Dr. Sheikh Rayees Rafiq

Ramalingaswami Fellow

CSIR – Indian Institute of Integrative Medicine,Canal Road, Jammu – 180001
Email: rayeesh[dot]iiim[at]csir[dot]res[dot]in

Profile

Bio Sketch

Dr. Rayees earned his PhD degree from CSIR-IIIM and SMVDU and conducted his postdoctoral research work at University of Illinois Chicago, USA. During his postdoctoral research he studied i) the counterbalancing mechanism that deactivates alveolar macrophage inflammatory signalling to prevent lethal lung edema, and ii) the signalling cascade that activates P. aeruginosa clearance in alveolar macrophages to prevent death from bacterial pneumonia.

He demonstrated that PAR2, a GPCR, induced cAMP generation in alveolar macrophages and suppresses activation NFAT, secondary to Ca²⁺entry through TRPV4 channel and hence blocks the inflammatory signalling of alveolar macrophages which may otherwise lead to lethal pulmonary edema.

In another study, he showed that PAR2 expressed on mouse alveolar macrophages mediates the clearance of P. aeruginosa to prevent mortality from pneumonia. He showed that binding of P. aeruginosa to PAR2 elevated cAMP levels, activates Rac1 through PKA to form actin-rich protrusions and augment clearance of P. aeruginosa. These studies involved the use of highly efficient mouse models such as generation of mouse chimeras (bone marrow transplantation), in vivo gene delivery of PAR2, CREB, Rac1 (Q61L) cDNA in inflammation, infection and developmental biology mice models, adoptive transfer of PAR2^+/+ or PAR2^-/- and macrophages following clodronate induced macrophage depletion and mouse models of bacterial pneumonia. These studies also involved use of explicit cell biology techniques related to GPCR translocation, FRET imaging, live cell imaging, electroporation.

His scientific training during PhD programme at CSIR-IIIM was mainly focussed on drug discovery. He published several good impact research articles as lead author. During this tenure he learnt techniques related to general and advanced pharmacology, pharmacokinetics and pharmacodynamics. He gained special expertise over rodent invasive and non-invasive techniques during his PhD programme.

Recently Dr. Rayees demonstrated that TRPV4 activation increases intracellular Ca²⁺, activating CREB to boost IL-10 production in macrophages, which helps reprogram them to resist inflammatory damage. In a mouse ALI model, TRPV4-driven IL-10 did not resolve inflammation but prevented mitochondrial dysfunction via the CREB-IL-10 axis. IL-10 also promoted mitophagy, clearing damaged mitochondria in LPS-exposed cells. The study suggested TRPV4 and IL-10 as potential targets for mitigating inflammation-related cellular dysfunction.

Education

Degree	Subjects	University	Qualifying Year
PhD	Biotechnology	CSIR-IIIM / SMVDU, Jammu	2015
MSc	Biotechnology	HNB Garhwal University, Uttarakhand	2008
BSc	Biology,Chemsitry	University of Kashmir	2005

Position Held

Position Held	Period	Organization
Ramalingaswami Fellow	Oct 2020-Present	CSIR-IIIM, Jammu
Posdoctoral research associate	Nov 2015-Aug 2020	University of Illinois Chicago, USA

Area of Expertise

GPCR and Calcium signalling in lung inflammation and infection
Molecular pharmacology of inflammation
Development of mouse models of respiratory diseases and inflammation
Safety pharmacology
Drug discovery

Project Involved / Ongoing Projects

Projects

Development of a new generation small molecule inhibitor to block TRPV4 mediated signaling in acute lung injury: GAP-2199
Discovery of small molecule inhibitors targeting NLRP3-mediated signaling in ALI/ARDS: FBR-070307
Exploring Seamount Ecosystems: Biodiversity, Ecosystem Functioning, and Mining of Genetically Encoded Metabolites (GEMs) through an Integrated Multi-Omics Approach (Deep Sea Mission): GAP-3157
Preclinical validation of poly-herbal formulation for the management of bronchial asthma (Industry-sponsored): SSP25001
Exploration of the untapped synthetic potential of naturally occurring labdane diterpene sclareol; Synthesis of novel oxo-, and aza- heterocycles as anti-inflammatory agents: GAP-3158

Publications and Patents

Publications

Authors	Title	Journal
Rayees S, Joshi JC, Tauseef M, Anwar M, Baweja S, Rochford I, Joshi B, Hollenberg MD, Reddy SP, Mehta D.	PAR2-Mediated cAMP Generation Suppresses TRPV4-Dependent Ca2+ Signaling in Alveolar Macrophages to Resolve TLR4-Induced Inflammation. 2019,16;27(3):793-805.	Cell Reports
Rayees S, Joshi JC, Joshi B, Vellingiri V, Banerjee S, Mehta D.	Protease-activated receptor 2 promotes clearance of Pseudomonas aeruginosa infection by inducing cAMP-Rac1 signaling in alveolar macrophages. 2022, 20;13:874197	Front. Pharmacol.
Joshi JC, Joshi B, Rochford I, Rayees S, Akhter MZ, Baweja S, Chava KR, Tauseef M, Abdelkarim H, Natarajan V, Gaponenko V, Mehta D.	SPHK2-Generated S1P in CD11b+ Macrophages Blocks STING to Suppress the Inflammatory Function of Alveolar Macrophages. 2020, 24;30(12):4096-4109.	Cell Reports
Rochford I, Joshi JC, Rayees S, Anwar M, Akhter MZ, Yalagala L, Banerjee S, Mehta D.	Evidence for reprogramming of monocytes into reparative alveolar macrophages in vivo by targeting PDE4b. 2021,321(4):L686-L702.	AJP-Lung
Rayees S, Mabalirajan U, Bhat WW, Rasool S, Rather RA, Panda L, Satti NK, Lattoo SK, Ghosh B, Singh G.	Therapeutic effects of R8, a semi-synthetic analogue of Vasicine, on murine model of allergic airway inflammation via STAT6 inhibition. 2015,26(1): 246-56.	Int. Immunopharmacol.
Rayees S, Sharma R, Singh G, Najar IA, Singh A, Ahamad DB, Sharma SC, Tikoo MK, Gupta VK, Sangwan PL, Singh S, Koul S, Johri RK.	Acute, sub-acute and general pharmacological evaluation of 5-(3,4-methylenedioxyphenyl)-4-ethyl-2E,4E-pentadienoic acid piperidide (SK-20): a novel drug bioavailability enhancer. 2013, 35(2):347-59.	Environ. Toxicol. Pharmacol.
Rayees S, Kumar A, Rasool S, Kaiser P, Satti NK, Sangwan PL, Singh S, Johri RK, Singh G.	Ethanolic extract of Alternanthera sessilis (AS-1) inhibits IgE-mediated allergic response in RBL-2H3 cells. 2013, 42(6):470-80.	Immunol. Investig.
Majeed R, Hamid A, Sangwan PL, Chinthakindi PK, Koul S, Rayees S, Singh G, Mondhe DM, Mintoo MJ, Singh SK, Rath SK, Saxena AK.	Inhibition of phosphotidylinositol-3 kinase pathway by a novel naphthol derivative of betulinic acid induces cell cycle arrest and apoptosis in cancer cells of different origin. 2014, 5(10): e1459.	Cell death & disease
Arfath Y, Kotra T, Faizan MI, Akhtar A, Abdullah ST, Ahmad T, Ahmed Z, Rayees S	TRPV4 facilitates the reprogramming of inflamed macrophages by regulating IL-10 production via CREB. 2024, 73(10):1687-1697.	Inflamm Res.
Kumar P, Kotra T, Lone WI, Arfath Y, Tiwari H, Shukla AK, Ahmed Z, Rayees S, Anal JMH.	Design, synthesis and antiproliferative activity of novel colchicine derivatives: selective inhibition of melanoma cell proliferation. 2025, 16:1528235.	Front Pharmacol.

Patents Filed

Inventors	Title	Application No	Filing date
Pankaj Singh Cham, Loveleena Anand, Yassir Arfath, Nadia Rashid, Mir Shahid Maqbool, Ria Gupta, Zaheen Akhter, Varun Pratap Singh, Zabeer Ahmed, Sheikh Rayees Rafiq, Fayaz Ahmad Malik, Parvinder Pal Singh	Synthesis of 2’-(Heterocyclylmethyl)-cannabidiol as Anti-depressant and anti-inflammation Agent	202311033447	11-May-23

Awards / Honours

Awards and Honours

RamalingaSwami award (2020) from Department of Biotechnology, Government of India, 2020.
Postdoctoral travel award by the American Physiological society (APS),Experimental biology 2018, San Diego, USA.
Senior Research Fellow grant from Indian Council of Medical Research(ICMR), Government of India, 2013.

Group

Students

Photo	Name	Area of intrest	Position	Education
	Yassir Arfath	Ligand induced TRPV4 modulation, its cross talk and role inflammation	JRF-UGC
	Tusharika Kotra	Lung injury/Lung inflammation- Mechanistic and therapeutic understanding	JRF- CSIR
	Rahila Akhter	NLRP3 as a Therapeutic Target: Preclinical Evaluation of Small Molecule Inhibitors to Halt ARDS Development	SRF-CSIR
	Radha Sharma	Pulmonary Fibrosis: From Pathways to Treatment	JRF-CSIR

Dr. Sheikh Rayees Rafiq