Publications by authors named "Escoffier J"
Article Synopsis
- - A study involving 167 infertile patients identified bi-allelic mutations in the CCDC146 gene, linked to a condition known as multiple morphological abnormalities of the flagellum (MMAF) affecting sperm structure.
- - Researchers developed a knock-out mouse model, which showed that male mice lacking CCDC146 were infertile and had sperm characteristics similar to those of the mutated patients.
- - CCDC146 is important for the proper formation of sperm structures like the axoneme and other microtubule-related organelles, highlighting its role as a microtubule inner protein (MIP) that can lead to infertility when mutated.
Article Synopsis
- * Researchers discovered homozygous variants linked to the condition in four unrelated patients, which disrupted the localization of certain proteins essential for sperm flagellum function.
- * The study identified ZMYND12 as a new gene associated with asthenoteratozoospermia, which forms a complex with other proteins critical for sperm motility, affecting male fertility.
Article Synopsis
- - The enzyme phospholipase A2 (PLA2G10) enhances the acrosome reaction in mouse sperm, improving fertilization rates, and its action involves an autocrine feedback loop where it amplifies its own secretion.
- - In IVF studies, sperm from mice lacking PLA2G10 produced fewer embryos, but adding recombinant PLA2G10 could restore fertility; the catalytic activity of PLA2G10 is crucial, as shown by how inhibitors affect fertility outcomes.
- - The mutated form of PLA2G10, which has low enzymatic activity but binds well to the receptor PLA2R1, shows varying effects on fertility depending on the mouse strains used, indicating that PLA2G10's role in
Male infertility is an important health concern that is expected to have a major genetic etiology. Although high-throughput sequencing has linked gene defects to more than 50% of rare and severe sperm anomalies, less than 20% of common and moderate forms are explained. We hypothesized that this low success rate could at least be partly due to oligogenic defects - the accumulation of several rare heterozygous variants in distinct, but functionally connected, genes.
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- * A study using a mouse model discovered that male offspring from mothers on a low-protein diet during pregnancy and nursing had normal sperm structure and count but reduced fertility as adults.
- * The research highlights that maternal nutritional stress can alter sperm capacitation, lowering fertilization success while leaving sperm production unchanged, suggesting implications for understanding and treating certain infertility cases.
Article Synopsis
- Animal venoms are rich in bioactive components that target important cell surface receptors, such as ion channels and G protein-coupled receptors, which are crucial for sperm cell motility and the acrosome reaction.
- Researchers screened venom from the Egyptian black snake and discovered a new toxin called walterospermin that enhances sperm motility in vitro from male mice.
- Walterospermin is a 57-amino acid peptide with a structure resembling other snake toxins and shows potential in activating sperm motility across various species, including humans, indicating its possible therapeutic applications for infertility.
Article Synopsis
- Research indicates that Proton Pump Inhibitors (PPIs) have varying effects on human sperm, with some studies showing a negative impact on sperm parameters but yielding contradictory results between different PPIs.
- In a new study, 6 PPIs were tested, revealing that pantoprazole specifically reduced sperm motility and disrupted important capacitation processes, while other PPIs did not show significant adverse effects.
- The findings suggest that the usage of pantoprazole by women could potentially hinder sperm maturation and fertilization, highlighting the need for further investigation into the effects of PPIs on reproductive health.
Article Synopsis
- Male infertility is a significant health issue, with multiple morphological abnormalities of the flagella (MMAF) being a severe form that causes asthenozoospermia due to irregular sperm flagella.
- Six genes linked to MMAF have been identified; however, many cases remain unexplained, indicating more undiscovered gene defects.
- Whole-exome sequencing revealed that mutations in the ARMC2 gene cause the MMAF phenotype in both humans and mice, highlighting its crucial role in sperm flagellum structure and assembly.
Article Synopsis
- Successful artificial insemination (AI) depends on the precise timing of sperm delivery to coincide with ovulation, as sperm only survive a limited time due to metabolic processes.
- The study investigated the effects of clofilium, a KCNU1 channel inhibitor, on sperm capacitation, revealing that it slows down capacitation and extends the fertilizing lifespan of both murine and bovine sperm.
- Clofilium application led to significant increases in fertilization rates and blastocyst formation without toxic effects on sperm DNA or embryos, marking a novel approach to enhancing AI efficiency.
Article Synopsis
- The genetic basis of oocyte meiotic deficiency (OMD), a primary infertility issue linked to immature egg production, is under-researched.
- A study using whole exome sequencing revealed that 26% of individuals with OMD carried the same harmful mutation in the PATL2 gene, which is thought to be crucial for RNA regulation.
- Experiments with knockout mice indicated that the absence of PATL2 disrupts oocyte development and maturation by affecting key gene expressions, establishing PATL2 as an important factor in mammalian fertility.
Article Synopsis
- High throughput sequencing (HTS) helps identify genetic variants and genes related to diseases, while CRISPR/Cas9 allows researchers to create models to study these variants and their effects.
- Researchers examined 78 infertile men with sperm flagella anomalies and discovered that 63% had homozygous mutations in certain genes through whole exome sequencing (WES).
- By creating mouse models using CRISPR/Cas9, they confirmed these genetic findings and found a high rate of germline mosaicism, indicating that mutational events continued to occur after initial editing; this combination of techniques proved effective for studying infertility.
Article Synopsis
- Spermatogenesis issues affect millions of men globally, but many remain undiagnosed.
- The research identified 22 men with primary infertility linked to mutations in genes DNAH1, CFAP43, and CFAP44, confirmed through genetic sequencing.
- CRISPR/Cas9 experiments on mice demonstrated that CFAP43 and CFAP44 are crucial for producing functional sperm flagella, underscoring their importance across different species.
Article Synopsis
- The gonad serves as a valuable system for studying how cells decide their fates, especially concerning somatic progenitor cells and the transcription processes involved in cell differentiation.
- Through time-series single-cell RNA sequencing of XY mouse gonads, researchers identified a distinct group of somatic progenitor cells that exist before sex determination.
- The study reveals that some of these progenitors evolve into Sertoli cells with a dynamic genetic program, while others change transcriptionally to restrict their capabilities toward becoming fetal Leydig cells, highlighting a unique multipotent progenitor population in gonadal development.
Azoospermia, characterized by the absence of spermatozoa in the ejaculate, is a common cause of male infertility with a poorly characterized etiology. Exome sequencing analysis of two azoospermic brothers allowed the identification of a homozygous splice mutation in encoding a serine protease inhibitor believed to target acrosin, the main sperm acrosomal protease. In accord with these findings, we observed that homozygous KO male mice had azoospermia.
View Article and Find Full Text PDFThe endocrine disruptor bis(2-ethylhexyl) phthalate (DEHP) has been shown to exert adverse effects on the male animal reproductive system. However, its mode of action is unclear and a systematic analysis of its molecular targets is needed. In the present study, we investigated the effects of prenatal exposure to 300 mg/kg/day DEHP during a critical period for gonads differentiation to testes on male mice offspring reproductive parameters, including the genome-wide RNA expression and associated promoter methylation status in the sperm of the first filial generation.
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- Researchers explored the venom of the scorpion Scorpio maurus palmatus to find compounds that could improve sperm motility, which is crucial for fertilization success.
- A specific peptide containing disulfide bonds (73 amino acids long) was isolated, showing significant enhancement of sperm motility in multiple mammalian species, including humans.
- The study involved analyzing various venom fractions, purifying the effective peptide, and testing its impact on sperm from both human and animal sources, revealing its potential applications in treating fertility issues.
Selective transport of pyruvate across the inner mitochondrial membrane by the mitochondrial pyruvate carrier (MPC) is a fundamental step that couples cytosolic and mitochondrial metabolism. The recent molecular identification of the MPC complex has revealed two interacting subunits, MPC1 and MPC2. Although in yeast, an additional subunit, MPC3, can functionally replace MPC2, no alternative MPC subunits have been described in higher eukaryotes.
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- - In mammals, sperm-oocyte fusion triggers calcium (Ca(2+)) oscillations that are essential for oocyte activation, a crucial step for embryo development, primarily mediated by sperm-specific proteins like PLCZ1 and potentially PAWP.
- - A study of two infertile brothers revealed a harmful mutation in PLCZ1 that disrupted its function in sperm, leading to fertilization failure by causing abnormal Ca(2+) activity and early embryonic development issues.
- - The findings underscore that the absence of PLCZ1 is enough to impede oocyte activation, highlighting its critical role in fertilization, and indicate opportunities for further research on the protein’s structure and function relating to fertility.
Article Synopsis
- The study investigates the roles of different phospholipase A2 (PLA2) isoforms in the sperm acrosome reaction (AR), particularly in spontaneous and progesterone (P4)-induced reactions.
- It finds that iPLA2β is essential for spontaneous AR, while both iPLA2β and secreted group X PLA2 contribute to P4-induced AR; cytosolic PLA2α is not necessary for either.
- Additionally, sperm utilize distinct PLA2 pathways depending on the timing and concentration of P4, with lower concentrations showing different reliance on iPLA2β and group X PLA2 during early and late stages of the reaction.
Background: Male infertility affects >20 million men worldwide and represents a major health concern. Although multifactorial, male infertility has a strong genetic basis which has so far not been extensively studied. Recent studies of consanguineous families and of small cohorts of phenotypically homogeneous patients have however allowed the identification of a number of autosomal recessive causes of teratozoospermia.
View Article and Find Full Text PDFTo gain fertilizing capacity, mammalian sperm should reside in the female tract for a period of time. The physiological changes that render the sperm able to fertilize are known as capacitation. Capacitation is associated with an increase in intracellular pH, an increase in intracellular calcium, and phosphorylation of different proteins.
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- The acrosome is crucial for sperm function, and defects in its development can lead to globozoospermia, a serious form of male infertility.
- Research has identified the DPY19L2 gene as a significant factor in this process, affecting how the acrosome attaches to the nuclear envelope.
- The study further explores the role of the Sun5 protein in this attachment, revealing that it does not interact with the acrosome directly and suggesting that the acrosome's attachment mechanism may not rely on SUN complexes as previously thought.
Mammalian sperm acquire fertilizing ability in the female tract in a process known as capacitation. At the molecular level, capacitation is associated with up-regulation of a cAMP-dependent pathway, changes in intracellular pH, intracellular Ca(2+), and an increase in tyrosine phosphorylation. How these signaling systems interact during capacitation is not well understood.
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- The DPY19L2 gene has been identified as a key cause of globozoospermia, contributing to 70% of cases, and knockout mice serve as effective models for studying its biological effects.
- Recent findings indicate that PLCζ, crucial for initiating Ca(2+) oscillations during fertilization, is absent or significantly reduced in sperm from individuals with DPY19L2-related globozoospermia, leading to their poor fertilization capacity.
- The research also reveals the localization of PLCζ in normal human sperm, emphasizing its role in oocyte activation, while defects in sperm chromatin compaction in DPY19L2 knockout mice are linked to sperm DNA damage, further explaining infertility challenges.