Subsequent gene/ncRNA expression analysis was assessed using quantitative reverse transcription polymerase chain reaction and revealed 6 genes: 4 hypermethylated ( HEY2, MSR1, MYOM3, and COX17), 2 hypomethylated ( CTGF and MMP2); and 2 microRNA: 1 hypermethylated (miR-24-1), 1 hypomethylated (miR-155) with significantly upregulated or downregulated expression levels consistent with the direction of methylation in the particular HF subgroup.
Key steps where CCNs may play a pathogenic metabolic role include: (i) obesity and insulin resistance, where CCN2 inhibits fat cell differentiation in vitro and CCN3 may induce obesity and insulin resistance; (ii) elevated blood glucose levels to diabetes mellitus onset, where CCN2 may contribute to pancreatic beta cell and islet function; and (iii) in diabetes complications, such as nephropathy, retinopathy, liver disease (NAFLD/NASH), CVD and diabetes with heart failure.
Expression levels of TGF‑β and CTGF were decreased, whereas those of miR‑29b, miR‑30c and miR‑133a were increased, in the HF + RSD group compared with the HF + sham group.
A promoter polymorphism -945C>G in the connective tissue growth factor in heart failure patients with mechanical circulatory support: a new marker for bridge to recovery?
Myocardial connective tissue growth factor (CTGF/CCN2) is induced in heart failure, a condition associated with diminution of β-adrenergic receptor (β-AR) responsiveness.
CCN2/connective tissue growth factor (CTGF), a CCN family matricellular protein repressed in healthy hearts after birth, is induced in heart failure of various etiologies.
HSPG and CTGF were diffusely abundant in fibrous portal tracts/septa in CHF, while they were more or less accentuated at periportal areas in alcoholic F/C and CVH.