Role of Distinct Macrophage Populations in the Development of Heart Failure in Macrophage Activation Syndrome.
Jakub KunaZbigniew Michał ŻuberGrzegorz ChmielewskiLeszek GromadzińskiMagdalena Krajewska-WłodarczykPublished in: International journal of molecular sciences (2022)
Macrophage activation syndrome (MAS) is one of the few entities in rheumatology with the potential to quickly cause multiple organ failure and loss of life, and as such, requires urgent clinical intervention. It has a broad symptomatology, depending on the organs it affects. One especially dangerous aspect of MAS's course of illness is myocarditis leading to acute heart failure and possibly death. Research in recent years has proved that macrophages settled in different organs are not a homogenous group, with particular populations differing in both structure and function. Within the heart, we can determine two major groups, based on the presence of the C-C 2 chemokine receptor (CCR2): CCR2+ and CCR2-. There are a number of studies describing their function and the changes in the population makeup between normal conditions and different illnesses; however, to our knowledge, there has not been one touching on the matter of changes occurring in the populations of heart macrophages during MAS and their possible consequences. This review summarizes the most recent knowledge on heart macrophages, the influence of select cytokines (those particularly significant in the development of MAS) on their activity, and both the immediate and long-term consequences of changes in the makeup of specific macrophage populations-especially the loss of CCR2- cells that are responsible for regenerative processes, as well as the substitution of tissue macrophages by the highly proinflammatory CCR2+ macrophages originating from circulating monocytes. Understanding the significance of these processes may lead to new discoveries that could improve the therapeutic methods in the treatment of MAS.
Keyphrases
- heart failure
- dendritic cells
- acute heart failure
- regulatory t cells
- adipose tissue
- healthcare
- stem cells
- randomized controlled trial
- atrial fibrillation
- induced apoptosis
- mesenchymal stem cells
- genetic diversity
- immune response
- climate change
- systemic lupus erythematosus
- case report
- cell therapy
- cell death
- replacement therapy
- tissue engineering
- combination therapy
- binding protein