Abstract
Inter-organ crosstalk plays an essential role in the physiological homeostasis of the heart and other organs, and requires a complex interaction between a host of cellular, molecular, and neural factors. Derangements in these interactions can initiate multi-organ dysfunction. This is the case, for instance, in the heart or kidneys where a pathological alteration in one organ can unfavorably affect function in another distant organ; attention is currently being paid to understanding the physiopathological consequences of kidney dysfunction on cardiac performance that lead to cardiorenal syndrome. Different cardiorenal connectors (renin–angiotensin or sympathetic nervous system activation, inflammation, uremia, etc.) and non-traditional risk factors potentially contribute to multi-organ failure. Of these, inflammation may be crucial as inflammatory cells contribute to over-production of eicosanoids and lipid second messengers that activate intracellular signaling pathways involved in pathogenesis. Indeed, inflammation biomarkers are often elevated in patients with cardiac or renal dysfunction. Epigenetics, a dynamic process that regulates gene expression and function, is also recognized as an important player in single-organ disease. Principal epigenetic modifications occur at the level of DNA (i.e., methylation) and histone proteins; aberrant DNA methylation is associated with pathogenesis of organ dysfunction through a number of mechanisms (inflammation, nitric oxide bioavailability, endothelin, etc.). Herein, we focus on the potential contribution of inflammation in pathogenesis of cardiorenal syndrome.
Highlights
Heart and kidney function are strongly connected
Biological communication between organs, involves cellular, molecular and neural factors; it plays an essential role in physiological homeostasis and in the event of malfunction can induce organ dysfunction [1,2,3,4,5]
Multi-factorial mechanisms that lead to cardiorenal syndrome are limited to hemodynamic parameters
Summary
Heart and kidney function are strongly connected. Organ crosstalk, or biological communication between organs, involves cellular, molecular and neural factors; it plays an essential role in physiological homeostasis and in the event of malfunction can induce organ dysfunction [1,2,3,4,5]. Cardiorenal syndrome involves complex interactions at the molecular level which induce vessel inflammation, atherosclerosis, cardiac fibrosis, and hypertrophy [8]; in addition, structural and biochemical abnormalities can adversely affect cardiovascular or renal function [9,10]. These complex associations could result from various confounding factors and not direct organ-to-organ interactions. Clinical and epidemiological observations support the strong causal association between CKD, cardiovascular risk, and heart failure [19,20] This suggests that prevention of either component could help to attenuate disease progression and death [21,22]; it is clear that co-existence of either of these conditions significantly affects patient outcomes [23]. Experimental data from our own studies in this field were consulted
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