ABSTRACT
Background. SARS-CoV-2 infection can be accompanied by neuromuscular disorders. Rhabdomyolysis and Guillain-Barre syndrome have been described repeatedly. There are case reports of inflammatory myopathies manifesting during COVID-19, presenting as dermatomyositis, polymyositis or immune-mediated necrotizing myopathy, with dermatomyositis-like presentations most commonly reported. Larger cases series are from postmortem examinations of COVID-19 patients, where variable inflammatory pathology of the skeletal muscle has been found frequently but without local detection of the actual virus. Thus, autoimmune mechanisms or the systemic interferon response are discussed as causes. We report a case of focal inflammatory myopathy with perimysial pathology of the temporalis muscle occurring with acute, but mild COVID-19. Methods. Case report of clinical observations, cranial MRI, histopathological, and laboratory findings. 3T cranial MRI was performed with gadolinium contrast. Open temporalis muscle biopsy was performed. The sample underwent standard cryohistological studies as well as immunohistochemistry with antibodies against MHC-I and II, CD3, CD4, CD19, CD68, anti-MAC, p62 and MxA. Testing for auto-antibodies was based on immunoblots or ELISA. RT-PCR for SARS-CoV-2 was run with RNA extracted from cryopreserved muscle. Results. A Caucasian woman in her 60s with no history of autoimmune or muscle complaints developed swelling and pain of the right jaw musculature five days after testing positive for SARS-CoV-2 due to respiratory tract symptoms. In addition, she experienced trismus, but no further neuromuscular complaints. The course of respiratory tract symptoms stayed mild. She had been vaccinated previously with single shot SARS-CoV-2 vector vaccine. Due to persistent swelling and complaints, giant cells arteritis was excluded by unresponsiveness to five days oral steroids and sonography of the temporal artery. Cranial MRI was performed nearly four weeks after the SARS-CoV-2 infection and showed marked swelling and oedema of the temporalis muscle. Its biopsy showed numerous CD68 and acid phosphatase positive cells infiltrating from perimysial perivascular foci towards the endomysium with perimysial damage but little damage of adjacent, perifascicular muscle fibres. Muscle fibres did not react with anti-MHC-II, anti-MAC or -MxA. Capillaries did not react with anti-MAC or -MxA. SARS-CoV-2 RNA was not detected in muscle tissue. Serum creatine kinase was not elevated in the subacute phase. Slightly elevated ANA titre led to detection of autoantibodies against proliferating cell nuclear antigen (PCNA). No pathological results for other autoantibodies, including myositis-specific antibodies and anti-ds-DNA, were found in blood. Neither were antibodies against hepatitis C and B viruses. Retesting 15 weeks after infection, anti-PCNA immunoblot was still positive, but ELISA did not indicate a pathologic titre. The swelling, myalgia and trismus regressed spontaneously a month after onset, yet the latter still persists at the time of reporting. Conclusion. Our case diverges from the majority of COVID-19 associated my-ositis reports in the unusual location of the focal myositis and the histopathological pattern of predominantly perimysial damage and histiocytic infiltration. It concurs with the literature as no SARS-CoV2 RNA could be detected in the muscle. Anti-PCNA is associated very rarely with myositis. Other associated disorder (systemic lupus erythematosus, chronic viral hepatitis B or C) were not found. Increased levels of autoantibodies are reported in COVID-19 and mostly attributed to loss of self-tolerance during the acute disease phase. Interestingly, the structural protein M of SARS-CoV-2 appears to interact notably with PCNA in infected cells. Still, the causal connection between the myositis and COVID-19 in this case is based on the close temporal association in the absence of alternative, competing explanations from the medical history and findings.
ABSTRACT
Background: It is well established that diabetic patients infected with COVID-19- are at higher risk of developing severe symptoms that may lead to death. Such observation argues for the possibility that SARS-CoV-2 may target and infect pancreatic islets. SARSCoV- 2 is thought to enter the cells through the binding of viral spike S1 protein to ACE2. The cellular entry process includes priming of the S protein by TMPRSS2 and ADAM17, which facilitate the binding and promote ACE2 shedding. To date, no conclusive evidence has emerged to address the expression of TMPRSS2 and ADMA17 or the interaction between SARS-CoV-2 and human pancreatic islets. Method(s): Microarray and RNA-sequencing (RNA-seq) expression data from human islets were used to profile the expression pattern of ACE2, ADAM17, and TMPRSS2 in diabetic and non-diabetic subjects. Result(s): Pancreatic islets express all three receptors regardless of diabetes status. ACE2 expression was significantly elevated in diabetic islets than non-diabetic. Female donors showed to have higher ACE2 expression compared to males, whereas ADAM17 and TMPRSS2 were not affected by gender. No difference in the expression of the three receptors in young (<=40 years old) compared to old (>=60 years old) islets. Obese donors (BMI>30) showed significantly higher expression levels of ADAM17 and TMPRSS2 as compared to non-obese (BMI<25). Expression of TMPRSS2 was associated positively with HbA1c and inversely with age, while ADAM17 and TMPRSS2 were associated positively with BMI. Muscle and subcutaneous adipose tissues showed similar expression of the three receptors in diabetic and nondiabetic donors. Conclusion(s): ACE2 expression is increased in diabetic human islets. More studies are warranted to understand the permissiveness of human pancreatic beta-cells to SARS-Cov-2 and whether variations of ACE2 expression could explain the severity of COVID-19 infection between diabetics and non-diabetic patients.
ABSTRACT
Case report - Introduction: Bacterial community-acquired atypical pneumonia is sometimes complicated by myositis or by renal parenchymal disease. They can present with myositis and present with muscle weakness, pain or swelling, and elevated muscle enzymes. We present the case of a patient with lower limb weakness and raised creatinine kinase with atypical pneumonia caused by Legionella pneumophila. Case report - Case description: A 76-year-old Caucasian man, who was previously fit and independent and walked 3 miles every day presented with a 1-week history of progressive leg weakness, and inability to mobilize. He had a fall and was on the floor for 2 hours. He had a background history of hypercholesterolemia and was on atorvastatin for 15 years. On his vital observation, he was found tachypnoeic, tachycardic, and hypoxic. He had a right upper lobe crackle but he didn't have respiratory symptoms. His muscle power in his leg was 3/5 with carpet burns on knees and elbow. Initial investigation showed raised inflammatory marker CRP 412mg/L, AKI stage 1, and CK 43400 IU/L. His CXR showed dense right upper lobe consolidation. Legionella urinary antigen was positive. Myositis myoblot, ANA, ANCA negative. COVID-19 swab negative. Treated with IV antibiotic, supplemental oxygen, and IV fluid. Transferred to ITU due to worsening of hypoxia and kidney function. Interestingly, the CK level had improved significantly within 48 hours along with clinical improvement in his symptoms. There was no role of steroid or immunosuppressant due to his significant clinical improvement. On day 7 he was off oxygen, kidney function improved, had physiotherapy, and transferred to ward and on day 10 he was ambulant and discharged home. Case report - Discussion: To date, very few case reports of myositis in a patient with atypical pneumonia have been reported. The mechanism underlying acute myositis in atypical pneumonia is still unknown. The present analysis points out that the organism underlying atypical bacterial pneumonia may occasionally invade the muscle tissue thereby inducing both myositis and secondary kidney damage. Case report - Key learning points: We should be aware of this rare complication of atypical pneumonia and the resolution of symptoms that occur with the treatment of pneumonia. This would avoid unnecessary investigation and use of steroid.
ABSTRACT
COVID-19 convalescents are at risk of developing acute sarcopenia. In elderly patients, the risk is exceptionally high, giv-en the presence of predisposing factors and the initial sarcopenic state before the onset of infection. This phenotype is referred to as <<acute chronic>> sarcopenia in the literature. It is now known that sarcopenia is associated with an increased risk of falls, fractures, and hospital admissions, reduced quality of life, disability, higher incidence of hospital-acquired infection in older pa-tients, mortality, and according to recent data, the risk of developing adverse COVID-19 outcomes. Therefore, timely diagnostic and preventive measures can be crucial in increasing survival and improving the quality of life in patients with sarcopenia. The review analyzed data from publicly available scientific sources from PubMed/MedLine, Elsevier, and eLibrary, accumulated over the pandemic years. Also, a comprehensive evaluation of various factors during the new coronavirus infection potentiating the development and progression of sarcopenia was performed. Understanding and further enhancing knowledge of the pathogenetic mechanisms of muscle tissue damage associated with COVID-19 is necessary to develop different management strategies and ef-fective preventive measures for such patients. Copyright © 2022, Media Sphera Publishing Group. All rights reserved.
ABSTRACT
Objective: To investigate the effects of miR-221-3p on the proliferation and apoptosis of vascular smooth muscle cells (VSMC) in abdominal aortic aneurysm (AAA) by targeting tissue inhibitor of metalloproteinase- 2 (TIMP-2).
ABSTRACT
Background: Gastric muscularis propria immune cells play an instrumental role in homeostasis and disease. A subset of these cells, muscularis macrophages (MMs) are involved in the pathobiology of diabetic gastroparesis (DG) but are poorly understood. This study aims to survey transcriptional and functional profiling of gastric MMs in DG and diabetes. Methods: Full-thickness gastric body biopsies were obtained from patients with DG and diabetic controls. CD45+ cells were isolated from dissociated muscle tissue using magnetic beads. 10xGenomics was used for scRNA-seq library prep and cells sequenced by Illumina HiSeq4000. Bioinformatic analyses was performed using Suite and Seurat. Myeloid cells were annotated through a pseudogating strategy that identifies cells by differential expression levels of HLA-DR, CD14, CD11b, and CD11c based on flow cytometry-based gating utilized in a recent analysis of human small intestinal MMs. Canonical signaling pathways were determined using Ingenuity Pathway Analysis (IPA). Results: A total of 21,740 high-quality single-cell transcriptomes were generated from 16 subjects (DG=6, age 32±8 yr, BMI 23.7±3.9, 48.2±40.1% 4 hr gastric retention, average GCSI score 3.7±0.5;Diabetic controls= 10, age 53±13 yr, BMI 42.2±5.7). Through annotating 8,693 myeloid cells (DG 1509, Controls 7184), we characterized 1,788 as MMs (CD45+HLA-DR+) and 448 as dendritic cells (CD14-CD11c+). Utilizing a priori markers for pseudogating, the MMs were divided into four populations (Figure 1): subset 1 (CD14+CD11c+HLA-DRint, 5.6%), subset 2 (CD14+CD11c+HLA-DRhi, 36.0%), subset 3 (CD14+CD11c-CD11b-, 41.8%), and subset 4 (CD14+CD11c-CD11b+, 16.6%). The overall proportions of cells in the 4 subsets were similar to a prior approach in small bowel using gating. The expected ratio of cells from DG/diabetic control was 21% based on imputed cells. Subsets 1 and 4 were significantly decreased in DG compared to controls with ratios 15% and 14% respectively while subsets 2 and 3 were unchanged (21% and 20%). On IPA, phagosome formation and immune cell trafficking represented canonical signaling pathways of subset 1 and coronavirus phagocytosis pathway and phagosome formation of subset 4. Canonical genes of subset 1 included S100A12, A8, A9, and CSTA and subset 4 as LYVE1, MAF, MRC1 (CD206), MS4A4, and A2M. Subset 4 also had the highest expression of neuron-related genes (NPTX2, BMP2) similar to that observed in the small intestine. Conclusions: Pseudogating based on the transcriptomic expression of gastric immune cells reveal MM clusters similar in gene expression and proportions to previously characterized MMs in human small bowel using gating. The reduction of MM clusters associated with anti-inflammatory, phagocytosis, and neuronal signaling in specialized MMs subsets may suggest candidate targets in the pathophysiology of DG. Supported by NIHDK074008. (Figure Presented) Figure 1. Single-Cell RNA-Seq Profiling of Human Gastric Muscularis Macrophages in DG and Diabetes. T-distributed Stochastic Neighbor Embedding (tSNE) plot of muscularis macrophages in DG and diabetic control subjects by their differential genes from MAST (FDR < 0.05), color-coded by Status. *Mf1 and Mf2 not visualized as distinct clusters due to inadequate separation of overall gene expression in cells distinguished by HLA-DRint (Mf1) and HLA-DRhi (Mf2)
ABSTRACT
Background: Rapid and large-scale deployment of COVID-19 mRNA vaccines highlights the potential utility of developing nucleic acid vaccines (such as RNA and DNA vaccines) against infectious diseases, including HIV-1. However, as compared to SARS-CoV-2, HIV-1 pose some unique challenges-induction of neutralizing antibodies (NAbs) against HIV-1 (frequently a correlate of protection) requires presentation of trimeric and highly conformational epitopes to the immune system, and whether nucleic acid vaccines can enable direct in vivo production of antigens that retain critical antigenic profile has not yet been elucidated. Additionally, it was previously reported that Tier 2 NAbs cannot be induced in mice due to a lack of antibody repertoire, and vaccine studies were suggested to be performed in larger mammals such as rabbits/NHPs, inadvertently slowing down and increasing the costs of preclinical HIV-1 vaccine studies. Methods: In our study, we used the Antigen Conformation Tracing In Vivo by ELISA (ACTIVE) assay developed in house to characterize antigenic profiles of vaccines produced in vivo (from transfected muscle tissues). We analyzed induced cellular responses, using stimulation with overlapping peptides followed by intracellular cytokine staining and IFN-g ELIspot assays. We analyzed induced humoral responses by using both binding ELISA assays and TZM-BL based neutralizing assays, and attempted to map induced NAb epitopes by engineering selectively mutated pseudovirus. We performed antigen-specific B-cell sorting, and used the 10x genomics pipeline to characterize antibody sequences of proliferating B-cell clones. Results: We confirmed that in vivo produced vaccines retained key trimeric conformational epitopes and glycan profiles. Compared to protein vaccination, DNA vaccination uniquely and strongly induced both TFH, CD4+, CD8+ T-cell responses, and Tier 2 NAbs mapped to a previously unreported Env C3/V5 epitope. 5 unique NAbs were isolated, and confirmed to bind to the epitope using a Cryo-EM structure of NAb-MD39 complex at 3.8Å resolution. Conclusion: Our study confirmed that with appropriate vaccine delivery technology, murine models can be appropriately used for HIV-1 vaccine studies aimed at generating NAb responses. In addition, beyond potential functional immunity gains, DNA vaccines permit in vivo folding of structured antigens and provide significant cost and speed advantages for enabling rapid evaluation of new HIV vaccines.
ABSTRACT
Objective: Ever since the times of ancient physicians and surgeons like Sushruta (600 BC) or Hippocrates (400 BC), it is clear that physical development of individuals with sedentary lifestyle is different from the one of the physically active individuals. Only after the year 2000, with the first discovery of causality of IL-6 and muscular movement, an intensive study of this problematics has begun. Currently, there are about 600 known operations (myokins) that are interrelated with muscle functions. Muscular tissue interrelates with others mechanistically, but it also forms humoral harmony in which the muscular tissue has a dominant and determining role. This phenomenon is relevant for pathophysiology of chronical low-grade inflammation, muscle loss, origin and development of noncommunicable diseases. These cause approx. 75% of deaths in population. Solution of this problem has been considerably affecting cost-effectivity in the health care system today and thus the state economy as well. Therapeutic recommendations together with the whole health care strategy need to be adjusted according to the above mentioned findings, including the patients with osteoporosis and osteopenia. There are, so far, no known suitable medicaments which would be used for solving problematics of muscular loss. This is a reason why more attention needs to be paid to the recommended physical regime (150 min/week, according to WHO) and dietary regime (basic diet + proteins). We have built a complex diagnostic and therapeutic program for our patients. Definition of pathological values follows EWGSOP and WHO. Methods: Patient cohorts: Osteoporosis 60-70 y, 70-80 y, osteopenia 60- 70 y and 70-80 y. Control group for osteopenia 60-80 y. We followed information about the control group during the COVID-19 time period, particularly their physical activity regime. 1) Instructions for patients used to be delivered in a form of lectures for different age groups. Now, during the COVID-19 time period, instructions are provided individually. 2) SarQol (Sarcopenia and Quality of Life) questionnaire (Beaudart 2015). Czech version used with agreement from sarqol.org. Assessment is now done individually only. 3) Measuring hand-grip is standardised according to Southampton protocol with a dynamometer Jamar. Values of 20 kg are found pathological (female values). 4) Determination of BMI, according to WHO, the border figure is 25 or 30 kg/m2 . 5) DXA method determination of selective muscle index as a measure for muscle mass. ALM/Ht2 for age above 60 y, border value for sarcopenia is ≤5.45 kg/m2 . 6) From laboratory examinations we aimed at IL-6 and CRP(hs) - these are not a subject of this report. Results: Conclusion: We have been running a physical activity and dietary program for our patients for more than 2 y. Physical activity is aimed at 150 min/week (WHO) and basic diet aims at the Mediterranean type + protein saturation, considerable stress is given to whey proteins enriched with Leucin. Patients have been instructed. Due to adherence to this regime we are able to report on statistically relevant changes in muscle power and also in complex muscle mass, even during the current pandemic situation. (Table Presented).
ABSTRACT
We previously reported preliminary characterization of adipose tissue (AT) dysfunction through the adiponectin/leptin ratio (ALR) and fasting/postprandial (F/P) gene expression in subcutaneous (SQ) adipose tissue (AT) biopsies obtained from participants in the GEMM study, a precision medicine research project. Here we present integrative data replication of previous findings from an increased number of GEMM symptom-free (SF) adults (N = 124) to improve characterization of early biomarkers for cardiovascular (CV)/immunometabolic risk in SF adults with AT dysfunction. We achieved this goal by taking advantage of the rich set of GEMM F/P 5 h time course data and three tissue samples collected at the same time and frequency on each adult participant (F/P blood, biopsies of SQAT and skeletal muscle (SKM)). We classified them with the presence/absence of AT dysfunction: low (<1) or high (>1) ALR. We also examined the presence of metabolically healthy (MH)/unhealthy (MUH) individuals through low-grade chronic subclinical inflammation (high sensitivity C-reactive protein (hsCRP)), whole body insulin sensitivity (Matsuda Index) and Metabolic Syndrome criteria in people with/without AT dysfunction. Molecular data directly measured from three tissues in a subset of participants allowed fine-scale multi-OMIC profiling of individual postprandial responses (RNA-seq in SKM and SQAT, miRNA from plasma exosomes and shotgun lipidomics in blood). Dynamic postprandial immunometabolic molecular endophenotypes were obtained to move towards a personalized, patient-defined medicine. This study offers an example of integrative translational research, which applies bench-to-bedside research to clinical medicine. Our F/P study design has the potential to characterize CV/immunometabolic early risk detection in support of precision medicine and discovery in SF individuals.