Regenerative medicine therapy: adipose derived extracellular vesicles in viral myocarditis

Objective: Myocarditis, inflammation of the heart muscle, is an autoimmune heart disease that can be caused by viruses, bacteria and toxins. Myocarditis can lead to dilated cardiomyopathy (DCM) and heart failure. Currently there are no disease-specific therapies for treating myocarditis or preventing progression to DCM. Adipose Extracellular Vesicles (AEVs) are lipid bilayer nanoparticles that are released into the outside environment of adipocytes and provide promising regenerative potential for inflammatory diseases like myocarditis. Methods: Lipoaspirate was obtained from women and men and AEVs isolated from the lipoaspirate using tangential flow filtration. We injected wild type male BALB/c mice with 250uL AEVs (1×10^10 EV/mL) intraperitoneally or sucrose control on day -1, 0, 1 with viral infection on day 0. Mice were harvested on day 10 post infection at the peak of myocarditis. Results: We found that male mice treated with AEVs from a female patient had a significantly higher body weight (p=0.0003), less calcification in the gut (p=0.001) and less myocardial inflammation (p=0.007) than controls. Mouse hearts analyzed by qRT-PCR revealed that AEV treated mice had significantly lower relative gene expression of cell markers for total immune cells (CD45, p=0.002), macrophages (CD11b, p=0.002, F4/80, p=0.0004); specifically M2 macrophages (Chi313, p=0.003), as well as CD3+ (p=0.007) and CD4+ T cells (p=0.01) than controls. Additionally, we found that mice treated with AEVs from a male patient also had significantly less myocardial inflammation (p=0.01). Conclusion: AEVs could provide an innovative therapy to reduce cardiac inflammation and decrease the risk of developing DCM following myocarditis

Sex and age differences in sST2 in cardiovascular disease

AimsThe goal of this study was to determine whether sex and age differences exist for soluble ST2 (sST2) for several cardiovascular diseases (CVDs).MethodsWe examined sST2 levels using an ELISA kit for myocarditis (n = 303), cardiomyopathy (n = 293), coronary artery disease (CAD) (n = 239), myocardial infarct (MI) (n = 159), and congestive heart failure (CHF) (n = 286) and compared them to controls that did not have CVDs (n = 234).ResultsMyocarditis occurred in this study in relatively young patients around age 40 while the other CVDs occurred more often in older individuals around age 60. We observed a sex difference in sST2 by age only in myocarditis patients (men aged 38, women 46, p = 0.0002), but not for other CVDs. Sera sST2 levels were significantly elevated compared to age-matched controls for all CVDs: myocarditis (p ≤ 0.0001), cardiomyopathy (p = 0.0009), CAD (p = 0.03), MI (p = 0.034), and CHF (p < 0.0001) driven by elevated sST2 levels in females for all CVDs except myocarditis, which was elevated in both females (p = 0.002) and males (p ≤ 0.0001). Sex differences in sST2 levels were found for myocarditis and cardiomyopathy but no other CVDs and were higher in males (myocarditis p = 0.0035; cardiomyopathy p = 0.0047). sST2 levels were higher in women with myocarditis over 50 years of age compared to men (p = 0.0004) or women under 50 years of age (p = 0.015). In cardiomyopathy and MI patients, men over 50 had significantly higher levels of sST2 than women (p = 0.012 and p = 0.043, respectively) but sex and age differences were not detected in other CVDs. However, women with cardiomyopathy that experienced early menopause had higher sST2 levels than those who underwent menopause at a natural age range (p = 0.02).ConclusionWe found that sex and age differences in sera sST2 exist for myocarditis, cardiomyopathy, and MI, but were not observed in other CVDs including CAD and CHF. These initial findings in patients with self-reported CVDs indicate that more research is needed into sex and age differences in sST2 levels in individual CVDs

Mitochondrial extracellular vesicles, autoimmunity and myocarditis

For many decades viral infections have been suspected as ‘triggers’ of autoimmune disease, but mechanisms for how this could occur have been difficult to establish. Recent studies have shown that viral infections that are commonly associated with viral myocarditis and other autoimmune diseases such as coxsackievirus B3 (CVB3) and SARS-CoV-2 target mitochondria and are released from cells in mitochondrial vesicles that are able to activate the innate immune response. Studies have shown that Toll-like receptor (TLR)4 and the inflammasome pathway are activated by mitochondrial components. Autoreactivity against cardiac myosin and heart-specific immune responses that occur after infection with viruses where the heart is not the primary site of infection (e.g., CVB3, SARS-CoV-2) may occur because the heart has the highest density of mitochondria in the body. Evidence exists for autoantibodies against mitochondrial antigens in patients with myocarditis and dilated cardiomyopathy. Defects in tolerance mechanisms like autoimmune regulator gene (AIRE) may further increase the likelihood of autoreactivity against mitochondrial antigens leading to autoimmune disease. The focus of this review is to summarize current literature regarding the role of viral infection in the production of extracellular vesicles containing mitochondria and virus and the development of myocarditis

The RNA Polymerase III Subunit Polr3b Is Required for the Maintenance of Small Intestinal Crypts in MiceSummary

Background & Aims: The continuously self-renewing mammalian intestinal epithelium, with high cellular turnover, depends on adequate protein synthesis for its proliferative capacity. RNA polymerase III activity is related closely to cellular growth and proliferation. Here, we studied the role of Polr3b, a large RNA polymerase III subunit, in the mammalian intestinal epithelium. Methods: We derived mice with an intestinal epithelium-specific hypomorphic mutation of the Polr3b gene, using VillinCre-mediated gene ablation. Phenotypic consequences of the Polr3b mutation on the intestinal epithelium in mice were assessed using histologic and molecular methodologies, including genetic lineage tracing. Results: The Polr3b mutation severely reduced survival and growth in mice during the first postnatal week, the period when the expansion of the intestinal epithelium, and thus the requirement for protein synthesis, are highest. The neonatal intestinal epithelium of Polr3bloxP/loxP;VillinCre mice was characterized by areas with reduced proliferation, abnormal epithelial architecture, loss of Wnt signaling, and a dramatic increase in apoptotic cells in crypts. Genetic lineage tracing using Polr3bLoxP/LoxP;Rosa26-lox-stop-lox-YFP;VillinCre mice showed that in surviving mutant mice, Polr3b-deficient dying crypts were replaced progressively by Cre-escaper cells that had retained wild-type Polr3b function. In addition, enteroids cultured from Polr3bloxP/loxP;VillinCre mice showed reduced proliferative activity and increased apoptosis. Conclusions: We provide evidence for an essential role of the RNA polymerase III subunit Polr3b in orchestrating the maintenance of the intestinal crypt during early postnatal development in mice. Keywords: Polr3b, Pol III, Intestinal Epithelium, Crypts, Enteroid

Supplementary Figure S2 from RAB27B Drives a Cancer Stem Cell Phenotype in NSCLC Cells Through Enhanced Extracellular Vesicle Secretion

Supplementary Figure S2: RAB27B is required for the stem-like phenotype of NSCLC CSCs</p

Supplementary Table S1 from RAB27B Drives a Cancer Stem Cell Phenotype in NSCLC Cells Through Enhanced Extracellular Vesicle Secretion

Supplementary Table S1: Primers and shRNAs used in Experimental Procedures</p

Supplementary Figure S5 from RAB27B Drives a Cancer Stem Cell Phenotype in NSCLC Cells Through Enhanced Extracellular Vesicle Secretion

Supplementary Figure S5: Cellular uptake of DiI-labeled BCC and CSC EVs</p

Supplementary Figure S6 from RAB27B Drives a Cancer Stem Cell Phenotype in NSCLC Cells Through Enhanced Extracellular Vesicle Secretion

Supplementary Figure S6: Effects of ShRAB27B CSC-derived EVs on the expression of stemness genes in BCCs</p

Supplementary Figure S3 from RAB27B Drives a Cancer Stem Cell Phenotype in NSCLC Cells Through Enhanced Extracellular Vesicle Secretion

Supplementary Figure S3: RAB27B is required for NSCLC tumorigenicity in vivo</p