Monocrotaline-induced right ventricular failure in rats was associated with a 4-fold upregulation of tenascin-C gene expression compared to controls (p<0.001).
Does monocrotaline-induced right ventricular failure alter myocardial and plasma tenascin-C levels in rats?
In a rat model of pressure overload-induced right ventricular failure, myocardial and plasma tenascin-C levels are significantly elevated, suggesting its potential as a biomarker for ventricular failure.
Effect estimate: 4-fold
p-value: p=<0.001
BACKGROUND: We investigated whether (1) monocrotaline(MCT)-induced right ventricular (RV) dilatation is associated with re-expression of myocardial tenascin-C (TNC), (2) elevated plasma TNC levels can be used as a marker of ventricular dilatation, and (3) MCT-induced RV dilatation is associated with alterations of other remodeling-related proteins. METHODS: Rats were treated with MCT in low dose (30 mg/kg, MCT30, n=10) to induce compensated RV hypertrophy, in high dose (80 mg/kg, MCT80, n=11) to induce RV failure, and with saline as control (CONT, n=9). After 4 weeks, RV function was assessed. TNC gene expression, protein levels, and plasma levels were assayed. Myocardial gene expression of integrin subunit alpha6 and beta1, and myocardial proMMP2 and proMMP9 levels were assessed. RESULTS: TNC gene expression in the RV of MCT80 rats was significantly upregulated compared with RV of CONT (4-fold, p<0.001) and MCT30 rats (3-fold, p<0.01), whereas TNC gene expression was very low in LV and IVS of MCT80 rats, and absent in those of CONT and MCT30 rats. Myocardial TNC protein levels were only observed in MCT80 rats, and were higher in RV (0.62+/-0.64 ng/mg) than in LV (0.21+/-0.44 ng/mg) or IVS (0.21+/-0.09 ng/mg) (p<0.01, RV vs LV and IVS). Plasma levels of TNC were significantly elevated in MCT80 rats compared with CONT (p<0.05). RV volumes correlated positively with TNC plasma levels and RV ejection fraction correlated negatively with TNC plasma levels. MCT-induced RV failure was also associated with a significant downregulation of integrin alpha6 gene expression (by 48%, p<0.01). CONCLUSIONS: MCT-induced RV failure is associated with an upregulation of TNC gene expression, resulting in re-expression of myocardial TNC protein levels, and elevated TNC plasma levels. As RV ejection fraction correlated significantly with TNC plasma levels, TNC plasma levels may serve as a marker of ventricular failure. De-adhesive properties of TNC in combination with a downregulation of integrin alpha6 may have caused cardiomyocyte slippage, leading to adverse ventricular remodeling.
Hessel et al. (Thu,) conducted a other in Right ventricular failure (n=30). Monocrotaline vs. Saline was evaluated on TNC gene expression in the RV (4-fold, p=<0.001). Monocrotaline-induced right ventricular failure in rats was associated with a 4-fold upregulation of tenascin-C gene expression compared to controls (p<0.001).
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