Mechanotransduction plays a major role in Immune response

Image

Mechanotransduction plays a major role in Immune response

Immunogenetics: Open access journal focuses on the genetic research areas of autoimmune disorders such as multiple sclerosis, rheumatoid arthritis, Crohn’s disease, diabetes mellitus type 1, systemic lupus erythematous, etc. Articles on genetics of cell interaction with immune system, immune response to transplantation, immune based therapies for treatment of cancers, antigenic phylogeny of alleles, alloantigens are also welcome.

The current major focus of immunology is how our immune systems are regulated. In particular, how different receptors at the surface of immune cells respond to the presence of either antigen or pathogen, and how these responses are regulated at a subcellular level. But we should keep in mind that biophysical cues generated by physiological events, either normal or abnormal, also influence our immune system. The development of new technologies and interdisciplinary approaches has allowed us to investigate physical effects on biological interactions, shifting the view of cells as passive organisms to active entities.

Mechanotransduction is a process by which cells are able to sense mechanical stress, and transfer it into a biochemical signal. In this process, mechanoreceptors present at the cell membrane sense the mechanical stress and transfer the signal to the other signalling molecules. It is well known that mechanical stimuli such as blood flow in vessels, stretch in lung or cell division induced stresses regulate the conformational changes of different receptors, Defect plasma membrane density of different molecules, change cytoskeleton dynamics, and control gene expression.

Circulating and tissue leukocytes are exposed to a variety of mechanical stresses. In arteries, circulating leukocytes can be subjected to different flow dynamics (laminar, disturbed laminar or turbulent flows In addition, white blood cells in different vascular beds (arterial, venous and microvasculature) are subjected to different magnitudes of shear stress. The different degrees of mechanical stress and different types of flow dynamics control several aspects of immunity ranging from adaptive immune responses, to innate humoral immunity, cell adhesion and migration and release of pro and anti-inflammatory responses. In fact, there is an emerging paradigm showing that normal physiological stress is immunosuppressant while pathophysiological mechanical stress is inflammatory.

Beside these basic aspects of mechanotransduction on immune responses, investigating the effect of physiological/pathophysiological levels and types of mechanical stress on immune responses will add depth to our current knowledge. Understanding the effect of physical surroundings on different aspects of cellular responses is essential for the development of new and more efficient anti-inflammatory therapies.

Contributors are welcome to publish high quality clinical, and laboratory research as case series, reviews, guidelines, techniques and practices.

Submit manuscripts on Editorial submission & Review tracking system or attachment to email at immunogenetics@immunologyjournals.org

Contact Details
Robert Solomon
Managing Editor
Immunogenetics: open access