Article

Nair , A. and Chakraborty , S. and Saha , B. (2023) CD40 induces selective routing of Ras isoformsto subcellular compartments. Journal of Cell Communication and Signaling.

Pașca, A and Fischer-Fodor , E and Monica Jiboc , N and Kubelac , PM and Saha , B. and Vlad , C and Achimaș-Cadariu , PA (2023) Achimaș-Cadariu PA. Meta-analyses reveal serum or plasma Interleukin-6 as a biomarker for malignant ovarian neoplasia. Cytokine, 161. p. 156073.

Mukherjee, A. and Roy , S. and Patidar, A. and Bodhale, N. and Dandapat, J. and Saha , B. and Sarkar , A. (2021) TLR2dimer-specific ligands selectively activate protein kinase C isoforms inLeishmania infection. Immunology, 164 (2). pp. 318-331. ISSN 2021 Oct;164(2):318-331.

Jafarzadeh , A. and Nair, A. and Jafarzadeh, S. and Nemati , M. and Sharifi, I. and Saha , B. (2021) Immunological role of keratinocytes in leishmaniasis. P. Parasite Immunology. 2021 Sep;43(9):e12870., 43 (9). e12870..

Shukla , D. and Patidar, A. and Sarma , U. and Chauhan, P. and Pandey, SP. and Chandel, HS. and Bodhale, N. and Ghosh , SK. and Guzman, CA. and Ebensen , T. and Silvestre, R. and Sarkar, A. and Saha , B. and Bhattacharjee, S. (2021) Interdependencies between Toll-like receptors in Leishmania infection. Immunology, 164 (1). pp. 173-189.

Zutshi , S. and Sarode, A. and Ghosh, SK. and Jha, MK. and Sudan, R. and Kumar, S. and Sadhale, LP. and Roy, S. and Saha, B. (2021) LmjF.36.3850, a novel hypothetical Leishmania major protein, contributes to the infection. Immunology, 163. pp. 460-477.

Das, S. and Tripathy , S. and Pramanik, P. and Saha , B. and Roy, S. (2021) A novel nano-anti-malarial induces redox damage and elicits cytokine response to the parasite. Cytokine, 144. p. 155555.

Jafarzadeh, A. and Nemat, M. and Saha , B. and Bansode, YD. and Jafarzadeh, S. (2021) Protective Potentials of Type III Interferons in COVID-19 Patients: Lessons from Differential Properties of Type I- and III Interferons . Viral Immunology, 34 (5). pp. 307-320. ISSN 2021 Jun;34(5):307-320.

Nair, A. and Kubatzky, KF. and Saha , B. (2021) Ras Isoforms from Lab Benches to Lives—What Are We Missing and How Far Are We? International Journal of Molecular Science, 22 (12). p. 6508.

Ghosh, S. and Saha , B. and Banerjee , R. (2020) Significance of heterodimerization if TLR2 /BB and TLR1/TLR6 DD loops within TIR domain of TLR cytoplasmic region in mammals. Journal of Biomolecular Structure & Dynamics.

Dey, A. and Manna, S. and Kumar, S. and Chattopadhyay, S. and Saha, B. and Roy, S. (2020) Immunostimulatoryeffect of chitosan conjugated green copper oxide nanoparticles in tumorimmunotherapy. Cytokine., 127. p. 154958.

Nair, A. and Chakraborty, S. and Banerji, L.A. and Srivastava, A. and Navare, C. and Saha, B. (2020) Rasisoforms: signaling specificities in CD40 pathway. Cell Communication and Signaling, 18 (1).

Zutshi, S. and Kumar, S. and Sarode, A. and Roy, S. and Sarkar, A. and Saha, B. (2019) Leishmania majorAdenylate kinase immunization offers partial protection to a susceptible host. Parasite Immunology., 42 (2).

Kumar, S. and Zutshi, S. and Patidar, A. and Bodhale, N. and Roy, S. and Sarkar, A. and Saha, B. (2019) LmjMAPK10offers protection against Leishmania donovani infection. Parasite Immunology.

Zutshi, S. and Kumar, S. and Chauhan, P. and Bansode, Y. and Nair, A. and Roy, S. and Sarkar, A. and Saha, B. (2019) Anti-Leishmanial Vaccines: Assumptions, Approaches, and Annulments. Vaccines (Basel), 7 (4).

Jha, M.K. and Rao, S.J. and Sarode, A.Y. and Saha, B. and Kar, A. and Pal, J.K. (2019) A Leishmania donovani Dominant Negative Mutant for eIF2α kinase LdeK1 elicits host-protective immune response. Parasite Immunology.

Jafarzadeh, A. and Nemati, M. and Sharifi, I. and Nair, A. and Shukla, D. and Chauhan, P. and Khorramdelaza, H. and Sarkar, A. and Saha, B. (2019) Leishmania species-dependent functional duality of toll-likereceptor 2. International Union of Biochemistry and Molecular Biology Life, 71 (1).

Bansode, Y.D. and Chattopadhyay, D. and Saha, B. (2019) Innate immune response in astrocytesinfected with herpes simplex virus 1. Archives of Virology , 164. pp. 1433-1439.

Das, S. and Saha, B. and Hati, A.K. and Roy, S. (2019) Reply to Rasmussen, Valecha, and Ringwald. Clinical Infectious Diseases , 69 (8). pp. 1462-1463.

Jha, M.K. and Sarode, A.Y. and Saha, B. (2019) Ras isoforms selectively regulate antigen-specific immune response. Cytokine, 126.

Das, S. and Saha, B. and Hati, A.K. and Roy, S. (2018) Evidence of Artemisinin-Resistant Plasmodium falciparum Malaria in Eastern India. New England Journal of Medicine, 379 (20). pp. 1962-1964.

Bodhale, N.P. and Pal , S. and Kumar , S. and Chattopadhyay, D. and Saha, B. and Chattopadhyay, N. and Bhattacharyya, M (2018) Inbred mouse strains differentially susceptible to Leishmaniadonovani infection differ in their immune cell metabolism. Cytokine, 112 (12).

Chauhan, P. and Saha, B. (2018) Metabolic regulation of infection and inflammation. Cytokine., 112. pp. 1-11.

Das, S. and Manna, S. and Saha, B. and Hati, A.K. and Roy, S. (2018) Novel pfkelch13 gene polymorphismassociates with artemisinin resistance in eastern India. Clinical Infectious Diseases, 10. pp. 1038-1093.

Halder, A. and Shukla, D. and Das, S. and Roy, P. and Mukherjee, A. and Saha, B. (2018) Lactoferrin-modified Betulinic Acid-loaded PLGA nanoparticles are strong anti-leishmanials. Cytokine, 110. pp. 412-415.

Soni , B. and Nimsarkar , P. and Saha , B. and Mol , M. and Singh , S. (2018) Systems-synthetic biology in understanding the complexities and simple devices in immunology. Cytokine (108). pp. 60-66.

Patidar, A. and Selvaraj, S. and Sarode, A. and Chauhan, P. and Chattopadhyay, D. and Saha, B. (2018) DAMP-TLR-cytokine axis dictates the fate of tumor. Cytokine, 104. pp. 114-123.

Shukla, D. and Chandel, H.S. and Srivastava, S. and Chauhan, P. and Pandey, S.P. and Patidar, A. and Banerjee, R. and Chattopadhyay, D. and Saha, B. (2018) TLR11 or TLR12 silencing reduces Leishmania majorinfection. Cytokine, 104. pp. 110-113.

Parveen , S. and Chowdhury , A.R. and Jawed , J.J. and Majumdar , S.B. and Saha , B. and Majumdar , S. (2017) Immunomodulation of dual specificity phosphatase 4 during visceral leishmaniasis. Microbes and Infection.

Patidar , A. and Selvaraj , S. and Sarode , A. and Chauhan , P. and Chattopadhyay , D. and Saha , B. (2017) DAMP-TLR-cytokine axis dictates the fate of tumor. Cytokine. 2017 Oct 9. pii: S1043-4666 (17) 30296-X., S1043- (4666). (17)-30296-X..

Kumar , A. and Saha , B. and Singh , S. (2017) Dataset generated for Dissection of mechanisms of Trypanothione Reductase and Tryparedoxin Peroxidase through dynamic networkanalysis and simulations in leishmaniasis. Data Brief. 2017 Oct 19;15:757-769, 15. pp. 757-769.

Chauhan , P. and Shukla , D. and Chattopadhyay , D. and Saha , B. (2017) Redundant and regulatory roles for TLRs in Leishmania infection. Clin Exp Immunol. . 10.1111/cei.13014.

Khandare, A.V. and Bobade, D. and Deval , M. and Patil , T. and Saha , B. and Prakash, D. (2017) Expression of negative immune regulatory molecules, pro-inflammatory chemokine and cytokines in immunopathology of ECM developing mice. Acta Tropica, 172. pp. 58-63. ISSN Volume 172, August 2017, Pages 58-63

Ghosh , T. and Barik , S. and Bhuniya , A. and Dhar, J. and Dasgupta, S. and Ghosh, S. and Sarkar, M. and Guha , I. and Sarkar , K. and Chakrabarti , P. and Saha, B. and Storkus, W.J. and Baral, R. and Bose, A. (2016) Tumor-associatedmesenchymal stem cells inhibit naïve T cell expansion by blocking. International Journal of Cancer, 139 (9). pp. 2068-2081.

Mukherjee , A. and Roy , S. and Saha , B. and Mukherjee , D. (2016) Spatio-Temporal Regulation of PKC Isoforms Imparts Signaling Specificity. Front Immunology (7). p. 45.

Mallick, S. and Dutta, A. and Chaudhuri, , A. and Mukherjee, D. and Dey, S. and Halder, S. and Ghosh, J. and Mukherjee, D. and Sultana, S.S. and Biswas, G. and Lai, T.K. and Patra, P. and Sarkar , I. and Chakraborty, S. and Saha, B. and Krishnedu, A. and Pal , C. (2016) Successful therapy of murine visceral leishmaniasis with astrakurkurone, a triterpene isolated from mushroom Astraeus hygrometricus, involves the induction of protective cell mediated immunity and TLR9. Antimicrob Agents and Chemother, 60 (5). pp. 2696-2708.

Parveen, S. and Bandhyopadhyay , S. and Das , S. and Bhattacharyya, M.S. and Jawed , J.J. and Paul Chowdhury , B. and Saha, B. and Majumdar , S. (2016) Mycobacterium indicus pranii (Mw)-mediated protection against Visceral Leishmaniasis by reciprocal regulation of host dual specific phosphatases. International Immunology .

Bandyopathyaya , S. and Chandel, H.S. and Singh, S. and Roy , S. and Krishnasastry , M.V. and Saha , B. (2015) Counteractive functions are encrypted in the residues of CD154. Human Immunology, 76 (9). pp. 673-680.

Bhandyopadhyay , S. and Mahapatra , S.K. and Chowdhury , P.B. and Jha , M.K. and Das, S. and Halder , K. and Majumdar , S.B. and Saha , B. and Majumder , S. (2015) Toll-like receptor 2 targeted rectification of impaired CD8+ T-cell functions in experimental Leishmania donovani infection reinstates host protection. PLoS One. 0142800.

Mukherjee, A. and Paul, J. and Mukherjee , S. and Mukhopadhyay, R. and Das , S. and Naskar, K. and Sundar, S. and Dujardin, J.C. and Saha , B. and Roy, S. (2015) Antimony-Resistant Leishmania donovani Exploits miR-466i To Deactivate Host MyD88 for Regulating IL-10/IL-12 Levels during Early Hours of Infection. The Journal of Immunology , 195 (6). pp. 2731-2742.

Pandey , S.P. and Doyen, N. and Mishra, G.C. and Saha, B. and Chandel, H.S. (2015) TLR9-deficiency reduces TLR1, TLR2 and TLR3 expressions in Leishmania major-infected macrophages. Experimental Parasitology, 154. pp. 82-86.

Gangalum PR, P.R. and de Castro, W. and Vieira, L.Q. and Dey, R. and Rivas , L. and Singh , S. and Majumdar, S.. and Saha , B. (2015) Platelet-activating factor receptor contributes to antileishmanial function of miltefosine. Journal of Immunology , 194 (12). pp. 5961-5967.

Chakraborty, S. and Srivastava , A. and Jha , M.K. and Nair, A. and Pandey , S.P and Srivastava , N. and Kumari , S. and Singh , S. and Krishnasastry M.V.; Saha B. , M.V. and Saha , B. (2015) Inhibition of CD40-Induced N-Ras Activation Reduces Leishmania major Infection. Journal of Immunology , 194. pp. 3852-3860. ISSN Journal of Immunology

Mukherjee, D. and Ghosh , A.K. and Dutta , M. and Mitra, E. and Mallick, S. and Saha, B. and Reiter, R.J. and Bandyopathyay, D. (2015) Mechanisms of isoproterenol-induced cardiac mitochondrial damage: protective actions of melatonin. Journal of Pineal Research, 58 (3). pp. 275-290.

Das, S. and Ganguly, A. and Saha, B. and Das, VNR. and Das, P. (2015) Species-specific inmethylated CpG-motifs in the L. donovani DNA regulate TLR9-dependent delay of programmed cell death in macrophages. Journal of Leukocyte Biology, 97 (2). pp. 363-78.

Chowdhury, B.P. and Bandyopadhyay, S and Das, S. and Majumder , S. and Jha, M.K. and Majumder , S.B. and Saha, B. and Majumder , S. (2015) The host-protective effect of arabinosylated lipoarabinomannan against Leishmania donovani infection is associated with restoration of IFN-γ responsiveness. PLoS One, 10 (2).

Fischer-Fodor, E. and Miklasova, N. and Berindan-Neagoe , I. and Saha , B. (2015) Iron, inflammation and invasion of cancer cells. Clujul Med. (88). pp. 272-277.

Chakraborty , S. and Das, K. and Saha, B. and Mazumdar , M. and Manna , A. and Chakraborty , S. and Mukherjee, S. and Khan, P. and Adhikary , A. and Mohanty, S. and Chattopadhyay, S. and Biswas , S. and Sa , G. and Das, T. (2014) Nuclear matrix protein SMAR1 represses c-Fos-mediated HPV18 E6 transcription through alteration of chromatin histone deacetylation. The Journal of Biological Chemistry, 289 (42). pp. 1559-1564.

Padwal, M.K. and Sarma , U. and Saha, B. and UNSPECIFIED (2014) Comprehensive Logic Based Analyses of Toll-Like Receptor 4 Signal Transduction Pathway Mahesh Kumar. PLoS One, 9 (4). e92481-e92481.

Selvaraj , S. and Raundhal , M. and Patidar , A. and Saha , B. (2014) Anti-VEGF antibody enhances the antitumor effect of CD40. International Journal of Cancer, 135. pp. 1983-1988.

Khan , T.H. and Srivastava , N. and Srivastava , A. and Sareen , A. and Mathur , R.K. and Chande , A.G. and Musti , K.V. and Roy , S. and Mukhopadhyaya, R. and Saha , B. (2014) SHP-1 Plays a Crucial Role in CD40 Signaling Reciprocity. Journal of Immunology\, 193. pp. 3644-3653.

Naiyer, M.M. and Saha, S. and Hemke , V. and Roy , S. and Singh , S. and Musti , K.V. and Saha , B. (2013) Identification and characterization of a human IL-10 receptor antagonist. Human Immunology, 74. pp. 28-31.

Srivastava , S. and Pandey , S.P. and Jha , M.K. and Chandel , H.S. and Saha , B. (2013) Leishmania expressed lipophosphoglycan interacts with Toll-like receptor (TLR)-2 to decrease TLR-9 expression and reduce anti-leishmanial responses. linical and Experimental Immunology, 172. pp. 403-409.

Sathawane, D. and Kharat , R.S. and Halder , S. and Roy , S. and Swamy, R. and Patel, R. and Saha, B. (2013) Monocyte CD40 expression in head and neck squamous cell carcinoma (HNSCC). Human Immunology 74 (2013) 1–5, 74. pp. 1-5.

Penke, L.R and Sudan , S. and Sathishkumar, S. and Saha , B. (2013) Prostaglandin E2 receptors have differential effects on Leishmania major infection. Parasite Immunology, 35. pp. 51-54.

Kasas , S. and Radotic, K. and Longo , G. and Saha , B. and Alonso-Sarduy , L. and Dietler, G and Roduit , C. (2013) A Universal Fluid Cell for the Imaging of Biological Specimens in the Atomic Force Microscope. MICROSCOPY RESEARCH AND TECHNIQUE 76:357–363 (2013), 76. pp. 357-363.

Vishwakarma, V and Pati , N.B. and Chandel, H.S. and Sahoo, S.S. and Saha, B. and Suar, M. (2012) Evaluation of Salmonella enterica Serovar Typhimurium TTSS-2 Deficient fur Mutant as Safe Live-Attenuated Vaccine Candidate for Immunocompromised Mice. PLoS One, 7 (12). e52043- e52043.

Roduit, C and Saha, B. and Alonso-Sarduy, L and AVolterra, A and Dietler, G and Kasa, S (2012) OpenFovea: open-source AFM data processing software. Nature Method, 9 (8). pp. 774-775.

Martin , S. and Saha , B. and Riley., J.L. (2012) The Battle over mTOR: An Emerging Theatre in Host– Pathogen Immunity. PLOS Pathogens , 8 (9). e1002894-e1002894.

Adhikari, , A and Majumder, , S and Banerjee, , S and Gupta, , G and Bhattacharya, P. and Bhattacharya, S. and Majumder, , and Saha , B. and Majumder, , S. (2012) Mycobacterium indicus pranii (Mw)-mediated protection against visceral leishmaniasis: involvement of TLR4 signalling. J Antimicrob Chemother , 2 (67). pp. 2892-2902.

Book Section

Kumar, S. and Zutshi, S. and Jha, MK. and Chauhan, P. and Saha, B. (2021) Development of the Antileishmanial Vaccine. In: Vaccine Design. Methods in Molecular Biology book series (MIMB, volume 2410), 2410 . Springer, pp. 433-461.

Zutshi , S. and Kumar, S. and Chauhan , P. and Saha, B. (2021) Revisiting the Principles of Designing a Vaccine. In: Vaccine Design. Methods in Molecular Biology book series (MIMB, volume 2410), 2410 . Springer, pp. 57-91.

Chauhan, P. and Sarkar, A. and Saha, B. (2018) Interplay Between Metabolic Sensors and ImmuneCell Signaling. In: Metabolic Interaction in Infection. Springer, pp. 115-196.

Saha , B. (2015) Antigens. In: UNSPECIFIED Wiely, DOI: 10.1002/9780470015902.a0000499.pub3.

Ghosh, , S.K. and Lalsare, K.M. and Saha, B. (2015) Leishmania Modulates Toll-like Receptor Signaling in Macrophages. In: Leishmania: Current Biology and Control | Book. Caister Academic Press. ISBN 978-1-908230-52-2