To the best of the authors’ knowledge, this is the first study that reports changes in a panel of inflammatory and oxidative stress biomarkers in dogs with different stages of heart failure (stage A, B2, C and D) and their correlations with echocardiographic findings. Our results show that among parameters studied KC-like as an inflammatory chemokine seems to be a reliable biomarker to monitor disease severity and treatment efficacy in dogs with CHF. Inflammatory and oxidative stress markers can contribute to cardiac remodeling in the progression of CHF in dogs. In this study, CHF due to MMVD or DCM was diagnosed based on a thorough cardiopulmonary assessment as reported in the previous studies (5, 13), and classified by stage A through D according to the ACVIM consensus statement guidelines (3).
Accumulating evidence indicates that acute-phase proteins (APPs), inflammatory cytokines and oxidative stress may have a role in the pathogenesis of CHF in humans (30) and dogs (8, 31), but it is not known how inflammatory biomarkers changes in the different stages of heart failure. In this study, increased concentrations of CRP and Hp and decreased activity of PON1 in stage D dogs showed that APPs may be associated with end-stage CHF. Similar to our results, significantly higher serum CRP concentration was found in dogs with decompensated CHF compared with compensated dogs with heart disease and healthy dogs (13). Our data are also in agreement with previous studies in which PON1 was described as an enzyme with cardioprotective action in atherosclerosis and related vascular diseases (32), and its activity decreased in humans with CHF (33, 34) and in situations of increased systemic oxidative stress and risk for cardiovascular disease in mouse (35). Therefore, the observed changes in APPs and PON1 activity in this study provide further support for a role of systemic inflammatory activity and oxidative processes in the progression of CHF and a potential anti-oxidant compensatory role of PON1.
Several reports have demonstrated enhanced expression and release of inflammatory cytokines and several chemokines in humans with CHF (36, 37, 38). In this study, a panel of serum cytokines and chemokines was evaluated, and only serum KC-like levels were increased in symptomatic stages of CHF (stage C and D) compared to asymptomatic (stage B2) and healthy dogs (stage A). In a study similar to ours, Zois et al. (8) reported that MCP-1 chemokine was increased in CHF dogs compared to healthy dogs and some ILs decreased with disease severity. Information about KC-like, a major neutrophil chemoattractant, is limited, but it appears to play a role in systemic or generalized inflammation (39). Increased plasma levels of KC-like have been associated with severe cardiac depression in old mice (12). Observed positive correlations between KC-like and other parameters (CRP, Hp, ferritin, and WBC and neutrophil counts) suggest inflammatory potency of KC-like and its interaction with APPs in the progression of canine CHF. Inflammatory mediators may be released from the failing myocardium itself, and also from circulating WBC, platelets, endothelial cells, and from the liver and lungs and may contribute to myocardial depression and detrimental consequences such as endothelial dysfunction and cardiac myocyte apoptosis (40, 41).
In our study, lower values of all antioxidant biomarkers were found in severe stages of CHF. Similar to our findings, some of the antioxidant biomarkers such as thiol was decreased in humans with CHF (17). Decreased myocardial contractility or pressure/volume overload leads to myocardial ischemia, which in turn induces an increase in xanthine oxidase and decreases in the scavenging activity of superoxide dismutase and glutathione peroxidase (12). It has also been described that oxidative damage to low-density lipoprotein by reactive oxygen species (ROS) can influence the initiation and progression of valve lesions (43). This is in line with the fact that animal models of CHF have suggested that myocardial antioxidant defenses are also impaired (44). Also, an increase in ROS in heart muscle leads to cardiac fibrosis in rats (45). The decrease in antioxidant biomarkers could be connected with the increase in inflammatory biomarkers since the imbalance between antioxidants and oxidants can lead to induction of inflammatory cytokines, besides can cause direct cytotoxicity (44, 46). As changes in markers of inflammation and oxidative stress were detected in stage D dogs, it can be suggested that the degree of inflammatory activity and antioxidant system impairment may be linked to the severity of the disease.
When the individual animals were evaluated before and after the treatment, there was in general, a decrease in the biomarkers of inflammation and an increase in the antioxidant biomarkers, which was associated with the clinical improvement of the dogs. Although the number of animals was low and these findings should be demonstrated in larger and more diverse groups of dogs with severe stages of HF, it could be postulated that biomarkers such as CRP and antioxidant biomarkers could have potential diagnostic and prognostic relevance to monitoring treatment in cases of severe CHF (stage D).
Our findings of a positive correlation between CRP levels and LV diameter and LA/Ao ratio are in agreement with a previous report made in dogs with CHF (6). This finding and the negative correlation found between these cardiac variables and serum PON1 levels would indicate that APPs have possible role in the pathophysiology of CHF in dogs. On the other hand, the negative correlation between serum CUPRAC, TEAC, thiol levels and LV dimensions may indicate the role of antioxidant system deficit in the development of cardiac remodeling from stage B2 to stage D CHF. Studies have shown that deficit of antioxidant capacity may have a role for myocardial injury and then developing CHF (47) and that CHF after myocardial infarcts are associated with an antioxidant deficit as well as an increase in oxidative stress (48). Based on these findings it could be postulated that antioxidant therapy or supplementation may be beneficial to slow or prevent the progression of CHF in dogs.
The present study is associated with several limitations. First, the sample size was small to obtain results with definitive statistical significance. Dogs were not sub-divided as MMVD and DCM in this study. Despite the fact that they have a different pathogenesis, both of them have resulted in CHF in humans (4) and dogs (2, 3). Second, there were wide-ranging variations in the body weight and various breeds of the included dogs. Both of them can influence several echocardiographic parameters such as LA and LV dimensions and EPSS. The LA/Ao ratio indicates the degree of LA dilation and shows a positive correlation with the severity of heart failure (49, 50). LVIDDN is suggested as a more favourable indicator for evaluation of the degree of LV dilation in dogs (51). Therefore in this study, LA/Ao ratio and LVIDDN were used to describe echocardiographic evidence of cardiac remodeling.