Tissue fibrosis is a major cause of mortality that results from the deposition of matrix proteins by an activated mesenchyme. Macrophages accumulate in fibrosis, but the role of specific subgroups in supporting fibrogenesis has not been investigated in vivo. Here we used single-cell RNA sequencing (scRNA-seq) to characterize the heterogeneity of macrophages in bleomycin-induced lung fibrosis in mice. A novel computational framework for the annotation of scRNA-seq by reference to bulk transcriptomes (SingleR) enabled the subclustering of macrophages and revealed a disease-associated subgroup with a transitional gene expression profile intermediate between monocyte-derived and alveolar macrophages. These CX3CR1 + SiglecF + transitional macrophages localized to the fibrotic niche and had a profibrotic effect in vivo . Human orthologues of genes expressed by the transitional macrophages were upregulated in samples from patients with idiopathic pulmonary fibrosis. Thus, we have identified a pathological subgroup of transitional macrophages that are required for the fibrotic response to injury.
In this review we highlight recent progress in the study of Rheb family GTPases. Structural studies using X-ray crystallography and NMR have given us insight into unique features of this GTPase. Combined with mutagenesis studies, these works have expanded our understanding of residues that affect Rheb GTP/GDP bound ratios, effector protein interactions, and stimulation of mTORC1 signaling. Analysis of cancer genome databases has revealed that several human carcinomas contain activating mutations of the protein. Rheb’s role in activating mTORC1 signaling at the lysosome in response to stimuli has been further elucidated. Rheb has also been suggested to play roles in other cellular pathways including mitophagy and peroxisomal ROS response. A number of studies in mice have demonstrated the importance of Rheb in development, as well as in a variety of functions including cardiac protection and myelination. We conclude with a discussion of future prospects in the study of Rheb family GTPases.
Background Anosmia and ageusia are symptoms commonly associated with COVID-19, but the relationship with disease severity, onset and recovery are unclear. Objective To examine factors associated with anosmia and ageusia and the recovery from these symptoms in an ethnically diverse cohort. Methods Individuals tested for SARS-CoV-2 between March and April 2020 were eligible for the study. Randomly selected participants answered a telephone questionnaire on COVID-19 symptoms with a focus on anosmia and ageusia. Additionally, relevant past medical history and data on the COVID-19 clinical course were obtained from electronic medical records. 486 patients were in the COVID-19 group and 103 were COVID-19-negative. Results Patients who were younger were more likely to report anosmia and/or ageusia (odds ratio (OR) for anosmia per 1-year increase in age: 0·98, 95%CI:0–97-0·99, p = 0·003; for ageusia: 0·98, 95%CI:0·97-0·99, p = 0·005) as were patients with lower eosinophil counts (OR for anosmia per 0.1-K/μL increase in eosinophils: 0·02, 95%CI:0·001-0·46, p = 0·01, for ageusia 0·10, 95%CI:0·01-0·97, p = 0·047). Male gender was independently associated with a lower probability of ageusia (OR:0·56, 95%CI:0·38-0·82, p = 0·003) and earlier sense of taste recovery (HR:1·44, 95%CI:1·05-1·98, p = 0·02). Latinos showed earlier sense of taste recovery than white patients (HR:1·82, 95%CI:1·05-3·18, p = 0·03). Conclusion Anosmia and ageusia were more common among younger patients and those with lower blood eosinophil counts. Ageusia was less commonly reported among men, and time to taste recovery was earlier among both men and Latinos.
The popularity of electronic cigarettes (e-cigs) that utilize nicotine salts has rapidly increased since the introduction of JUUL pods in 2015. The immunotoxicology of nicotine salts in the respiratory tract is understudied. We hypothesized that nicotine salt counteranions induce airway inflammation and alter immune responses to inhaled allergens independent of nicotine. METHODS: The nicotine salt counteranions lactate, levulinate, salicylate or benzoate (5% solution) were administered to C57BL/6J mice by oropharyngeal aspiration daily for three days (acute exposure model) or three times weekly for three weeks (persistent exposure model). In some studies, mice were also exposed to house dust mite (HDM) allergen alone or in combination with benzoate three times weekly for three weeks. Airway inflammation was assessed by enumeration of inflammatory cells in bronchoalveolar lavage fluid and lung histology. RESULTS: Acute exposure to nicotine salt counteranions induced an influx of neutrophils into the airways. Persistent exposure to nicotine salt counteranions resulted in a mixed neutrophilic and lymphocytic airway inflammatory response. Neither acute nor persistent exposure to nicotine salt counteranions caused airway eosinophilia. In a HDM-mediated allergic airway inflammation model, co-exposure to benzoate and HDM increased the percentage of airway neutrophils but decreased the percentage of eosinophils compared to HDM alone. CONCLUSIONS: Both acute and persistent exposure to nicotine salt counteranions induces airway inflammation in mice independent of nicotine. Benzoate also induced neutrophilic inflammation in a HDMmediated allergic airway inflammation model, suggesting that exposure to e-cigs containing nicotine salts may promote a neutrophilic asthma phenotype.
Background HSV2 increases HIV risk and is twice as common among women. We previously showed that cervicovaginal secretions exhibit innate anti-HSV2 activity that was lower in adolescents and women with HIV-- conditions associated with vaginal dysbiosis and increased HSV shedding. Our current study aims to test the hypothesis that vaginal dysbiosis is associated with low anti-HSV activity and to explore the molecules and mechanisms that contribute. Methods Cervicovaginal lavage (CVL) (10 ml normal saline wash) was collected from 20 women who presented with clinical bacterial vaginosis (BV) (Day 0) and then 1 and 4 weeks after completing a 7-day oral metronidazole course; parent study results were reported (PMID 34003290). Anti-HSV2 activity of CVL (diluted 1:4) was determined by plaque reduction assay. CVL IgG, IgA, cytokines and antimicrobial peptides were quantified by ELISA or multiplex Luminex and select microbiota by quantitative real-time PCR. CVL was enriched for IgA and IgG using protein L (binds all Ig) and Protein G (binds only IgG). HSV-specific antibodies in CVL were assessed by ELISA. Statistical analyses including Spearman correlation coefficients (SCC) were performed with GraphPad Prism version 9.1.2 software. Results Anti-HSV2 activity of CVL was highly variable at Day 0 (mean 18.6% SD 36.7) and trended to increase after treatment (mean 22.56% SD 33.8). The anti-HSV2 activity correlated positively with Nugent scores (SCC= -0.28, p= 0.03) and qPCR levels of BV-associated microbes (SCC = -0.2 to -0.3, p< -0.1) but positively with IgA (r= 0.49, p< 0.01) and IgG (r= 0.33, p= 0.01). IgA and IgG were isolated from pools of CVL with high inhibitory activity greater than 40% (n= 8). The anti-HSV2 activity mapped to the IgA fraction (56.5% inhibition) compared to the IgG or non-Ig fraction (0% inhibition) even though, as expected, the CVL concentration of IgG was higher than IgA (8.3μg/mL vs 4.9 μg/mL). The anti-HSV2 activity did not correlate with HSV-specific Ig in CVL. Conclusion Our findings suggest that secretory vaginal IgA contributes to innate anti-HSV2 activity and may trap viral particles to prevent viral entry. We speculate that sialidases, which cleave IgA and are elaborated by BV-associated microbiota, contribute to the low anti-HSV2 activity observed in high-risk cohorts. Disclosures Betsy Herold, MD, Viracor (Eurofins): Advisor/Consultant|X-Vax, Technologies: Advisor/Consultant|X-Vax, Technologies: Grant/Research Support|X-Vax, Technologies: Serve on Scientific Advisory Board for X-Vax, Technologies and receiving reserach funding for related worl. Betsy Herold, MD, Viracor (Eurofins): Advisor/Consultant|X-Vax, Technologies: Advisor/Consultant|X-Vax, Technologies: Grant/Research Support|X-Vax, Technologies: Serve on Scientific Advisory Board for X-Vax, Technologies and receiving reserach funding for related worl.
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