Iwona Kurkowska‐Jastrzębska scite author profile

Cardiovascular disease (CVD) is a major cause of morbidity and mortality worldwide. Innovative, more stringent diagnostic and prognostic biomarkers and effective treatment options are needed to lessen its burden. In recent years, microRNAs have emerged as master regulators of gene expression - they bind to complementary sequences within the mRNAs of their target genes and inhibit their expression by either mRNA degradation or translational repression. microRNAs have been implicated in all major cellular processes, including cell cycle, differentiation and metabolism. Their unique mode of action, fine-tuning gene expression rather than turning genes on/off, and their ability to simultaneously regulate multiple elements of relevant pathways makes them enticing potential biomarkers and therapeutic targets. Indeed, cardiovascular patients have specific patterns of circulating microRNA levels, often early in the disease process. This article provides a systematic overview of the role of microRNAs in the pathophysiology, diagnosis and treatment of CVD.

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Gender Differences in Neurological Disease: Role of Estrogens and Cytokines

Członkowska

Ciesielska

Gromadzka

et al. 2006

ENDO

103

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Increasing evidence suggests that inflammatory response may be a critical component of different brain pathologies. However, the role played by this reaction is not fully understood. The present findings suggest that neuroinflammtory mediators such as cytokines may be involved in a number of key steps in the pathological cascade of events leading to neuronal injury. This hypothesis is strongly supported by experimental and clinical observations indicating that inhibition of the inflammatory reaction correlates with less neuronal damage. Estrogens are thought to play a role in the sex difference observed in many neurological diseases with inflammatory components including stroke, Alzheimer's and Parkinson's diseases, multiple sclerosis, or amyotrophic lateral sclerosis. Clinical and experimental studies have established estrogen as a neuroprotective hormone in these diseases. However, the exact mechanisms involved in the neuroprotective effects of estrogens are still unclear. It is possible that the beneficial effects of these hormones may be dependent on their inhibitory activity on the inflammatory reaction associated with the above-mentioned brain pathologies. Here, we review the current clinical and experimental evidence with respect to the inflammation-modulating effects of estrogens as one potential explanatory factor for sexual dimorzphism in the prevalence of numerous neurological diseases.

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Estrogen and Cytokines Production - The Possible Cause of Gender Differences in Neurological Diseases

Członkowska

Ciesielska²,

Gromadzka³

et al. 2005

CPD

106

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Naturally occurring sexual dimorphism has been implicated in the risk, progression and recovery from numerous neurological disorders. These include head injury, multiple sclerosis (MS), stroke, and neurodegenerative diseases (Parkinson's disease (PD), Alzheimer's disease (AD) or amyotrophic lateral sclerosis (ALS). Accumulating evidence suggests that observed differences between men and women could result from estrogen's wide range of effects within the mammalian central nervous system (CNS), with it's neuroprotective effect being one of the most important. It seems possible that neuroprotective activity of estrogen could be partially a result of it's anti-inflammatory action. It has been well established that inflammation plays an important role in the etiopathogenesis and manifestation of brain pathological changes. In this regard, an important role has been suggested for pro-inflammatory cytokines produced by activated glial cells, neurons and immune cells that invade brain tissue. Within the CNS, cytokines stimulate inflammatory processes that may impair blood-brain barrier permeability as well as promote apoptosis of neurons, oligodendrocytes and induce myelin damage. Given that estrogen may modulate cytokine expression, coupled with the fact that gender differences of cytokine production are apparent in animal models of PD and MS, suggests an important connection between hormonal-cytokine link in neurodegeneration. Indeed, while MS patients and mice subjected to experimental autoimmune encephalomyelitis (EAE) display gender specific alterations of IFN-gamma and IL-12, variations of TNF and IL-6 were associated with PD. Also in case of more acute neurodegenerative conditions, such as stroke, the effect of IL-6 gene G-174C polymorphism was different in males and females. Given that our understanding of the role of estrogen on cytokine production and accompanying CNS pathological conditions is limited, the present reviews aims to present some of our recent findings in this area and further evaluate the evidence that may be relevant to the design of new hormonal anti-inflammatory treatment strategies for neurodegenerative diseases.

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Cytokines in the pathogenesis of hemophilic arthropathy

Wojdasiewicz

Poniatowski

Nauman

et al. 2018

Cytokine & Growth Factor Reviews

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Dexamethasone protects against dopaminergic neurons damage in a mouse model of Parkinson's disease

Kurkowska‐Jastrzębska

Litwin

Joniec³

et al. 2004

International Immunopharmacology

109

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