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001-es BibID:BIBFORM108774
035-os BibID:(cikkazonosító)102629 (WoS)000944336500001 (Scopus)85147884917
Első szerző:Combi Zsolt
Cím:Hydrogen sulfide as an anti-calcification stratagem in human aortic valve : altered biogenesis and mitochondrial metabolism of H2S lead to H2S deficiency in calcific aortic valve disease / Zsolt Combi, László Potor, Péter Nagy, Katalin Éva Sikura, Tamás Ditrói, Eszter Petra Jurányi, Klaudia Galambos, Tamás Szerafin, Péter Gergely, Matthew Whiteman, Roberta Torregrossa, Yuchao Ding, Lívia Beke, Zoltán Hendrik, Gábor Méhes, György Balla, József Balla
Dátum:2023
ISSN:2213-2317
Megjegyzések:Hydrogen sulfide (H2S) was previously revealed to inhibit osteoblastic differentiation of valvular interstitial cells (VICs), a pathological feature in calcific aortic valve disease (CAVD). This study aimed to explore the metabolic control of H2S levels in human aortic valves. Lower levels of bioavailable H2S and higher levels of interleukin-1? (IL-1?) and tumor necrosis factor-? (TNF-?) were detected in aortic valves of CAVD patients compared to healthy individuals, accompanied by higher expression of cystathionine ?-lyase (CSE) and same expression of cystathionine ?-synthase (CBS). Increased biogenesis of H2S by CSE was found in the aortic valves of CAVD patients which is supported by increased production of lanthionine. In accordance, healthy human aortic VICs mimic human pathology under calcifying conditions, as elevated CSE expression is associated with low levels of H2S. The expression of mitochondrial enzymes involved in H2S catabolism including sulfide quinone oxidoreductase (SQR), the key enzyme in mitochondrial H2S oxidation, persulfide dioxygenase (ETHE1), sulfite oxidase (SO) and thiosulfate sulfurtransferase (TST) were up-regulated in calcific aortic valve tissues, and a similar expression pattern was observed in response to high phosphate levels in VICs. AP39, a mitochondria-targeting H2S donor, rescued VICs from an osteoblastic phenotype switch and reduced the expression of IL-1? and TNF-? in VICs. Both pro-inflammatory cytokines aggravated calcification and osteoblastic differentiation of VICs derived from the calcific aortic valves. In contrast, IL-1? and TNF-? provided an early and transient inhibition of VICs calcification and osteoblastic differentiation in healthy cells and that effect was lost as H2S levels decreased. The benefit was mediated via CSE induction and H2S generation. We conclude that decreased levels of bioavailable H2S in human calcific aortic valves result from an increased H2S metabolism that facilitates the development of CAVD. CSE/H2S represent a pathway that reverses the action of calcifying stimu
Tárgyszavak:Orvostudományok Klinikai orvostudományok idegen nyelvű folyóiratközlemény külföldi lapban
folyóiratcikk
Arteriosclerosis
Chronic kidney disease
Hydrogen sulfide
Mitochondrial H(2)S catabolism
Phosphate
Valvular inflammation
Vascular calcification
Érelmeszesedés
Krónikus vesebetegség
Hidrogén-szulfid
Mitokondriális H(2)S katabolizmus
Foszfát
Valvuláris gyulladás
Vaszkuláris meszesedés
Megjelenés:Redox Biology. - 60 (2023), p. 1-19. -
További szerzők:Potor László Nagy Péter (1976-) (vegyész) Sikura Katalin Éva (1985-) (biológus) Ditrói Tamás (1989-) (vegyész) Jurányi Eszter Petra Galambos Klaudia (1995-) (biológus) Szerafin Tamás (1960-) (szívsebész, mellkassebész) Gergely Péter (1974-) (igazságügyi orvosszakértő) Whiteman, Matthew Torregrossa, Roberta Ding, Yuchao (1995-) (Ph.D. hallgató) Beke Lívia Hendrik Zoltán (1986-) (orvos) Méhes Gábor (1966-) (patológus) Balla György (1953-) (csecsemő és gyermekgyógyász, neonatológus) Balla József (1959-) (belgyógyász, nephrológus)
Pályázati támogatás:GINOP-2.3.2-15-2016-00043 (IRONHEARTH)
GINOP
EFOP-3.6.2-16-2017-00006 (LIVE LONGER)
EFOP
TKP2020-NKA-04
Egyéb
TKP2021-EGA-18
Egyéb
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2.

001-es BibID:BIBFORM089604
035-os BibID:(WoS)000600406300015 (Scopus)85089007325
Első szerző:Sikura Katalin Éva (biológus)
Cím:Hydrogen sulfide inhibits aortic valve calcification in heart via regulating RUNX2 by NF-[kappa]B, a link between inflammation and mineralization / Sikura Katalin Éva, Combi Zsolt, Potor László, Szerafin Tamás, Hendrik Zoltán, Méhes Gábor, Gergely Péter, Whiteman Matthew, Beke Lívia, Fürtös Ibolya, Balla György, Balla József
Dátum:2021
ISSN:2090-1232 2090-1224
Tárgyszavak:Orvostudományok Klinikai orvostudományok idegen nyelvű folyóiratközlemény külföldi lapban
folyóiratcikk
Megjelenés:Journal of Advanced Research. - 27 (2021), p. 165-176. -
További szerzők:Combi Zsolt Potor László Szerafin Tamás (1960-) (szívsebész, mellkassebész) Hendrik Zoltán (1986-) (orvos) Méhes Gábor (1966-) (patológus) Gergely Péter (1974-) (igazságügyi orvosszakértő) Whiteman, Matthew Beke Lívia Fürtös Ibolya Balla György (1953-) (csecsemő és gyermekgyógyász, neonatológus) Balla József (1959-) (belgyógyász, nephrológus)
Pályázati támogatás:OTKA-K-132828
OTKA
GINOP-2.3.2-15-2016-00043
GINOP
EFOP-3.6.2-16-2017-00006
EFOP
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3.

001-es BibID:BIBFORM078538
035-os BibID:(WoS)000513525100008 (Scopus)85067838371
Első szerző:Sikura Katalin Éva (biológus)
Cím:Hydrogen sulfide inhibits calcification of heart valves; implications for calcific aortic valve disease / Katalin Éva Sikura, László Potor, Tamás Szerafin, Melinda Oros, Péter Nagy, Gábor Méhes, Zoltán Hendrik, Abolfazl Zarjou, Anupam Agarwal, Niké Posta, Roberta Torregrossa, Matthew Whiteman, Ibolya Fürtös, György Balla, József Balla
Dátum:2020
ISSN:0007-1188
Megjegyzések:BACKGROUND AND PURPOSE: Calcification of heart valves is a frequent pathological finding in CKD patients and in elderly. Hydrogen sulfide (H2 S) has been suggested to possess various anti-calcific actions. We aimed to investigate H2 S as a potential therapeutic in valvular calcification and to identify its targets in the pathogenesis. EXPERIMENTAL APPROACH: Potential of H2 S for regulating osteoblastic transdifferentiation of valvular interstitial cells (VIC) isolated from human aortic valves were studied and tested for valvular calcification in apolipoprotein E-deficient mice (ApoE-/- ). KEY RESULTS: In human VIC H2 S treatment employing donors (NaSH, Na2 S, GYY4137, AP67, AP72) inhibited mineralization/osteoblastic transdifferentiation in a dose-responsive manner in response to phosphate. Accumulation of calcium in the extracellular matrix and expression of osteocalcin and alkaline phosphatase was abrogated. Nuclear translocation of the RUNX2 did not occur, and phosphate uptake was lowered. We also found that pyrophosphate generation was increased via up-regulating ENPP2 and ANK1. Lowering endogenous production of H2 S by concomitant silencing of CSE and CBS favored VIC calcification. IHC and Western blot analysis of human specimens revealed higher levels of CSE expression in aorta stenosis valves with calcification (AS) compared to valves of aorta insufficiency (AI). In contrast, tissue H2 S generation was lower in AS valves compared to AI valves. We observed an inhibition of valvular calcification by H2 S in ApoE-/- mouse on high-fat diet. CONCLUSION AND IMPLICATIONS: Our study suggests that the CSE-CBS/H2 S system exhibits an anti-calcification function in heart valves providing a novel therapeutic approach to prevent hardening of valves. This article is protected by copyright. All rights reserved. KEYWORDS: AP67; AP72; GYY4137; H2S; aortic valve; apolipoprotein E knockout mice; calcification; pyrophosphate
Tárgyszavak:Orvostudományok Elméleti orvostudományok idegen nyelvű folyóiratközlemény külföldi lapban
folyóiratcikk
hydrogen sulphide
valvular calcification
Megjelenés:British Journal of Pharmacology. - 177 : 4 (2020), p. 793-809. -
További szerzők:Potor László Szerafin Tamás (1960-) (szívsebész, mellkassebész) Oros Melinda (1975-) (molekuláris biológus) Nagy Péter (1976-) (vegyész) Méhes Gábor (1966-) (patológus) Hendrik Zoltán (1986-) (orvos) Zarjou, Abolfazl (1979-) (kutató orvos) Agarwal, Anupam Posta Niké Torregrossa, Roberta Whiteman, Matthew Fürtös Ibolya Balla György (1953-) (csecsemő és gyermekgyógyász, neonatológus) Balla József (1959-) (belgyógyász, nephrológus)
Pályázati támogatás:GINOP-2.3.2-15-2016-00043
GINOP
EFOP-3.6.2-16-2017-00006
EFOP
OTKA-112333
OTKA
11003
MTA
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4.

001-es BibID:BIBFORM076938
035-os BibID:(WoS)000460459200017 (Scopus)85062410676
Első szerző:Sikura Katalin Éva (biológus)
Cím:Potential Role of H-Ferritin in Mitigating Valvular Mineralization / Katalin Éva Sikura, László Potor, Tamás Szerafin, Abolfazl Zarjou, Anupam Agarwal, Paolo Arosio, Maura Poli, Zoltán Hendrik, Gábor Méhes, Melinda Oros, Niké Posta, Lívia Beke, Ibolya Fürtös, György Balla, József Balla
Dátum:2019
ISSN:1079-5642
Megjegyzések:Objective- Calcific aortic valve disease is a prominent finding in elderly and in patients with chronic kidney disease. We investigated the potential role of iron metabolism in the pathogenesis of calcific aortic valve disease. Approach and Results- Cultured valvular interstitial cells of stenotic aortic valve with calcification from patients undergoing valve replacement exhibited significant susceptibility to mineralization/osteoblastic transdifferentiation in response to phosphate. This process was abrogated by iron via induction of H-ferritin as reflected by lowering ALP and osteocalcin secretion and preventing extracellular calcium deposition. Cellular phosphate uptake and accumulation of lysosomal phosphate were decreased. Accordingly, expression of phosphate transporters Pit1 and Pit2 were repressed. Translocation of ferritin into lysosomes occurred with high phosphate-binding capacity. Importantly, ferritin reduced nuclear accumulation of RUNX2 (Runt-related transcription factor 2), and as a reciprocal effect, it enhanced nuclear localization of transcription factor Sox9 (SRY [sex-determining region Y]-box 9). Pyrophosphate generation was also increased via upregulation of ENPP2 (ectonucleotide pyrophosphatase/phosphodiesterase-2). 3H-1, 2-dithiole-3-thione mimicked these beneficial effects in valvular interstitial cell via induction of H-ferritin. Ferroxidase activity of H-ferritin was essential for this function, as ceruloplasmin exhibited similar inhibitory functions. Histological analysis of stenotic aortic valve revealed high expression of H-ferritin without iron accumulation and its relative dominance over ALP in noncalcified regions. Increased expression of H-ferritin accompanied by elevation of TNF-α (tumor necrosis factor-α) and IL-1β (interleukin-1β) levels, inducers of H-ferritin, corroborates the essential role of ferritin/ferroxidase via attenuating inflammation in calcific aortic valve disease. Conclusions- Our results indicate that H-ferritin is a stratagem in mitigating valvular mineralization/osteoblastic differentiation. Utilization of 3H-1, 2-dithiole-3-thione to induce ferritin expression may prove a novel therapeutic potential in valvular mineralization.
Tárgyszavak:Orvostudományok Klinikai orvostudományok idegen nyelvű folyóiratközlemény külföldi lapban
folyóiratcikk
arteriosclerosis
chronic kidney disease
phosphate
stenosis
vascular calcification
Megjelenés:Arteriosclerosis Thrombosis and Vascular Biology. - 39 : 3 (2019), p. 413-431. -
További szerzők:Potor László Szerafin Tamás (1960-) (szívsebész, mellkassebész) Zarjou, Abolfazl (1979-) (kutató orvos) Agarwal, Anupam Arosio, Paolo Poli, Maura Hendrik Zoltán (1986-) (orvos) Méhes Gábor (1966-) (patológus) Oros Melinda (1975-) (molekuláris biológus) Posta Niké Beke Lívia Fürtös Ibolya Balla György (1953-) (csecsemő és gyermekgyógyász, neonatológus) Balla József (1959-) (belgyógyász, nephrológus)
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