IIT Roorkee Researchers Identify New Function of a Protein that Can Help Treat Sepsis
Elaborating on the importance of this work, the lead researcher Dr. Pranita P Sarangi, Assistant Professor, Department of Biotechnology, IIT Roorkee, said, “Abnormal functions of immune cells are associated with many pathological conditions such as severe sepsis (blood infection) and other inflammatory diseases. During sepsis, an uncontrolled infection leads to abnormal activation and localization of important immune cells such as neutrophils and macrophages.”
A dysfunctional immune response leads to deposition of such cells in visceral organs such as lung, kidney and liver causing multi-organ failure and death. Sometimes, use of antibiotics against infections could even aggravate the condition by releasing broken components of bacteria into the blood which further activates our immune cells. In an animal model of sepsis, both the full length Fbln7 (Fbln7-FL) protein and its C-terminal fragment (Fbln7C) inhibited macrophage and neutrophil infiltration to the inflamed tissues and organs such as peritoneal cavity and lungs.
Abnormal functions of immune cells are associated with many pathological conditions such as severe sepsis (blood infection) and other inflammatory diseases. During sepsis, an uncontrolled infection leads to abnormal activation and localization of important immune cells such as neutrophils and macrophages.
Dr. Pranita P Sarangi said, "Our immune system consists of varieties of white blood cells (WBCs) or leukocytes. In response to any inflammatory and infectious stimulus, leukocytes travelling in the blood vessels immediately respond by migrating to the affected site. While exiting the blood vessel and further travelling through the tissue spaces, activated WBCs interact with extracellular matrix proteins such as collagen, fibronectin etc. The Immune cells bind to such proteins via their surface receptor molecules called as integrins. These cell matrix communication through integrin receptors not only provide support for migration but also modulate various functions of the immune cells. Recently, therapeutics targeting integrins and associated molecules have been approved for clinical trials in many diseases such as cancers (e.g. RGD peptide)."
Fibulins are a group of glycoproteins that are often associated with elastic fibers, basement membranes lining tissues and blood vessels, and other matrices. Fibulin-7 (Fbln7) was identified as the latest member of the fibulin family in developing tooth, functioning as a cell adhesion molecule and has the ability to interact with other matrix proteins, receptors, and growth factors. Fbln7 is also expressed in immune privileged tissues such as eye and placenta, but its functional significance was not known. In our study using human peripheral blood monocytes and an endotoxin induced systemic inflammation mouse model, we showed that Fbln7 and its C-terminal fragment could inhibit adhesion, migration and production of inflammatory molecules from monocytes and macrophages.
The research team consisted of Dr. Pranita P. Sarangi, Dr. Kiran Ambatipudi, Ms. Papiya Chakraborty and Mr. Shiba Prasad Dash from the Department of Biotechnology, IIT Roorkee, while Dr. Yoshihiko Yamada’s team from National Institutes of Health, USA. This research work was funded by faculty Initiation grant from IIT Roorkee and young scientist research grant from the Department of Science and Technology, Govt. of India to Dr. Sarangi, while Dr. Yamada was funded through intramural grant from National Institutes of Health, USA. This work titled “Cell adhesion protein Fibulin-7 and its C-terminal fragment negatively regulate monocyte and macrophage migration and functions in vitro and in vivo", was recently published in the official journal of the Federation of American Societies for Experimental Biology (FASEB journal) and was also presented at the international conferences organized by Indian Immunology Society (Immunocon-2017) and American Association of Immunologists (Immunology 2017).