Clones of Interstitial Cells from Bovine Aortic Valve Exhibit Different Calcifying Potential when Exposed to Endotoxin and Phosphate

Overview

Journal Arterioscler Thromb Vasc Biol

Date 2008 Oct 4

PMID 18832754

Citations 18

Authors

Marcello Rattazzi

Laura Iop

Elisabetta Faggin

Elisa Bertacco

Giacomo Zoppellaro

Ilenia Baesso

Massimo Puato

Gianluca Torregrossa

Gian Paolo Fadini

Carlo Agostini

Gino Gerosa

Saverio Sartore

Paolo Pauletto

Affiliations

Soon will be listed here.

Abstract

Objective: Our purpose was to study in vitro whether phenotypically-distinct interstitial cell clones from bovine aortic valve (BVIC) possess different calcifying potential in response to endotoxin (lipopolysaccharide [LPS]) and phosphate (Pi).

Methods And Results: Among various clones of BVIC obtained by limited dilution technique we selected 4 clones displaying different growth patterns and immunophenotypes. Uncloned and cloned cells were treated with combinations of LPS (100 ng/mL) and Pi (2.4 mmol/L). Uncloned BVIC showed increased alkaline phosphatase activity (ALP) after treatment with LPS, which resulted in calcification after addition of Pi. Among BVIC clones, only Clone 1 (fibroblast-like phenotype) showed a relevant increase in ALP after LPS treatment in parallel with prevention of smooth muscle (SM) alpha-actin accumulation. No effect was observed in clonal cells harboring a more stable SM cell-like profile (Clone 4). None of the isolated clones calcified but mineralization was induced in the presence of LPS plus Pi when Clone 1 was cocultured with Clone 4 or after seeding on type I collagen sponges.

Conclusions: Endotoxin and phosphate can act as valve calcification promoters by targeting specific fibroblast-like interstitial valve cells that possess a unique procalcific potential.

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