Publications by authors named "Michal Mokry"
Biallelic mutations in tetratricopeptide repeat domain 7A (TTC7A) give rise to intestinal and immune disorders. However, our understanding of the genotype-phenotype relationship is limited, because TTC7A variants are mostly compound heterozygous and the disease phenotypes are highly diverse. This study aims to clarify how different TTC7A variants impact the severity of intestinal epithelial disorders.
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- Fetal growth restricted (FGR) pregnancies may lead to increased risk of cardiovascular and renal diseases in offspring, prompting investigations into the use of sildenafil for improved fetal growth.
- In a study from the Dutch STRIDER trial involving HUVECs and placental samples, no significant differences in cardiovascular or renal gene expression were found between sildenafil and placebo groups.
- Although sildenafil did not affect fetal programming, it did alter some immune-related gene expressions in placental tissue, suggesting a specific action rather than a broad benefit for cardiovascular or renal health in FGR pregnancies.
The cytokine interferon-gamma (IFNγ) plays a multifaceted role in intestinal immune responses ranging from anti- to pro-inflammatory depending on the setting. Here, using a 3D co-culture system based on human intestinal epithelial organoids, we explore the capacity of IFNγ-exposure to reprogram intestinal epithelia and thereby directly modulate lymphocyte responses. IFNγ treatment of organoids led to transcriptional reprogramming, marked by a switch to a pro-inflammatory gene expression profile, including transcriptional upregulation of the chemokines CXCL9, CXCL10, and CXCL11.
View Article and Find Full Text PDFAims: Cellular communication network factor 2 (CCN2) is a matricellular protein implicated in fibrotic diseases, with ongoing clinical trials evaluating anti-CCN2-based therapies. By uncovering CCN2 as abundantly expressed in non-diseased artery tissue, this study aimed to investigate the hypothesis that CCN2 plays a pivotal role in maintaining smooth muscle cell (SMC) phenotype and protection against atherosclerosis.
Methods And Results: Global- and SMC-specific Ccn2 knockout mouse models were employed to demonstrate that Ccn2 deficiency leads to SMC de-differentiation, medial thickening, and aorta elongation under normolipidaemic conditions.
Background And Aims: Systemic low-grade inflammation, measured by plasma high-sensitivity C-reactive protein (hsCRP) levels, is an important risk factor for atherosclerotic cardiovascular disease (ASCVD). To date, however, it is unknown whether plasma hsCRP is associated with adverse histological plaque features.
Methods: Plaques were derived during carotid endarterectomy.
Article Synopsis
- Tobacco smoking increases the risk of atherosclerotic disease, particularly in women, leading researchers to investigate how gene expression in plaques differs between smokers and non-smokers based on sex.
- Analyzing gene expression in 625 carotid plaques revealed that the CRLF1 gene was significantly upregulated in smokers, especially in females, indicating a sex-specific response to smoking.
- The findings suggest that CRLF1, linked to smooth muscle cells and extracellular matrix, may contribute to the heightened cardiovascular risk in female smokers compared to their male counterparts.
In developing B cells, V(D)J gene recombination is initiated by the RAG1/2 endonuclease complex, introducing double-stranded DNA breaks (DSBs) in V, D, and J genes and resulting in the formation of the hypervariable parts of immunoglobulins (Ig). Persistent or aberrant RAG1/2 targeting is a potential threat to genome integrity. While RAG1 and RAG2 have been shown to bind various regions genome-wide, the in vivo off-target DNA damage instigated by RAG1/2 endonuclease remains less well understood.
View Article and Find Full Text PDFT cell activation is critical for an effective immune response against pathogens. However, dysregulation contributes to the pathogenesis of autoimmune diseases, including Juvenile Idiopathic Arthritis (JIA). The molecular mechanisms underlying T cell activation are still incompletely understood.
View Article and Find Full Text PDFThe intestine is vulnerable to chemotherapy-induced damage due to the high rate of intestinal epithelial cell (IEC) proliferation. We have developed a human intestinal organoid-based 3D model system to study the direct effect of chemotherapy-induced IEC damage on T cell behavior. Exposure of intestinal organoids to busulfan, fludarabine, and clofarabine induced damage-related responses affecting both the capacity to regenerate and transcriptional reprogramming.
View Article and Find Full Text PDFBackground: Cell phenotype switching is increasingly being recognized in atherosclerosis. However, our understanding of the exact stimuli for such cellular transformations and their significance for human atherosclerosis is still evolving. Intraplaque hemorrhage is thought to be a major contributor to plaque progression in part by stimulating the influx of CD163 macrophages.
View Article and Find Full Text PDFN6-methyladenosine (m6A) is a RNA modification that can regulate post-transcriptional processes including RNA stability, translation, splicing, and nuclear export. In CD4+ lymphocytes, m6A modifications have been demonstrated to play a role in early differentiation processes. The role of m6A in CD4+ T cell activation and effector function remains incompletely understood.
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- The study investigates the gene expression changes in vascular cells during atherosclerosis progression, emphasizing the limited understanding of their clinical significance.
- It utilizes single-cell RNA sequencing data from both mouse models and human tissue to identify various cell subtypes involved in advanced atherosclerosis and symptomatic carotid plaques.
- The findings highlight the association of specific gene-regulatory networks with coronary artery disease severity, suggesting pathways that may be targeted for therapeutic strategies.
Article Synopsis
- Epigenetic age acceleration (EAA) in atherosclerotic plaques is linked to future cardiovascular events, showing that older plaque age can predict mortality risk similar to overall epigenetic age estimators.
- In a study involving 485 human carotid plaques, EAA was correlated with clinical indicators, with patients showing higher EAA having conditions like diabetes and obesity.
- Single-cell RNA sequencing identified smooth muscle and endothelial cells as key contributors to plaque EAA, with the endothelial-to-mesenchymal transition process being linked to accelerated aging in those cells.
The cytokine interferon-gamma (IFNγ) plays a multifaceted role in intestinal immune responses ranging from anti-to pro-inflammatory depending on the setting. Here, using a 3D co-culture system based on human intestinal epithelial organoids, we explore the capacity of IFNγ-exposure to reprogram intestinal epithelia and thereby directly modulate lymphocyte responses. IFNγ treatment of organoids led to transcriptional reprogramming, marked by a switch to a pro-inflammatory gene expression profile, including transcriptional upregulation of the chemokines CXCL9, CXCL10, and CXCL11.
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- After a heart attack, fibrotic tissue replaces lost heart muscle, which leads to heart dysfunction, but reprogramming fibroblasts into heart cells using specific transcription factors shows promise for treatment.
- Researchers tested seven compounds, focusing on the effects of small molecules involved in heart cell differentiation, to improve fibroblast reprogramming in both mice and humans.
- Vitamin C was identified as a key enhancer of reprogramming efficiency by reducing reactive oxygen species levels, indicating its antioxidant properties play a crucial role in this process.
Article Synopsis
- Histopathological studies of atherosclerotic plaques reveal that diverse lesion types necessitate improved classification methods to understand their clinical significance.
- An analysis of gene expression in 654 human carotid plaques identified five main plaque types, each linked to specific clinical outcomes and differences in cell composition.
- Findings suggest that a particular plaque type with severe symptoms is associated with inflammatory and fibrotic cells, and ongoing research is exploring potential biomarkers for distinguishing these plaque phenotypes.
Article Synopsis
- Myofibroblasts in atherosclerotic plaques play a vital role in disease progression by producing extracellular matrix and contributing to the structure of plaques, yet smooth muscle cells are often used for research instead.
- The study introduces a new method to isolate and culture plaque myofibroblasts from 27 donors, which maintain their growth and retain characteristics of their original cellular environment.
- This research confirms that cultured myofibroblasts closely resemble those found in plaques and can be used effectively in studies examining various mechanisms of atherosclerosis.
Clonal Proliferation Within Smooth Muscle Cells in Unstable Human Atherosclerotic Lesions.
Arterioscler Thromb Vasc Biol
December 2023
Background: Studies in humans and mice using the expression of an X-linked gene or lineage tracing, respectively, have suggested that clones of smooth muscle cells (SMCs) exist in human atherosclerotic lesions but are limited by either spatial resolution or translatability of the model.
Methods: Phenotypic clonality can be detected by X-chromosome inactivation patterns. We investigated whether clones of SMCs exist in unstable human atheroma using RNA in situ hybridization (BaseScope) to identify a naturally occurring 24-nucleotide deletion in the 3'UTR of the X-linked (biglycan) gene, a proteoglycan highly expressed by SMCs.
Atherosclerosis is a chronic inflammatory disease which is driven in part by the aberrant -differentiation of vascular smooth muscle cells (SMCs). No therapeutic drug has been shown to reverse detrimental SMC-derived cell phenotypes into protective phenotypes, a hypothesized enabler of plaque regression and improved patient outcome. Herein, we describe a novel function of colchicine in the beneficial modulation of SMC-derived cell phenotype, independent of its conventional anti-inflammatory effects.
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- The study investigates the role of erythrocyte membranes, specifically through the marker glycophorin C, in atherosclerotic plaques and how they may relate to plaque vulnerability and intraplaque hemorrhage (IPH).
- Researchers analyzed samples from a large cohort of patients who underwent carotid endarterectomy, assessing various plaque features and the prevalence of IPH and neurological symptoms.
- It was found that higher glycophorin C levels were associated with IPH and pre-procedural neurological symptoms, particularly in men, suggesting that these markers could help predict plaque instability.
Article Synopsis
- * Researchers identified over 40 candidate genes related to sex differences in cardiovascular health, focusing on mechanisms impacting vascular remodeling and lipid metabolism, particularly in smooth muscle cells in women.
- * To better understand these sex differences in CAD, the study emphasizes the need for improved research designs that include more women and conduct thorough analysis stratified by sex, alongside integrating various types of biological data.
Coronary artery calcification (CAC), a measure of subclinical atherosclerosis, predicts future symptomatic coronary artery disease (CAD). Identifying genetic risk factors for CAC may point to new therapeutic avenues for prevention. Currently, there are only four known risk loci for CAC identified from genome-wide association studies (GWAS) in the general population.
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- * The study utilized RNA sequencing data to create gene regulatory networks, revealing two main SMC phenotypes in women: a vulnerable myofibroblast-like network and a contractile network, which differed in expression levels compared to males.
- * Findings suggest that female atherosclerosis involves specific gene networks that promote plaque vulnerability, with important implications for understanding disease progression and potential treatment strategies.
Article Synopsis
- Vascular diseases are influenced by their specific locations in the body, highlighting the need for more research into the genetic differences that cause this variability.
- The study analyzed cell samples from nine large blood vessels in dogs, revealing that unique gene expression patterns remain consistent even when the cells are cultured outside their body environment.
- Results showed that differences between arterial and venous cells affect their structure, suggesting that using cells from just one type of vessel for research may not give a complete picture of vascular biology.