Rab7l1 plays a role in regulating surface expression of toll like receptors and downstream signaling in activated macrophages.

Rab GTPases are known for controlling intracellular membrane traffic in a GTP-dependent manner. Rab7l1, belonging to family of Rab GTPases, is important for both endosomal sorting and retrograde transport. In our previous study, we identified a novel role of Rab7l1 in phagosome maturation.

Rabaptin5 acts as a key regulator for Rab7l1-mediated phagosome maturation process.

Phagosome maturation is an important innate defence mechanism of macrophages against pathogen infections. Phagosome-lysosome (P-L) fusion is a highly regulated process. Different RabGTPases are involved in P-L fusion.

Phagosome maturation and modulation of macrophage effector function by intracellular pathogens: target for therapeutics.

Macrophages are important cells that regulate various innate functions. Macrophages after engulfment of pathogens proceed for phagosome maturation and finally fuse with lysosomes to kill pathogens. Although pathogen degradation is one of the important functions of phagosomes, various immune-effector functions of macrophages are also dependent on the phagosome maturation process.

Calcium Signaling Commands Phagosome Maturation Process.

Phagosome-lysosome (P-L) fusion is one of the central immune-effector responses of host. It is known that phagosome maturation process is associated with numerous signaling cascades and among these, important role of calcium (Ca) signaling has been realized recently. Ca plays key roles in actin rearrangement, activation of NADPH oxidase and protein kinase C (PKC).

Tailor-made ezrin actin binding domain to probe its interaction with actin in-vitro.

Ezrin, a member of the ERM (Ezrin/Radixin/Moesin) protein family, is an Actin-plasma membrane linker protein mediating cellular integrity and function. In-vivo study of such interactions is a complex task due to the presence of a large number of endogenous binding partners for both Ezrin and Actin. Further, C-terminal actin binding capacity of the full length Ezrin is naturally shielded by its N-terminal, and only rendered active in the presence of Phosphatidylinositol bisphosphate (PIP2) or phosphorylation at the C-terminal threonine.