Andrea Kovács-Valasek scite author profile

Andrea Kovács-Valasek

5Publications

66Citation Statements Received

54Citation Statements Given

How they've been cited

How they cite others

543

Affiliations

University of Pecs

Publications

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Accelerated retinal aging in PACAP knock-out mice

et al. 2017

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Pituitary adenylate cyclase activating polypeptide (PACAP) is a neurotrophic and neuroprotective peptide. PACAP and its receptors are widely distributed in the retina. A number of reports provided evidence that PACAP is neuroprotective in retinal degenerations. The current study compared retina cell type-specific differences in young (3-4months) and aged adults (14-16months), of wild-type (WT) mice and knock-out (KO) mice lacking endogenous PACAP production during the course of aging. Histological, immunocytochemical and Western blot examinations were performed. The staining for standard neurochemical markers (tyrosine hydroxylase for dopaminergic cells, calbindin 28 kDa for horizontal cells, protein kinase Cα for rod bipolar cells) of young adult PACAP KO retinas showed no substantial alterations compared to young adult WT retinas, except for the specific PACAP receptor (PAC1-R) staining. We could not detect PAC1-R immunoreactivity in bipolar and horizontal cells in young adult PACAP KO animals. Some other age-related changes were observed only in the PACAP KO mice only. These alterations included horizontal and rod bipolar cell dendritic sprouting into the photoreceptor layer and decreased ganglion cell number. Also, Müller glial cells showed elevated GFAP expression compared to the aging WT retinas. Furthermore, Western blot analyses revealed significant differences between the phosphorylation state of ERK1/2 and JNK in KO mice, indicating alterations in the MAPK signaling pathway. These results support the conclusion that endogenous PACAP contributes to protection against aging of the nervous system.

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Three Major Causes of Metabolic Retinal Degenerations and Three Ways to Avoid Them

Kovács-Valasek

Rák

Pöstyéni

et al. 2023

IJMS

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An imbalance of homeostasis in the retina leads to neuron loss and this eventually results in a deterioration of vision. If the stress threshold is exceeded, different protective/survival mechanisms are activated. Numerous key molecular actors contribute to prevalent metabolically induced retinal diseases—the three major challenges are age-related alterations, diabetic retinopathy and glaucoma. These diseases have complex dysregulation of glucose-, lipid-, amino acid or purine metabolism. In this review, we summarize current knowledge on possible ways of preventing or circumventing retinal degeneration by available methods. We intend to provide a unified background, common prevention and treatment rationale for these disorders and identify the mechanisms through which these actions protect the retina. We suggest a role for herbal medicines, internal neuroprotective substances and synthetic drugs targeting four processes: parainflammation and/or glial cell activation, ischemia and related reactive oxygen species and vascular endothelial growth factor accumulation, apoptosis and/or autophagy of nerve cells and an elevation of ocular perfusion pressure and/or intraocular pressure. We conclude that in order to achieve substantial preventive or therapeutic effects, at least two of the mentioned pathways should be targeted synergistically. A repositioning of some drugs is considered to use them for the cure of the other related conditions.

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Sensitive fluorescent hybridisation protocol development for simultaneous detection of microRNA and cellular marker proteins (in the retina)

Kovács-Valasek

Szalontai

Sétáló

et al. 2018

Histochem Cell Biol

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Nowadays, increasing number of microRNAs are found to have crucial roles in various physiological processes through gene expression regulation via RNA silencing as a result of base pairing with complementary mRNA sequences. To reveal the spatial distribution of microRNA expression in tissues, in situ hybridisation is the only method developed to date. This work aims to provide a novel approach to obtain information on the possible involvement of microRNA-s in regulatory processes under experimental conditions by enhancing fluorescent detection of microRNA labelling. Developing Wistar rats were used as a model system to analyse retinal microRNA expression in the first 3 postnatal weeks. Using cryosections, the crucial elements of optimal labels were (1) the concentration and duration of proteinase K treatment, (2) hybridisation temperature of microRNA probes and (3) temperature of stringency washes. Further improvements made possible to combine our in situ hybridisation protocol with double-label immunofluorescence allowing for the simultaneous detection of microRNA-s with high sensitivity and a neuronal cell marker and/or a synaptic marker protein. Thus, the regulatory microRNA-s can be localised in an identified cell type along with its potential target protein. We believe that our protocol can be easily adapted for a variety of tissues of different origins, developmental stages and experimental conditions.

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Protective effects of the novel amine-oxidase inhibitor multi-target drug SZV 1287 on streptozotocin-induced beta cell damage and diabetic complications in rats

Tékus

Horváth

Csekő

et al. 2021

Biomedicine & Pharmacotherapy

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PACAP for Retinal Health: Model for Cellular Aging and Rescue

Pöstyéni

Kovács-Valasek

Denes

et al. 2021

IJMS

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Retinal aging is the result of accumulating molecular and cellular damage with a manifest decline in visual functions. Somatostatin (SST) and pituitary adenylate cyclase-activating polypeptide (PACAP) have been implicated in neuroprotection through regulating disparate aspects of neuronal activity (survival, proliferation and renewal). The aim of the present study was to validate a transgenic model for SST-expressing amacrine cells and to investigate the chronic effect of PACAP on the aging of SSTergic and dopaminergic cells of the retina. SST-tdTomato transgenic mice that were 6, 12 and 18 months old were treated intravitreally with 100 pmol of PACAP every 3 months. The density of SST and dopaminergic amacrine cells was assessed in whole-mounted retinas. Cells displaying the transgenic red fluorescence were identified as SST-immunopositive amacrine cells. By comparing the three age groups. PACAP treatment was shown to induce a moderate elevation of cell densities in both the SST and dopaminergic cell populations in the 12- and 18-month-old animals. By contrast, the control untreated and saline-treated retinas showed a minor cell loss. In conclusion, we report a reliable transgenic model for examining SSTergic amacrine cells. The fundamental novelty of this study is that PACAP could increase the cell density in matured retinal tissue, anticipating new therapeutic potential in age-related pathological processes.

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