SARS-CoV-2 spike antigen-specific B cell and antibody responses in pre-vaccination period COVID-19 convalescent males and females with or without post-covid condition

Background Following SARS-CoV-2 infection a significant proportion of convalescent individuals develop the post-COVID condition (PCC) that is characterized by wide spectrum of symptoms encompassing various organs. Even though the underlying pathophysiology of PCC is not known, detection of viral transcripts and antigens in tissues other than lungs raise the possibility that PCC may be a consequence of aberrant immune response to the viral antigens. To test this hypothesis, we evaluated B cell and antibody responses to the SARS-CoV-2 antigens in PCC patients who experienced mild COVID-19 disease during the pre-vaccination period of COVID-19 pandemic. Methods The study subjects included unvaccinated male and female subjects who developed PCC or not (No-PCC) after clearing RT-PCR confirmed mild COVID-19 infection. SARS-CoV-2 D614G and omicron RBD specific B cell subsets in peripheral circulation were assessed by flow cytometry. IgG, IgG3 and IgA antibody titers toward RBD, spike and nucleocapsid antigens in the plasma were evaluated by ELISA. Results The frequency of the B cells specific to D614G-RBD were comparable in convalescent groups with and without PCC in both males and females. Notably, in females with PCC, the anti-D614G RBD specific double negative (IgD-CD27-) B cells showed significant correlation with the number of symptoms at acute of infection. Anti-spike antibody responses were also higher at 3 months post-infection in females who developed PCC, but not in the male PCC group. On the other hand, the male PCC group also showed consistently high anti-RBD IgG responses compared to all other groups. Conclusions The antibody responses to the spike protein, but not the anti-RBD B cell responses diverge between convalescent males and females who develop PCC. Our findings also suggest that sex-related factors may also be involved in the development of PCC via modulating antibody responses to the SARS-CoV-2 antigens

SARS-CoV-2 spike antigen-specific B cell and antibody responses in pre-vaccination period COVID-19 convalescent males and females with or without post-covid condition

BackgroundFollowing SARS-CoV-2 infection a significant proportion of convalescent individuals develop the post-COVID condition (PCC) that is characterized by wide spectrum of symptoms encompassing various organs. Even though the underlying pathophysiology of PCC is not known, detection of viral transcripts and antigens in tissues other than lungs raise the possibility that PCC may be a consequence of aberrant immune response to the viral antigens. To test this hypothesis, we evaluated B cell and antibody responses to the SARS-CoV-2 antigens in PCC patients who experienced mild COVID-19 disease during the pre-vaccination period of COVID-19 pandemic.MethodsThe study subjects included unvaccinated male and female subjects who developed PCC or not (No-PCC) after clearing RT-PCR confirmed mild COVID-19 infection. SARS-CoV-2 D614G and omicron RBD specific B cell subsets in peripheral circulation were assessed by flow cytometry. IgG, IgG3 and IgA antibody titers toward RBD, spike and nucleocapsid antigens in the plasma were evaluated by ELISA.ResultsThe frequency of the B cells specific to D614G-RBD were comparable in convalescent groups with and without PCC in both males and females. Notably, in females with PCC, the anti-D614G RBD specific double negative (IgD-CD27-) B cells showed significant correlation with the number of symptoms at acute of infection. Anti-spike antibody responses were also higher at 3 months post-infection in females who developed PCC, but not in the male PCC group. On the other hand, the male PCC group also showed consistently high anti-RBD IgG responses compared to all other groups.ConclusionsThe antibody responses to the spike protein, but not the anti-RBD B cell responses diverge between convalescent males and females who develop PCC. Our findings also suggest that sex-related factors may also be involved in the development of PCC via modulating antibody responses to the SARS-CoV-2 antigens

Implication of cytosolic and secreted phospholipases A[subscript 2] in the control of osteoclastogenesis and human osteoclasts’ functions.

Les eicosanoïdes sont des médiateurs importants qui encadrent et régulent les fonctions osseuses. Leur production est sous la tutelle des phospholipases A[indice inférieur 2] qui permettent la relâche d’acide arachidonique et de lysophospholipides puis de leur métabolisme subséquent des membranes cellulaires. Les PLA[indice inférieur 2] sécrétées ont également comme particularité de pouvoir exercer leurs effets directement via leurs récepteurs membranaires comme ligand. Malgré l’implication connue des prostaglandines sur les fonctions ostéoclastiques et dans plusieurs processus pathologiques résultants en érosion osseuse, les phospholipases A[indice inférieur 2] ostéoclastiques restent inconnues et leurs rôles, spéculatifs. Les études présentées démontrent la présence de la cPLA[indice inférieur 2]-α et de la sPLA[indice inférieur 2] IIA chez les ostéoclastes humains. Par contre, leur expression semble différer selon l’état de l’os. En effet, la cPLA[indice inférieur 2]-α semble exprimée ubiquitairement, mais la sPLA[indice inférieur 2] IIA n’est détectable que dans l’os fœtal ou atteint de la maladie de Paget et n’est pas exprimée dans l’os sain, ostéoporotique ou arthrosique. La sPLA[indice inférieur 2] IIA semble donc exprimée en condition de fort remodelage osseux. Dans notre modèle, la cPLA[indice inférieur 2]-α revêt un rôle anti-ostéoclastogénique. En effet, la cPLA[indice inférieur 2]- α produit des écosanoïdes qui inhibent l’ostéoclastogenèse. Ces derniers sensibilisent les ostéoclastes à l’apoptose. En revanche, un certain degré d’activation de la cPLA[indice inférieur 2]-α est requis pour la résorption osseuse, car son inhibition bloque la résorption osseuse en désorganisant les anneaux d’actine requis pour la résorption, et ce, de façon dépendante de la production d’acide arachidonique. En ce qui a trait à la sPLA[indice inférieur 2] IIA, elle stimule l’ostéoclastogenèse indépendamment de son activité catalytique, probablement via l’un de ses récepteurs membranaires. D’autre part, elle confère une résistance à l’apoptose autant chez les ostéoclastes matures que chez leurs précurseurs CD14+. Par contre, l’inhibition de la sPLA[indice inférieur 2] IIA bloque la résorption osseuse indépendamment du remodelage du cytosquelette d’actine, probablement via leur apoptose. Les résultats inclus dans cette thèse semblent donc démontrer la présence de deux PLA[indice inférieur 2]s chez les ostéoclastes humains ainsi que leur attribuer des rôles en physiologie et pathologie osseuse. Ces évidences pourraient faire des PLA[indice inférieur 2] de nouvelles cibles thérapeutiques pour le traitement de pathologies ostéo-articulaires, dont la maladie osseuse de Paget. // Abstract : Eicosanoïds are important mediators of bone biology. The first regulated enzymes in the biosynthetic pathway of eicosanoids are the PLA[subscript 2]s, which release arachidonic acid and lysophospholipids from membrane phospholipids. Further metabolism of arachidonic acid will lead, among other things, to the synthesis of prostaglandins, which deeply influence bone metabolism. Secreted PLA[subscript 2]s (sPL[subscript 2]) may also act independently of their catalytic activity, as a ligand to their membrane bound receptors. Even though PLA[subscript 2]s have been associated with joint and bone pathologies, their presence and functions were never investigated in osteoclasts (OCs), the principal cell responsible for bone destruction. Our study established the presence of cPLA[subscript 2] and sPLA[subscript 2] in human OCs, but demonstrated a contrast in their expression. cPLA[subscript 2] seems to be expressed ubiquitously, contrary to sPLA[subscript 2] whose expression is restricted to OCs from foetal bone and bone suffering from Paget disease. There is no trace of sPLA[subscript 2] in healthy bone or bone suffering from osteoarthrosis or osteoporosis, thus sPLA[subscript 2] seems tightly linked to high bone turnover. In our model, cPLA[subscript 2] exerted an anti-osteoclastogenic effect. Indeed, cPLA[subscript 2] produces eicosanoïds that inhibit osteoclastogenesis and sensitize OCs to apoptosis. Nevertheless, a minimum cPLA[subscript 2] activity is required since complete cPLA[subscript 2] inhibition blocks osteoclast mediated bone resorption. Its inhibition leads to disorganization of the OC cytoskeleton and inhibits the actin ring formation required for bone resorption in an arachidonic acid dependent fashion. On the other hand, sPLA[subscript 2] stimulates osteoclastogenesis independently of its catalytic activity; probably via interaction with one of its membrane bound receptors. sPLA[subscript 2] decreases OC and their CD14+ precursors’ sensibility to apoptosis. Moreover, sPLA[subscript 2] inhibition inhibits bone resorption independently of actin cytoskeleton remodeling, probably by inducing mature OC apoptosis. Together, these results demonstrate the presence of two PLA[subscript 2]s in human OCs and highlight their important roles in bone physiology and pathophysiology. Highlighting those functions could eventually lead to the elaboration of new strategies to control hyperosteoclastic states by targeting PL[subscript 2]s

Implication of cytosolic and secreted phospholipases A[subscript 2] in the control of osteoclastogenesis and human osteoclasts’ functions.

Les eicosanoïdes sont des médiateurs importants qui encadrent et régulent les fonctions osseuses. Leur production est sous la tutelle des phospholipases A[indice inférieur 2] qui permettent la relâche d’acide arachidonique et de lysophospholipides puis de leur métabolisme subséquent des membranes cellulaires. Les PLA[indice inférieur 2] sécrétées ont également comme particularité de pouvoir exercer leurs effets directement via leurs récepteurs membranaires comme ligand. Malgré l’implication connue des prostaglandines sur les fonctions ostéoclastiques et dans plusieurs processus pathologiques résultants en érosion osseuse, les phospholipases A[indice inférieur 2] ostéoclastiques restent inconnues et leurs rôles, spéculatifs. Les études présentées démontrent la présence de la cPLA[indice inférieur 2]-α et de la sPLA[indice inférieur 2] IIA chez les ostéoclastes humains. Par contre, leur expression semble différer selon l’état de l’os. En effet, la cPLA[indice inférieur 2]-α semble exprimée ubiquitairement, mais la sPLA[indice inférieur 2] IIA n’est détectable que dans l’os fœtal ou atteint de la maladie de Paget et n’est pas exprimée dans l’os sain, ostéoporotique ou arthrosique. La sPLA[indice inférieur 2] IIA semble donc exprimée en condition de fort remodelage osseux. Dans notre modèle, la cPLA[indice inférieur 2]-α revêt un rôle anti-ostéoclastogénique. En effet, la cPLA[indice inférieur 2]- α produit des écosanoïdes qui inhibent l’ostéoclastogenèse. Ces derniers sensibilisent les ostéoclastes à l’apoptose. En revanche, un certain degré d’activation de la cPLA[indice inférieur 2]-α est requis pour la résorption osseuse, car son inhibition bloque la résorption osseuse en désorganisant les anneaux d’actine requis pour la résorption, et ce, de façon dépendante de la production d’acide arachidonique. En ce qui a trait à la sPLA[indice inférieur 2] IIA, elle stimule l’ostéoclastogenèse indépendamment de son activité catalytique, probablement via l’un de ses récepteurs membranaires. D’autre part, elle confère une résistance à l’apoptose autant chez les ostéoclastes matures que chez leurs précurseurs CD14+. Par contre, l’inhibition de la sPLA[indice inférieur 2] IIA bloque la résorption osseuse indépendamment du remodelage du cytosquelette d’actine, probablement via leur apoptose. Les résultats inclus dans cette thèse semblent donc démontrer la présence de deux PLA[indice inférieur 2]s chez les ostéoclastes humains ainsi que leur attribuer des rôles en physiologie et pathologie osseuse. Ces évidences pourraient faire des PLA[indice inférieur 2] de nouvelles cibles thérapeutiques pour le traitement de pathologies ostéo-articulaires, dont la maladie osseuse de Paget. // Abstract : Eicosanoïds are important mediators of bone biology. The first regulated enzymes in the biosynthetic pathway of eicosanoids are the PLA[subscript 2]s, which release arachidonic acid and lysophospholipids from membrane phospholipids. Further metabolism of arachidonic acid will lead, among other things, to the synthesis of prostaglandins, which deeply influence bone metabolism. Secreted PLA[subscript 2]s (sPL[subscript 2]) may also act independently of their catalytic activity, as a ligand to their membrane bound receptors. Even though PLA[subscript 2]s have been associated with joint and bone pathologies, their presence and functions were never investigated in osteoclasts (OCs), the principal cell responsible for bone destruction. Our study established the presence of cPLA[subscript 2] and sPLA[subscript 2] in human OCs, but demonstrated a contrast in their expression. cPLA[subscript 2] seems to be expressed ubiquitously, contrary to sPLA[subscript 2] whose expression is restricted to OCs from foetal bone and bone suffering from Paget disease. There is no trace of sPLA[subscript 2] in healthy bone or bone suffering from osteoarthrosis or osteoporosis, thus sPLA[subscript 2] seems tightly linked to high bone turnover. In our model, cPLA[subscript 2] exerted an anti-osteoclastogenic effect. Indeed, cPLA[subscript 2] produces eicosanoïds that inhibit osteoclastogenesis and sensitize OCs to apoptosis. Nevertheless, a minimum cPLA[subscript 2] activity is required since complete cPLA[subscript 2] inhibition blocks osteoclast mediated bone resorption. Its inhibition leads to disorganization of the OC cytoskeleton and inhibits the actin ring formation required for bone resorption in an arachidonic acid dependent fashion. On the other hand, sPLA[subscript 2] stimulates osteoclastogenesis independently of its catalytic activity; probably via interaction with one of its membrane bound receptors. sPLA[subscript 2] decreases OC and their CD14+ precursors’ sensibility to apoptosis. Moreover, sPLA[subscript 2] inhibition inhibits bone resorption independently of actin cytoskeleton remodeling, probably by inducing mature OC apoptosis. Together, these results demonstrate the presence of two PLA[subscript 2]s in human OCs and highlight their important roles in bone physiology and pathophysiology. Highlighting those functions could eventually lead to the elaboration of new strategies to control hyperosteoclastic states by targeting PL[subscript 2]s

Management of pemphigoid vegetans with mycophenolate mofetil: A case report

Pemphigoid vegetans is a rare variant of bullous pemphigoid. Only 13 cases have been documented in the medical literature. The lesions clinically resemble pemphigus vegetans, but the histology is consistent with bullous pemphigoid. We present the case of a 63-year-old woman with painful vesicular and vegetative lesions progressing for 4 months. Histopathology showed a dermal-epidermal cleavage, epidermal acanthosis and an eosinophilic infiltrate. Direct immunofluorescence showed linear deposition of IgG and IgA at the junctional level. The diagnosis of pemphigoid vegetans was retained and successfully treated with oral corticosteroid, dapsone and mycophenolate mofetil

Adipocyte hypertrophy associates with in vivo postprandial fatty acid metabolism and adipose single-cell transcriptional dynamics

Summary: Adipocyte hypertrophy is associated with metabolic complications independent of obesity. We aimed to determine: 1) the association between adipocyte size and postprandial fatty acid metabolism; 2) the potential mechanisms driving the obesity-independent, hypertrophy-associated dysmetabolism in vivo and at a single-cell resolution. Tracers with positron emission tomography were used to measure fatty acid metabolism in 40 men and women with normal or impaired glucose tolerance (NCT02808182), and single nuclei RNA-sequencing (snRNA-seq) to determine transcriptional dynamics of subcutaneous adipose tissue (AT) between individuals with AT hypertrophy vs. hyperplasia matched for sex, ethnicity, glucose-tolerance status, BMI, total and percent body fat, and waist circumference. Adipocyte size was associated with high postprandial total cardiac fatty acid uptake and higher visceral AT dietary fatty acid uptake, but lower lean tissue dietary fatty acid uptake. We found major shifts in cell transcriptomal dynamics with AT hypertrophy that were consistent with in vivo metabolic changes

Osteoclast microRNA Profiling in Rheumatoid Arthritis to Capture the Erosive Factor

In rheumatoid arthritis (RA), only a subset of patients develop irreversible bone destruction. Our aim was to identify a microRNA (miR)‐based osteoclast‐related signature predictive of erosiveness in RA. Seventy‐six adults with erosive (E) or nonerosive (NE) seropositive RA and 43 sex‐ and age‐matched healthy controls were recruited. Twenty‐five miRs from peripheral blood mononuclear cell (PBMC)‐derived osteoclasts selected from RNA‐Seq (discovery cohort) were assessed by qPCR (replication cohort), as were 33 target genes (direct targets or associated with regulated pathways). The top five miRs found differentially expressed in RA osteoclasts were either decreased (hsa‐miR‐34a‐3p, 365b‐3p, 374a‐3p, and 511‐3p [E versus NE]) or increased (hsa‐miR‐193b‐3p [E versus controls]). In vitro, inhibition of miR‐34a‐3p had an impact on osteoclast bone resorption. An integrative network analysis of miRs and their targets highlighted correlations between mRNA and miR expression, both negative (CD38, CD80, SIRT1) and positive (MITF), and differential gene expression between NE versus E (GXYLT1, MITF) or versus controls (CD38, KLF4). Machine‐learning models were used to evaluate the value of miRs and target genes, in combination with clinical data, to predict erosion. One model, including a set of miRs (predominantly 365b‐3p) combined with rheumatoid factor titer, provided 70% accuracy (area under the curve [AUC] 0.66). Adding genes directly targeted or belonging to related pathways improved the predictive power of the model for the erosive phenotype (78% accuracy, AUC 0.85). This proof‐of‐concept study indicates that identification of RA subjects at risk of erosions may be improved by studying miR expression in PBMC‐derived osteoclasts, suggesting novel approaches toward personalized treatment. © 2023 The Authors. JBMR Plus published by Wiley Periodicals LLC on behalf of American Society for Bone and Mineral Research

Cytotoxic CD4+ T lymphocytes may induce endothelial cell apoptosis in systemic sclerosis

Systemic sclerosis (SSc) is an autoimmune fibrotic disease whose pathogenesis is poorly understood and lacks effective therapies. We undertook quantitative analyses of T cell infiltrates in the skin of 35 untreated patients with early diffuse SSc and here show that CD4+ cytotoxic T cells and CD8+ T cells contribute prominently to these infiltrates. We also observed an accumulation of apoptotic cells in SSc tissues, suggesting that recurring cell death may contribute to tissue damage and remodeling in this fibrotic disease. HLA-DR-expressing endothelial cells were frequent targets of apoptosis in SSc, consistent with the prominent vasculopathy seen in patients with this disease. A circulating effector population of cytotoxic CD4+ T cells, which exhibited signatures of enhanced metabolic activity, was clonally expanded in patients with systemic sclerosis. These data suggest that cytotoxic T cells may induce the apoptotic death of endothelial and other cells in systemic sclerosis. Cell loss driven by immune cells may be followed by overly exuberant tissue repair processes that lead to fibrosis and tissue dysfunction

Induction of Metabolic Quiescence Defines the Transitional to Follicular B Cell Switch

Transitional B cells must actively undergo selection for self-tolerance before maturing into their resting follicular B cell successors. We found that metabolic quiescence was acquired at the follicular B cell stage in both humans and mice. In follicular B cells, the expression of genes involved in ribosome biogenesis, aerobic respiration, and mammalian target of rapamycin complex 1 (mTORC1) signaling was reduced when compared to that in transitional B cells. Functional metabolism studies, profiling of whole-cell metabolites, and analysis of cell surface proteins in human B cells suggested that this transition was also associated with increased extracellular adenosine salvage. Follicular B cells increased the abundance of the cell surface ectonucleotidase CD73, which coincided with adenosine 5′-monophosphate–activated protein kinase (AMPK) activation. Differentiation to the follicular B cell stage in vitro correlated with surface acquisition of CD73 on human transitional B cells and was augmented with the AMPK agonist, AICAR. Last, individuals with gain-of-function PIK3CD (PI3Kδ) mutations and increased pS6 activation exhibited a near absence of circulating follicular B cells. Together, our data suggest that mTORC1 attenuation may be necessary for human follicular B cell development. These data identify a distinct metabolic switch during human B cell development at the transitional to follicular stages, which is characterized by an induction of extracellular adenosine salvage, AMPK activation, and the acquisition of metabolic quiescence