression in many tissues including the notochord and somites. In both mouse and human, Tob1 is expressed in many adult tissues including the testis and ovary; however, the specific cell types are unknown. We examine Tob1 gene expression in mouse in developing germ cells and in sorted male germ cells (gonocytes, spermatogonia, pachytene spermatocytes and round spermatids) by reverse transcription and droplet digital polymerase chain reaction (RT-ddPCR) and in adult ovary and testis by immunofluorescence with anti-Tob1 protein staining. By RT-ddPCR, Tob1 expression was low in developing male germ cells but was highly expressed in round spermatids. In developing female germ cells undergoing entry into meiosis, it increased 10-fold. Tob1 was also highly expressed in round spermatids and in oocytes in all stages of folliculogenesis. Notably, a marker for P-bodies, Dcp-2, was also highly expressed in round spermatids and all oocyte stages examined. The cytoplasmic presence of Tob1 protein in round spermatids and oocytes and the association of Tob1 protein with Dcp2 in both cell types suggest that Tob1 protein plays a role in post-transcriptional mechanisms.
Subject(s)
Carrier Proteins/biosynthesis , Embryonic Germ Cells/metabolism , Endoribonucleases/biosynthesis , Gene Expression Regulation, Developmental , Oocytes/metabolism , Spermatids/metabolism , Spermatocytes/metabolism , Spermatogonia/metabolism , Animals , Biomarkers/metabolism , Female , Intracellular Signaling Peptides and Proteins , Male , Mice , Mice, Inbred C57BL , Mice, Transgenic , Oogenesis/physiology , Ovary/metabolism , Reverse Transcriptase Polymerase Chain Reaction , Spermatogenesis/physiology , Testis/metabolismABSTRACT
Stem cell maintenance and differentiation can be regulated via the differential activity of transcription factors within stem cells and their progeny. For these factors to be active, they need to be transported from their site of synthesis in the cytoplasm into the nucleus. A tissue-specific requirement for factors involved in nuclear importation is a potential mechanism to regulate stem cell differentiation. We have undertaken a characterization of male sterile importin alpha 1 (Dα1) null alleles in Drosophila and found that Dα1 is required for maintaining germline stem cells (GSCs) in the testis niche. The loss of GSCs can be rescued by ectopic expression of Dα1 within the germline but the animals are still infertile, indicating a second role for Dα1 in spermatogenesis. Expression of a Dα1 dominant negative transgene in GSCs confirmed a functional requirement for Dα1 in GSC maintenance but expression of the transgene in differentiating spermatogonia did not exhibit a phenotype indicating a specific role for Dα1 within GSCs. Our data indicate that Dα1 is utilized as a regulatory protein within GSCs to facilitate nuclear importation of proteins that maintain the stem cell pool.
Subject(s)
Drosophila Proteins , Drosophila , Animals , Male , Drosophila/metabolism , Testis/metabolism , Drosophila Proteins/metabolism , alpha Karyopherins/metabolism , Signal Transduction/physiology , Stem Cells , Transcription Factors/metabolism , Spermatogonia/metabolismABSTRACT
Male subfertility or infertility is a common condition often characterized by men producing a low number of sperm with poor quality. To gain insight into this condition, we performed a quantitative proteomic analysis of semen samples obtained from infertile and fertile men. At least 6 proteins showed significant differences in regulation of alternatively spliced isoforms. To investigate this link between aberrant alternative splicing and production of poor-quality spermatozoa, we overexpressed the hnrnpH/F-orthologue Glorund (Glo) in Drosophila, which was also found to be abundant in poor quality human sperm. Transgenic animals produced low numbers of morphologically defective spermatozoa and aberrant formation of the "dense body," an organelle akin to the mammalian manchette. Furthermore, fertility trials demonstrated that transgenic flies were either completely infertile or highly subfertile. These findings suggest that dysregulation of hnrnpH/F is likely to result in the production of low-quality semen, leading to subfertility or infertility in men.
ABSTRACT
Squamous cell carcinoma antigen recognized by T cells 3 (SART3) is an RNA-binding protein with numerous biological functions including recycling small nuclear RNAs to the spliceosome. Here, we identify recessive variants in SART3 in nine individuals presenting with intellectual disability, global developmental delay and a subset of brain anomalies, together with gonadal dysgenesis in 46,XY individuals. Knockdown of the Drosophila orthologue of SART3 reveals a conserved role in testicular and neuronal development. Human induced pluripotent stem cells carrying patient variants in SART3 show disruption to multiple signalling pathways, upregulation of spliceosome components and demonstrate aberrant gonadal and neuronal differentiation in vitro. Collectively, these findings suggest that bi-allelic SART3 variants underlie a spliceosomopathy which we tentatively propose be termed INDYGON syndrome (Intellectual disability, Neurodevelopmental defects and Developmental delay with 46,XY GONadal dysgenesis). Our findings will enable additional diagnoses and improved outcomes for individuals born with this condition.
Subject(s)
Gonadal Dysgenesis , Induced Pluripotent Stem Cells , Intellectual Disability , Male , Humans , Testis/metabolism , Induced Pluripotent Stem Cells/metabolism , RNA-Binding Proteins/genetics , RNA-Binding Proteins/metabolism , Antigens, NeoplasmABSTRACT
The Drosophila ovary is regenerated from germline and somatic stem cell populations that have provided fundamental conceptual understanding on how adult stem cells are regulated within their niches. Recent ovarian transcriptomic studies have failed to identify mRNAs that are specific to follicle stem cells (FSCs), suggesting that their fate may be regulated post-transcriptionally. We have identified that the RNA-binding protein, Musashi (Msi) is required for maintaining the stem cell state of FSCs. Loss of msi function results in stem cell loss, due to a change in differentiation state, indicated by upregulation of Lamin C in the stem cell population. In msi mutant ovaries, Lamin C upregulation was also observed in posterior escort cells that interact with newly formed germ cell cysts. Mutant somatic cells within this region were dysfunctional, as evidenced by the presence of germline cyst collisions, fused egg chambers and an increase in germ cell cyst apoptosis. The msi locus produces two classes of mRNAs (long and short). We show that FSC maintenance and escort cell function specifically requires the long transcripts, thus providing the first evidence of isoform-specific regulation in a population of Drosophila epithelial cells. We further demonstrate that although male germline stem cells have previously been shown to require Msi function to prevent differentiation this is not the case for female germline stem cells, indicating that these similar stem cell types have different requirements for Msi, in addition to the differential use of Msi isoforms between soma and germline. In summary, we show that different isoforms of the Msi RNA-binding protein are expressed in specific cell populations of the ovarian stem cell niche where Msi regulates stem cell differentiation, niche cell function and subsequent germ cell survival and differentiation.
ABSTRACT
Genetic ablation of the Lyn tyrosine kinase has revealed unique inhibitory roles in B lymphocyte signaling. We now report the consequences of sustained activation of Lyn in vivo using a targeted gain-of-function mutation (Lyn(up/up) mice). Lyn(up/up) mice have reduced numbers of conventional B lymphocytes, down-regulated surface immunoglobulin M and costimulatory molecules, and elevated numbers of B1a B cells. Lyn(up/up) B cells are characterized by the constitutive phosphorylation of negative regulators of B cell antigen receptor (BCR) signaling including CD22, SHP-1, and SHIP-1, and display attributes of lymphocytes rendered tolerant by constitutive engagement of the antigen receptor. However, exaggerated positive signaling is also apparent as evidenced by the constitutive phosphorylation of Syk and phospholipase Cgamma2 in resting Lyn(up/up) B cells. Similarly, Lyn(up/up) B cells show a heightened calcium flux in response to BCR stimulation. Surprisingly, Lyn(up/up) mice develop circulating autoreactive antibodies and lethal autoimmune glomerulonephritis, suggesting that enhanced positive signaling eventually overrides constitutive negative signaling. These studies highlight the difficulty in maintaining tolerance in the face of chronic stimulation and emphasize the pivotal role of Lyn in B cell signaling.
Subject(s)
Autoimmunity , B-Lymphocytes/metabolism , Signal Transduction , src-Family Kinases/metabolism , Animals , Antigen-Antibody Complex , Antigens, CD/immunology , Antigens, CD/metabolism , Autoantibodies/blood , Autoimmune Diseases/immunology , Autoimmune Diseases/pathology , B-Lymphocytes/immunology , Calcium/metabolism , Cell Separation , Cells, Cultured , Enzyme Activation , Female , Flow Cytometry , Glomerulonephritis/immunology , Glomerulonephritis/pathology , Humans , Immunoglobulins/immunology , Immunoglobulins/metabolism , Kidney/immunology , Lymph Nodes/cytology , Lymph Nodes/pathology , Male , Mice , Mice, Inbred C57BL , Mice, Transgenic , Phenotype , Point Mutation , Spleen/cytology , Spleen/pathology , Up-Regulation , src-Family Kinases/genetics , src-Family Kinases/immunologyABSTRACT
ESRP1 regulates alternative splicing, producing multiple transcripts from its target genes in epithelial tissues. It is upregulated during mesenchymal to epithelial transition associated with reprogramming of fibroblasts to iPS cells and has been linked to pluripotency. Mouse fetal germ cells are the founders of the adult gonadal lineages and we found that Esrp1 mRNA was expressed in both male and female germ cells but not in gonadal somatic cells at various stages of gonadal development (E12.5-E15.5). In the postnatal testis, Esrp1 mRNA was highly expressed in isolated cell preparations enriched for spermatogonia but expressed at lower levels in those enriched for pachytene spermatocytes and round spermatids. Co-labelling experiments with PLZF and c-KIT showed that ESRP1 was localized to nuclei of both Type A and B spermatogonia in a speckled pattern, but was not detected in SOX9+ somatic Sertoli cells. No co-localization with the nuclear speckle marker, SC35, which has been associated with post-transcriptional splicing, was observed, suggesting that ESRP1 may be associated with co-transcriptional splicing or have other functions. RNA interference mediated knockdown of Esrp1 expression in the seminoma-derived Tcam-2 cell line demonstrated that ESRP1 regulates alternative splicing of mRNAs in a non-epithelial cell germ cell tumour cell line.
Subject(s)
Germ Cells/metabolism , RNA-Binding Proteins/metabolism , Spermatogenesis/physiology , Testis/growth & development , Testis/metabolism , Alternative Splicing , Animals , Cell Line, Tumor , Cells, Cultured , Female , Gene Expression , Germ Cells/cytology , Male , Mice, Inbred C57BL , RNA, Messenger/metabolism , Testis/cytologyABSTRACT
OBJECTIVES: This study aims to characterize personal attitudes and knowledge of a sample of Italian occupational physicians (OPhs) towards immunization practice in the case of healthcare workers (HCWs). MATERIAL AND METHODS: A total of 90 OPhs (42.2% of males, 57.8% of females, mean age of 50.1±8.3 years old) compiled a structured questionnaire through a telephonic interview. They were asked about the official Italian recommendations for HCWs, their general knowledge of vaccine practice, their propensity towards vaccines (both in general and about specific immunizations), their risk perception about the vaccine-preventable infectious diseases. Eventually, a regression analysis was performed in order to identify factors predictive for vaccine propensity. RESULTS: Only 12 out of 90 subjects correctly identified all the 7 recommended immunizations. The hepatitis B virus (HBV) vaccine was correctly identified by 95.6% of the sample, and was also associated with the more positive attitude and the more accurate risk perception. Influenza vaccine had the lowest acceptance (75.9%). Eventually, pertussis, measles, parotitis and varicella vaccines were insufficiently recognized as recommended ones (all cases < 50% of the sample). General knowledge of vaccine and knowledge of official recommendations were significantly correlated with the attitude towards immunization practice (r = 0.259, p = 0.014 and r = 0.438, p < 0.0001). In the regression analysis general knowledge (unstandardized coefficient (B) = 0.300, 95% confidence interval (CI): 0.090-0.510, p = 0.006) and risk perception (B = 0.579, 95% CI: 0.155-1.003, p = 0.008) were significant predictors of the propensity to vaccinate. CONCLUSIONS: Vaccinations gaps in HCWs may found their roots in OPhs incomplete knowledge of evidence-based recommendations. Specific training programs and formations courses should then be planned. Int J Occup Med Environ Health 2017;30(5):775-790.
Subject(s)
Health Knowledge, Attitudes, Practice , Health Personnel , Occupational Diseases/prevention & control , Vaccination/statistics & numerical data , Adult , Cross-Sectional Studies , Female , Humans , Italy , Male , Middle Aged , Occupational Medicine/statistics & numerical data , Pilot Projects , Surveys and QuestionnairesABSTRACT
Epithelial stem cells from a variety of tissues have been shown to express genes linked to mesenchymal cell states. The Snail family of transcriptional factors has long been regarded as a marker of mesenchymal cells, however recent studies have indicated an involvement in regulation of epithelial stem cell populations. Snai1 is expressed in the stem cell population found at the base of the mouse small intestinal crypt that is responsible for generating all differentiated cell types of the intestinal epithelium. We utilized an inducible Cre recombinase approach in the intestinal epithelium combined with a conditional floxed Snai1 allele to induce knockout of gene function in the stem cell population. Loss of Snai1 resulted in loss of crypt base columnar cells and a failure to induce a proliferative response following radiation damage. We induced Snai1 loss in cultured organoids that had been derived from epithelial cells and compared gene expression to organoids with functional Snai1. Here we describe in detail the methods for generation of knockout organoids and analysis of microarray data that has been deposited in Gene Expression Omnibus (GEO):GSE65005.
ABSTRACT
The vertebrate RNA-binding proteins, Musashi-1 (Msi-1) and Musashi-2 (Msi-2) are expressed in multiple stem cell populations. A role for Musashi proteins in preventing stem cell differentiation has been suggested from genetic analysis of the Drosophila family member, dMsi, and both vertebrate Msi proteins function co-operatively to regulate neural stem cell behaviour. Here we have identified a second Drosophila Msi family member, Rbp6, which shares more amino acid identity with vertebrate Msi-1 and Msi-2 than dMsi. We generated an antibody that detects most Rbp6 splice isoforms and show that Rbp6 is expressed in multiple tissues throughout development. However, Rbp6 deletion mutants generated in this study are viable and fertile, and show only minor defects. We used Drosophila spermatogonial germline stem cells (GSC's) as a model to test whether Drosophila Msi proteins function redundantly to regulate stem cell behaviour. However, like vertebrate Msi-1 and Msi-2, Rbp6 and Msi do not appear to be co-expressed in spermatogenic GSC's and do not function co-operatively in the regulation of GSC maintenance. Thus while two Msi family members are present in Drosophila, the function of the family members have diverged.
Subject(s)
Drosophila Proteins/genetics , Drosophila/genetics , Germ Cells/metabolism , RNA-Binding Proteins/genetics , Stem Cells/metabolism , Vertebrates/genetics , Animals , Cell Death/genetics , Drosophila/metabolism , Drosophila Proteins/metabolism , Gene Expression Regulation, Developmental , Gene Order , Juvenile Hormones/metabolism , Organ Specificity/genetics , Protein Binding , RNA-Binding Proteins/metabolism , Sequence Deletion , Spermatogenesis/genetics , Vertebrates/metabolismABSTRACT
Snail genes are transcriptional repressors well known to play important roles in epithelial to mesenchymal transitions during both embryogenesis and cancer metastasis. Although they are generally regarded as markers of mesenchymal cells, Snail genes have also recently been implicated in regulating stem cell populations in both Drosophila and vertebrates. In this study we investigate Snai1, a member of the mouse Snail family, in the intestinal stem cell niche and examine the relationship between canonical Wnt signaling, a key regulatory pathway of intestinal stem cells, and expression and cellular localization of Snai1. Strong nuclear expression of Snai1 was detected in the crypt base columnar stem cells in the adult small intestine while Snai1 was mostly found in the cytoplasm of differentiated enterocytes and enteroendocrine cells. Expression and cellular localization of Snai1 in the intestinal epithelium appears to be regulated by the canonical Wnt signaling pathway as Snai1 expression was dramatically reduced after conditional deletion of ß-catenin. Conversely, significant nuclear Snai1 was detected in polyps derived from Apc(min) mice and in intestinal villi after conditional mutation of Apc in AhCre, Apc(f/f) mice, indicating that upregulation of the Wnt pathway in the intestinal epithelium induces both increased expression and nuclear localization of Snai1.
Subject(s)
Intestinal Mucosa/cytology , Signal Transduction , Stem Cell Niche/metabolism , Transcription Factors/genetics , Wnt Proteins/metabolism , Adenomatous Polyposis Coli Protein/genetics , Animals , Cell Nucleus/metabolism , Colon/anatomy & histology , Colon/cytology , Colon/metabolism , Intestinal Polyps/metabolism , Intestinal Polyps/pathology , Intestine, Small/cytology , Intestine, Small/metabolism , Mice , Mice, Inbred C57BL , Mice, Mutant Strains , Organ Specificity , Snail Family Transcription Factors , Transcription Factors/metabolism , beta Catenin/metabolismABSTRACT
The etiology of asthma, a chronic inflammatory disorder of the airways, remains obscure, although T cells appear to be central disease mediators. Lyn tyrosine kinase has been implicated as both a facilitator and inhibitor of signaling pathways that play a role in allergic inflammation, although its role in asthma is unclear because Lyn is not expressed in T cells. We show in the present study that Lyn-/- mice develop a severe, persistent inflammatory asthma-like syndrome with lung eosinophilia, mast cell hyperdegranulation, intensified bronchospasm, hyper IgE, and Th2-polarizing dendritic cells. Dendritic cells from Lyn-/- mice have a more immature phenotype, exhibit defective inhibitory signaling pathways, produce less IL-12, and can transfer disease when adoptively transferred into wild-type recipients. Our results show that Lyn regulates the intensity and duration of multiple asthmatic traits and indicate that Lyn is an important negative regulator of Th2 immune responses.