High Salt Promotes Inflammatory and Fibrotic Response in Peritoneal Cells

Pap, Domonkos ✉ [Pap, Domonkos (molekuláris biológia), author] ELKH-SE Pediatrics and Nephrology Research Group (SU / FM / C / DP); Department of Pediatrics (SU / FM / C); Pajtók, Csenge [Pajtók, Csenge (nefrológia), author] Department of Pediatrics (SU / FM / C); Veres-Székely, Apor [Veres-Székely, Apor (molekuláris biológia), author] ELKH-SE Pediatrics and Nephrology Research Group (SU / FM / C / DP); Department of Pediatrics (SU / FM / C); Szebeni, Beáta [Szebeni, Beáta (immunológia), author] Research Group of Pediatrics and Nephrology, Hu... (SU / FM / C / IDP); Department of Pediatrics (SU / FM / C); Szász, Csenge [Szász, Csenge (gyermekgyógyászat), author] Department of Pediatrics (SU / FM / C); Bokrossy, Péter [Bokrossy, Péter (gyemekgyógyászat,...), author] Department of Pediatrics (SU / FM / C); Zrufkó, Réka [Zrufkó, Réka (Phd student), author] Department of Pediatrics (SU / FM / C); Vannay, Ádám [Vannay, Ádám (Molekuláris biológia), author] Research Group of Pediatrics and Nephrology, Hu... (SU / FM / C / IDP); Department of Pediatrics (SU / FM / C); Tulassay, Tivadar [Tulassay, Tivadar (gyermekgyógyászat), author] ELKH-SE Pediatrics and Nephrology Research Group (SU / FM / C / DP); Department of Pediatrics (SU / FM / C); Szabó, Attila J. [Szabó, Attila (Gyermekgyógyászat...), author] ELKH-SE Pediatrics and Nephrology Research Group (SU / FM / C / DP); Department of Pediatrics (SU / FM / C)

English Article (Journal Article) Scientific
Published: INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES 1661-6596 1422-0067 24 (18) Paper: 13765 , 19 p. 2023
  • SJR Scopus - Inorganic Chemistry: D1
Identifiers
Fundings:
  • (K142728) Funder: HSRF
  • (K125470)
  • (TKP2021-EGA-24)
  • (STIA-KFI-2021)
  • (ELKH-PoC-2022-024)
  • (ÚNKP-22-4-II-SE-12)
  • (ÚNKP-22-5-SE-17)
  • (János Bolyai Research Scholarship)
Recent studies draw attention to how excessive salt (NaCl) intake induces fibrotic alterations in the peritoneum through sodium accumulation and osmotic events. The aim of our study was to better understand the underlying mechanisms. The effects of additional NaCl were investigated on human primary mesothelial cells (HPMC), human primary peritoneal fibroblasts (HPF), endothelial cells (HUVEC), immune cells (PBMC), as well as ex vivo on peritoneal tissue samples. Our results showed that a high-salt environment and the consequently increased osmolarity increase the production of inflammatory cytokines, profibrotic growth factors, and components of the renin–angiotensin–aldosterone system, including IL1B, IL6, MCP1, TGFB1, PDGFB, CTGF, Renin and Ace both in vitro and ex vivo. We also demonstrated that high salt induces mesenchymal transition by decreasing the expression of epithelial marker CDH1 and increasing the expression of mesenchymal marker ACTA2 and SNAIL1 in HPMCs, HUVECs and peritoneal samples. Furthermore, high salt increased extracellular matrix production in HPFs. We demonstrated that excess Na+ and the consequently increased osmolarity induce a comprehensive profibrotic response in the peritoneal cells, thereby facilitating the development of peritoneal fibrosis.
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2025-05-05 23:40