A human infertility-associated KASH5 variant promotes mitochondrial localization

KASH5 is the most recently identified member of the KASH domain family of tail anchored, outer nuclear membrane (ONM) and endoplasmic reticulum (ER) proteins. During meiosis prophase I, KASH5 and SUN1 form a complex that spans the nuclear envelope and which links the telomeres of meiotic chromosomes to cytoplasmic dynein. This connection is essential for homologous chromosome dynamics and pairing. A recent study identified a variant in human KASH5 (L535Q) that correlated with male infertility associated with azoospermia. However, no molecular mechanism was described. Here, we report that this amino acid substitution, within the KASH5 transmembrane domain (TMD) has no predicted effects on secondary structure. However, the overall hydrophobicity of the L535Q TMD, is calculated to be lower than the wild-type KASH5, based on the GES (Goldman–Engelman–Steitz) amino acid hydrophobicity scale. This change in hydrophobicity profoundly affects the subcellular localization of KASH5. Through a series of amino acid substitution studies, we show that the L535Q substitution perturbs KASH5 localization to the ER and ONM and instead results in mistargeting to the mitochondria membrane. We suggest that this mislocalization accounts for the infertility and azoospermia phenotype in patients.Other Information Published in: Scientific Reports License: https://creativecommons.org/licenses/by/4.0See article on publisher's website: http://dx.doi.org/10.1038/s41598-021-89439-2</p

Src pathway and β-adrenergic receptor in human and experimental Pulmonary Arterial Hypertension

L’hypertension artérielle pulmonaire idiopathique (HTAPi) se caractérise par une une augmentation des résistances vasculaire, une augmentation de la PAPm et à long terme une insuffisance ventriculaire droite. La dysfonction endothéliale est l’événement initial de la maladie. Elle résulte d’un déséquilibre de synthèse des molécules vasoactives, d’un défaut de production de facteurs de croissance. Ces perturbations affectent directement le muscle lisse adjacent qui en réponse produit une vasoconstriction et une prolifération excessive. Le muscle lisse possède également ses propres anomalies intrinsèques contribuant à amplifier son phénotype vasoconstrictif et prolifératif. Actuellement, les thérapeutiques de l’HTAP ne permettent pas de corriger le remodelage vasculaire et les données cliniques soulignent leur manque d’efficacité en ce qui concerne la survie des patients. Ces travaux de doctorat ont visé à proposer de nouvelles approches thérapeutiques. Dans cette optique, nous nous sommes intéressés à l’implication de la kinase Src dans la pathogenèse de l’HTAP. Nous avons montré que l’augmentation du niveau de Src dans les CML-AP été associée au développement de l’HTAPi. Aussi, nous avons montré que l’inhibition de Src, avec des molécules spécifiques, prévient la prolifération des CML-AP in vitro et réverse l’HTAP dans un modèle expérimental induit par la monocrotaline. Dans un second temps, nous nous sommes intéressés à l’inhibition des récepteurs adrénergiques dans l’HTAP. Nous avons comparé les effets du nébivolol, un β-bloquant de troisième génération qui possède des propriétés vasodilatatrices, aux effets du métoprolol, un β-bloquant de deuxième génération. Nous avons montré que le nébivolol, contrairement au métoprolol, a des effets positifs sur la dysfonction endothéliale, la relaxation des artères pulmonaires et sur le modèle expérimental de l’HP induite par la monocrotaline. Ainsi au cours de ce doctorat, nous avons caractérisé deux stratégies thérapeutiques différentes qui ont montré toutes deux un potentiel intéressant pour le traitement de l’HTAP.Idiopathic Pulmonary Arterial Hypertension (iPAH) is characterized by an increased vascular resistance, increase pulmonary artery pressure, and at long term, a right ventricular failure. Endothelial dysfunction is the initial event of this pathology. It is a result of altered vasoactive molecules synthesis, altered growth factors production. These alterations directly affect the neighboring smooth muscle which produces an important vasoconstriction and a significant proliferation. Also, the smooth muscle has its own intrinsic abnormalities that participate in its vasoconstriction and proliferation phenotypes.It is to note that to date, PAH treatment strategies do not improve the vascular remodeling. Moreover, clinical results show no efficiency of these treatments on patient survival. Accordingly, this thesis studies have targeted new and better therapeutic approaches. To this aim, we have fist oriented our research toward the involvement of Src kinase in PAH pathology. We found that increased Src level in the Pulmonary Artery Smooth Muscle Cells (PA-SMC) was associated with PAH development. Also, we have showed that, in vitro, Src inhibition, with specific molecules, prevent PA-SMC proliferation and revert PAH in a monocrotaline-induced experimental model. The second aim of this thesis work was oriented toward beta-adrenergic receptor inhibition in PAH. We have compared the effect of both the nebivolol, which is a third generation of b-blockers that has a vasodilation proterties, and metoprolol, which is a second generation of -blockers. Our results show that, as opposite to metoprolol, nebivolol has positive effects on endothelial dysfunctions, pulmonary artery relaxation, and on monocrotaline-induced PH in rats.Therefore, during this thesis, we have characterized two different therapeutic strategies that both show interesting potential in PAH treatment

Rôle de la voie Src et des récepteurs β-adrénergiques dans l’Hypertension Artérielle Pulmonaire Humaine et Expérimentale

Idiopathic Pulmonary Arterial Hypertension (iPAH) is characterized by an increased vascular resistance, increase pulmonary artery pressure, and at long term, a right ventricular failure. Endothelial dysfunction is the initial event of this pathology. It is a result of altered vasoactive molecules synthesis, altered growth factors production. These alterations directly affect the neighboring smooth muscle which produces an important vasoconstriction and a significant proliferation. Also, the smooth muscle has its own intrinsic abnormalities that participate in its vasoconstriction and proliferation phenotypes.It is to note that to date, PAH treatment strategies do not improve the vascular remodeling. Moreover, clinical results show no efficiency of these treatments on patient survival. Accordingly, this thesis studies have targeted new and better therapeutic approaches. To this aim, we have fist oriented our research toward the involvement of Src kinase in PAH pathology. We found that increased Src level in the Pulmonary Artery Smooth Muscle Cells (PA-SMC) was associated with PAH development. Also, we have showed that, in vitro, Src inhibition, with specific molecules, prevent PA-SMC proliferation and revert PAH in a monocrotaline-induced experimental model. The second aim of this thesis work was oriented toward beta-adrenergic receptor inhibition in PAH. We have compared the effect of both the nebivolol, which is a third generation of b-blockers that has a vasodilation proterties, and metoprolol, which is a second generation of -blockers. Our results show that, as opposite to metoprolol, nebivolol has positive effects on endothelial dysfunctions, pulmonary artery relaxation, and on monocrotaline-induced PH in rats.Therefore, during this thesis, we have characterized two different therapeutic strategies that both show interesting potential in PAH treatment.L’hypertension artérielle pulmonaire idiopathique (HTAPi) se caractérise par une une augmentation des résistances vasculaire, une augmentation de la PAPm et à long terme une insuffisance ventriculaire droite. La dysfonction endothéliale est l’événement initial de la maladie. Elle résulte d’un déséquilibre de synthèse des molécules vasoactives, d’un défaut de production de facteurs de croissance. Ces perturbations affectent directement le muscle lisse adjacent qui en réponse produit une vasoconstriction et une prolifération excessive. Le muscle lisse possède également ses propres anomalies intrinsèques contribuant à amplifier son phénotype vasoconstrictif et prolifératif. Actuellement, les thérapeutiques de l’HTAP ne permettent pas de corriger le remodelage vasculaire et les données cliniques soulignent leur manque d’efficacité en ce qui concerne la survie des patients. Ces travaux de doctorat ont visé à proposer de nouvelles approches thérapeutiques. Dans cette optique, nous nous sommes intéressés à l’implication de la kinase Src dans la pathogenèse de l’HTAP. Nous avons montré que l’augmentation du niveau de Src dans les CML-AP été associée au développement de l’HTAPi. Aussi, nous avons montré que l’inhibition de Src, avec des molécules spécifiques, prévient la prolifération des CML-AP in vitro et réverse l’HTAP dans un modèle expérimental induit par la monocrotaline. Dans un second temps, nous nous sommes intéressés à l’inhibition des récepteurs adrénergiques dans l’HTAP. Nous avons comparé les effets du nébivolol, un β-bloquant de troisième génération qui possède des propriétés vasodilatatrices, aux effets du métoprolol, un β-bloquant de deuxième génération. Nous avons montré que le nébivolol, contrairement au métoprolol, a des effets positifs sur la dysfonction endothéliale, la relaxation des artères pulmonaires et sur le modèle expérimental de l’HP induite par la monocrotaline. Ainsi au cours de ce doctorat, nous avons caractérisé deux stratégies thérapeutiques différentes qui ont montré toutes deux un potentiel intéressant pour le traitement de l’HTAP

A human infertility-associated KASH5 variant promotes mitochondrial localization

KASH5 is the most recently identified member of the KASH domain family of tail anchored, outer nuclear membrane (ONM) and endoplasmic reticulum (ER) proteins. During meiosis prophase I, KASH5 and SUN1 form a complex that spans the nuclear envelope and which links the telomeres of meiotic chromosomes to cytoplasmic dynein. This connection is essential for homologous chromosome dynamics and pairing. A recent study identified a variant in human KASH5 (L535Q) that correlated with male infertility associated with azoospermia. However, no molecular mechanism was described. Here, we report that this amino acid substitution, within the KASH5 transmembrane domain (TMD) has no predicted effects on secondary structure. However, the overall hydrophobicity of the L535Q TMD, is calculated to be lower than the wild-type KASH5, based on the GES (Goldman–Engelman–Steitz) amino acid hydrophobicity scale. This change in hydrophobicity profoundly affects the subcellular localization of KASH5. Through a series of amino acid substitution studies, we show that the L535Q substitution perturbs KASH5 localization to the ER and ONM and instead results in mistargeting to the mitochondria membrane. We suggest that this mislocalization accounts for the infertility and azoospermia phenotype in patients.Other Information Published in: Scientific Reports License: https://creativecommons.org/licenses/by/4.0See article on publisher's website: http://dx.doi.org/10.1038/s41598-021-89439-2</p

Nebivolol for Improving Endothelial Dysfunction, Pulmonary Vascular Remodeling, and Right Heart Function in Pulmonary Hypertension

International audienceEndothelial cell (EC) dysfunction plays a central role in the pathogenesis of pulmonary arterial hypertension (PAH), promoting vasoconstriction, smooth muscle proliferation, and inflammation

T-type Ca 2+ channels elicit pro-proliferative and anti-apoptotic responses through impaired PP2A/Akt1 signaling in PASMCs from patients with pulmonary arterial hypertension

International audienceIdiopathic pulmonary arterial hypertension (iPAH) is characterized by obstructive hyperproliferation and apoptosis resistance of distal pulmonary artery smooth muscle cells (PASMCs). T-type Ca2+ channel blockers have been shown to reduce experimental pulmonary hypertension, although the impact of T-type channel inhibition remains unexplored in PASMCs from iPAH patients. Here we show that T-type channels Cav3.1 and Cav3.2 are present in the lung and PASMCs from iPAH patients and control subjects. The blockade of T-type channels by the specific blocker, TTA-A2, prevents cell cycle progression and PASMCs growth. In iPAH cells, T-type channel signaling fails to activate phosphatase PP2A, leading to an increase in ERK1/2, P38 activation. Moreover, T-type channel signaling is redirected towards the activation of the kinase Akt1, leading to increased expression of the anti-apoptotic protein survivin, and a decrease in the pro-apoptotic mediator FoxO3A. Finally, in iPAH cells, Akt1 is no longer able to regulate caspase 9 activation, whereas T-type channel overexpression reverses PP2A defect in iPAH cells but reinforces the deleterious effects of Akt1 activation. Altogether, these data highlight T-type channel signaling as a strong trigger of the pathological phenotype of PASMCs from iPAH patients (hyper-proliferation/cells survival and apoptosis resistance), suggesting that both T-type channels and PP2A may be promising therapeutic targets for pulmonary hypertension