Paulina Szmigielska scite author profile

Ultra-marathon (UM) running is an extreme endurance exercise. However, the mechanisms triggered with its practice remain unclear. While it is documented that strenuous physical activity activates immune responses and vitamin D plays a role in immune system suppression, data on the relationship between vitamin D status and cytokine profile in athletic populations are limited. To analyse the relative mRNA expression levels of selected pro-inflammatory cytokines (IL-1β, IL-6, IL-8, IL-17, TNF-α), COX-2, vitamin D receptor and abundance of selected inflammatory microRNAs (Hsa-miR-21, -miR-146a, -miR-150, -miR-155, -miR-222, -miR-223) before and after a 100 km race in amateur runners in the presence or absence of vitamin D supplementation. Twenty runners aged 36-40years were divided into two groups: with and without vitamin D3 supplementation (10,000units daily). Blood samples were collected before and 12 h after the UM. The mRNA expression levels of selected cytokines, COX-2 and VDR in peripheral blood and abundance of serum exosomal miRNAs were investigated using q-RT-PCR. After UM, the significant up-regulation of TNF-α and hsa-miR-155 and downregulation of IL-1β were observed in the group with vitamin D supplementation. In its absence, hsa-miR-155 and -miR-223 were significantly up-regulated. Additionally, a reverse correlation was observed between IL-6 expression level and abundance of hsa-miR-155 and -miR-223 in both groups. No statistical differences were noted when the other miRNAs and genes were examined in the groups and at the time points. The UM-induced mRNA expression pattern of proinflammatory cytokines could be influenced by vitamin D supplementation and/or miRNA.

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Relationships Between the Expression of the ACTN3 Gene and Explosive Power of Soccer Players

Domańska-Senderowska

Szmigielska

Snochowska

et al. 2019

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Muscle strength and maximal speed are factors determining athlete’s results during competition. Their association with ACTN3 gene activity has been documented. The purpose of this study was the analysis of ACTN3 gene expression during a 2 month training cycle of soccer players and its correlation with the countermovement jump (CMJ) and squat jump (SJ). The study group consisted of 22 soccer players (aged 17‐18). The study material included peripheral blood lymphocytes. The relative expression (RQ) of the ACTN3 gene was analyzed by qPCR and performed before and after the two‐month training cycle. Before the training cycle low expression levels of ACTN3 (median RQ = 0.95) were observed, yet after the training cycle they were elevated (median RQ = 1.98) ( p = 0.003). There was an increase in performance of both jumps: SJ (p = 0.020) and CMJ (p = 0.012) at the end of the training cycle. A simultaneous increase in the ACTN3 gene expression level and height in both jump tests was observed in 73% of athletes (p > 0.05). There were no significant relationships between the ACTN3 gene expression level and the results of the CMJ and SJ. However, explosive strength is a complex feature shaped by many different factors and it could be the reason why we did not observe correlations between these variables.

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Analysis of the PPARD gene expression level changes in football players in response to the training cycle

Domańska-Senderowska

Snochowska

Szmigielska

et al. 2018

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The PPARD gene codes protein that belongs to the peroxisome proliferator-activated receptor (PPAR) family engaged in a variety of biological processes, including lipid metabolism in muscle cells. In this study, we assess the relationship between PPARD gene expression lipid metabolism parameters and the variation of the PPARD gene expression before (T1) and after 12 hours of training (T2) sessions in a group of football players. Peripheral blood lymphocytes were obtained from 22 football players (17.5±0.7 years, 178±0.7 cm, 68.05±9.18 kg). The PPARD gene expression, analyzed by quantitative polymerase chain reaction (qPCR), was significantly higher after T2 (p = 0.0006). Moreover, at the end of the training cycle, there was a significant decrease in relative fat tissue (FAT) (%) (p = 0.01) and absolute FAT (kg) (p = 0.01). A negative correlation was observed between absolute FAT (kg) and PPARD gene expression level in T2 (p = 0.03). The levels of cholesterol and triglyceride (TG) fractions were not significantly different (p >0.05) before and after training. No significant relationship between PPARD expression and cholesterol or TG levels was found. We found that physical training affects PPARD expression. Moreover, the negative correlation between PPARD expression and absolute FAT (kg) level may be indicative of the contribution of PPARD in metabolic adaptation to increased lipid uptake that can be used to control the body composition of athletes.

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Genetic and Epigenetic Interactions in the Etiopathogenesis of Osteoarthritis. Selected Molecular Factors in OA Etiopathogenesis

Snochowska

Szmigielska

Brzeziańska-Lasota

et al. 2017

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Osteoarthritis (OA) is a widespread disease characterized by a multifaceted etiopathogenesis and complicated pathophysiology. OA is connected with systematic degeneration of subchondral bone tissue, articular cartilage, synovial membrane and stenosis of the joint space, which substantially contributes to premature reduction of functional mobility. The results of many epidemiological studies carried out in various populations around the world including genome-wide association studies and analysis of epigenetic modifications (such as miRNA expression, DNA methylation and histone modifications) have indicated a multifaceted nature of the disease. The aim of this paper is to present the state of the art for gene-expression level changes of relevance for the pathogenesis of osteoarthritis, including the contribution of epigenetic regulations. The source of search data for this paper was the PubMed database. The following keywords were used as search terms: osteoarthritis, GWAS, epigenetics and miRNA. The reports presented in this paper provide a starting point for further considerations regarding the development of personalized biological therapy. Several hypothetical strategies for the targeted OA treatment development exist nowadays. However, it is important to emphasize that in-depth understanding of the genetic-epigenetic interaction in OA pathogenesis is crucial. Based on the analysis of the aforementioned available study results, the following conclusions can be made: Both environmental factors and genetic-epigenetic interactions contribute to the complex pathogenesis of OA; OA risk genes have been identified; Differences in gene expression in OA may be helpful in assessing progression of the disease; The epigenetic goals of OA therapy have been indicated.

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