2016
2015
2014
2013
- Ghosh S, Mukherjee S, Sengupta N, Roy A, Dey D, Chakraborty S, Chattopadhyay D, Banerjee A & Basu A. "Network analysis reveals common host protein/s modulating pathogenesis of neurotropic viruses" Scientific Reports
- Verma A, Ghosh S, Pradhan S, Basu A “Microglial activation induces neuronal death in Chandipura virus infection” Scientific Reports
- Swaroop S, Sengupta N, Suryawanshi AR, Adlakha YK, Basu A “HSP60 plays a regulatory role in IL-1β-induced microglial inflammation via TLR4-p38 MAPK axis” J. Neuroinflammation.
2015
- Chandipura Virus Perturbs Cholesterol Homeostasis Leading to Neuronal ApoptosisS Ghosh, S Mukherjee, A Basu
Journal of Neurochemistry. - Ghosh, S., Kumar, V. G. , Basu, A., Banerjee, A “Graph theoretic network analysis reveals protein pathways underlying cell death following neurotropic viral infection” Scientific Reports.
- Sengupta N, Mukherjee S, Tripathi P, Kumar R, Suryavanshi A, Basu A “Cerebrospinal Fluid Biomarkers of Japanese Encephalitis.” F1000Res
2014
- Mukherjee S, Ghosh S, Nazmi A,Basu A. RIG-I knockdown impedes neurogenesis in a murine model of Japanese encephalitis. Cell Biol. Int. DOI: 10.1002/cbin.10354
- Nazmi A, Mukherjee S, Kundu K, Dutta K, Mahadevan A, Shankar SK, Basu A. TLR7 is a key regulator of innate immunity against Japanese Encephalitis Virus infection. Neurobiol Dis. 2014 Jun 5. pii: S0969-9961(14)00154-5. doi: 10.1016/j.nbd.2014.05.036. [Epub ahead of print]
- Kumawat KL, Kaushik DK, Goswami P, Basu A. Acute exposure to lead acetate activates microglia and induces subsequent bystander neuronal death via caspase-3 activation.Neurotoxicology. 2014 Feb 14;41C:143-153. doi: 10.1016/j.neuro.2014.02.002. [Epub ahead of print]
- Thounaojam MC1, Kundu K, Kaushik DK, Swaroop S, Mahadevan A, Shankar SK, Basu A.MicroRNA-155 Regulates Japanese Encephalitis Virus Induced Inflammatory Response by Targeting src Homology 2-Containing Inositol Phosphatase-1 (SHIP1). J Virol. 2014 Feb 12. [Epub ahead of print]
- Sengupta N, Ghosh S, Vasaikar SV, Gomes J, Basu A (2014) Modulation of Neuronal Proteome Profile in Response to Japanese Encephalitis Virus Infection. PLoS ONE 9(3): e90211. doi:10.1371/journal.pone.0090211
2013
- Thounaojam MC, Kaushik DK, Kundu K, Basu A. microRNA-29b Modulates Japanese Encephalitis Virus-Induced Microglia Activation by Targeting Tumor Necrosis Factor Alpha-induced Protein 3 (TNFAIP3). J Neurochem. 2013 Nov 16. doi: 10.1111/jnc.12609. [Epub ahead of print]
- Adhya D, Dutta K, Basu A. Japanese encephalitis in India: risk of an epidemic in the National Capital Region.
Int Health. 2013 Sep;5(3):166-8. doi: 10.1093/inthealth/iht015. Epub 2013 Aug 1. - Ghosh S, Dutta K, Basu A. Chandipura Virus induces Neuronal Death through Fas-mediated Extrinsic Apoptotic Pathway. J Virol. 2013 Sep 11
- Kaushik DK, Thounaojam MC, Kumawat KL, Gupta M, Basu A. Interleukin-1β orchestrates underlying inflammatory responses in microglia via Krüppel-like factor 4. J. Neurochem. 2013 Jul 30. doi: 10.1111/jnc.12382.
- D.K. Kaushik, A. Basu. Microglial activation: measurement of cytokines by flow cytometry. Methods. Mol. Biol., 2013.
- D. Adhya, K. Dutta, K. Kundu, A. Basu. Histone deacetylase inhibition by Japanese encephalitis virus in monocyte/macrophages: A novel viral immune evasion strategy. Immunobiol., 2013, 3rd May,
- Ariff IM, Thounaojam MC, Das S, A. Basu. Japanese Encephalitis Virus Infection Alters Both Neuronal and Astrocytic Differentiation of Neural Stem/Progenitor Cells. J. Neuroimmune Pharmacol 2013 Jun.
- M. C. Thounaojam,
- D. K. Kaushik,
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- A. Basu.
2012- A. Nazmi, R. Mukhopadhyay, K. Dutta and A. Basu. STING mediates neuronal innate immune response following Japanese encephalitis virus infection. Scientific Reports, 2012, 2:347.
- D.K. Kaushik, R. Mukhopadhyay, M. Gupta, K.L. Kumawat, A. Basu. Therapeutic targeting of Kruppel like factor 4 abrogates microglial activation. J Neuroinflamm.2012, 9(1):57.
- D.K. Kaushik, M. Gupta, K.L. Kumawat, A Basu. NLRP3 Inflammasome: Key Mediator of Neuroinflammation in Murine Japanese Encephalitis.PLoS One, 2012;7(2):e32270.
- I M Ariff, A Mitra, A Basu. Epigenetic regulation of self-renewal and fate determination in neural stem cells. J Neurosci Res. 2012 Mar;90(3):529-39.
- S Ghosh, A Basu. Network medicine in drug design: implications for neuroinflammation. Drug Discov Today. 2012 Jan 28. [Epub ahead of print]
2011- A. Nazmi, K. Dutta and A. Basu (2011). RIG-I mediates innate immune response in mouse neurons following Japanese encephalitis virus infection. PLoS One, 6(6):e21761.
- K. Dutta and A. Basu (2011) . Use of minocycline in viral infections. Indian J Med Res., 133(5):467-70.
- S. Das, K. Dutta, K.L. Kumawat, A. Ghoshal, D. Adhya and A. Basu. (2011). Abrogated inflammatory response promotes neurogenesis in a murine model of Japanese encephalitis. PLoS One, 6(3): e17225.
- S. Das and A. Basu. (2011).Viral infection and neural stem/progenitor cell's fate: Implication in brain development and disorders. Neurochem Int, 59(3):357-66.
- A. Nazmi, K. Dutta, S. Das and A. Basu. (2011). Japanese encephalitis virus infected macrophages induces neuronal death. J Neuroimmune Pharmacol, 6(3):420-33.
- D.K. Kaushik, M. Gupta and A Basu. (2011) Microglial response to viral challenges: Every silver lining comes with a cloud. Front Biosci, 17:2187-205.
- K. Dutta, A. Nazmi, and A. Basu. (2011). Chemotherapy in Japanese encephalitis: Are we there yet? Infect Disord Drug Targets, 11(3):300-14.
2010
- D. Adhya and A. Basu. (2010). Epigenetic modulation of host: New insights into immune evasion by viruses. J Biosci, 35(4): 647-663.
- A. Nazmi, K. Dutta and A. Basu. (2010). Antiviral and neuroprotective role of octaguanidinium dendrimer-conjugated morpholino oligomers in Japanese encephalitis.PLoS Negl Trop Dis, 4(11): e892.
- D.K. Kaushik, M. Gupta, S. Das and A. Basu. (2010). Krüppel-like factor 4, a novel transcription factor regulates microglial activation and subsequent neuroinflammation.J Neuroinflamm, 7: 68.
- S Das, S Chakraborty, and A Basu (2010) Critical role of lipid rafts in virus entry and activation of Phosphoinositide 3' Kinase / Akt signaling during early stages of Japanese Encephalitis Virus infection in neural stem/progenitor cells. J Neurochem, 115(2): 537-549.
- K. Dutta, K.L. Kumawat, A. Nazmi, M.K. Mishra, and A. Basu. (2010). Minocycline differentially modulates viral infection and persistence in an experimental model of Japanese encephalitis. J Neuroimmune Pharmacol , 5(4): 553-565.
- K. Dutta, M.K. Mishra, A. Nazmi, K.L. Kumawat and A. Basu. (2009). Minocycline differentially modulates macrophage mediated peripheral immune response following Japanese encephalitis virus infection. Immunobiol, 215(11): 884-893.
- K. Dutta, D. Ghosh, A. Nazmi, K.L. Kumawat, and A. Basu. (2010). A common carcinogen benzo[a]pyrene causes neuronal death in mouse via microglial activation.PLoS One, 5(4): e9984.
- S. Chakraborty, A. Nazmi, K. Dutta, and A. Basu. (2010). Neurons under viral attack: Victims or warriors? Neurochem Int, 56(6-7): 727-735.
- K. Dutta, P.N. Rangarajan, S. Vrati, and A. Basu. (2010). Japanese Encephalitis: pathogenesis, prophylactics and therapeutics. Curr Sci, 98(3): 22-30
2009 - S. Das, D. Ghosh, and A. Basu. (2009). Japanese encephalitis virus induce immuno-competency in neural stem/progenitor cells. PLoS One, 4(12): e8134.
- M.K. Mishra, K. Dutta, S.K. Saheb, and A. Basu. (2009). Understanding the molecular mechanism of blood brain barrier damage in an experimental model of Japanese encephalitis: correlation with minocycline administration as a therapeutic agent. Neurochem Int, 55(8):717-723.
- D. Ghosh and A. Basu. (2009). Japanese Encephalitis - A pathological and clinical perspective. PLoS Negl Trop Dis, 3(9) e437.
- D. Ghosh, M.K. Mishra, S. Das, D.K. Kaushik and A. Basu. (2009). Tobacco carcinogen induces microglial activation and subsequent neuronal damage. J Neurochem, 110(3): 1070-1081.
- K. Dutta, D. Ghosh, and A. Basu. (2009). Curcumin protects neuronal cells from Japanese encephalitis virus mediated cell death and also inhibits infective viral particle formation by dysregulation of ubiquitin proteasome system. J Neuroimmune Pharmacol, 4(3): 328.
- M.K. Mishra, D. Ghosh, R. Duseja, and A. Basu. (2009). Antioxidant potential of minocycline in Japanese encephalitis virus infection in murine neuroblastoma cells: correlation with membrane fluidity and cell death. Neurochem Int, 54(7): 464-470.
2008 - M.K. Mishra, K.L. Kumawat and A. Basu. (2008). Japanese encephalitis virus differentially modulates the induction of multiple pro inflammatory mediators in human astrocytoma and astroglioma cell lines. Cell Biol Int, 32(12): 1506-1513.
- J. Ghosh, V. Swarup, A. Saxena, S. Das, A. Hazra, P. Paira, S. Banerjee, N. B. Mondal and A. Basu. (2008). Therapeutic effect of a novel anilidoquinoline derivative- 2-(2-methyl-quinoline-4ylamino)-n-(2-chlorophenyl)-acetamide in japanese encephalitis: correlation with in vitro neuroprotection. Int J Antimicrob Agents, 32 (4): 349–354.
- S. Das and A. Basu. (2008). Japanese encephalitis virus infects neural progenitor cells and decreases their proliferation. J Neurochem, 106(4): 1624-36. (News and views reported and published by Nature India and as a part of several national and international press releases).
- D. Ghosh and A. Basu. (2008). Present perspectives on flaviviral chemotherapy. Drug Discov Today, 13(13-14): 619-624.
- S. Das, M.K. Mishra, J. Ghosh and A. Basu. (2008). Japanese encephalitis virus infection induce il-18 and il-1b in microglia and astrocytes: correlation with in vitro cytokine responsiveness of glial cells and subsequent neuronal death. J Neuroimmunol, 195(1-2): 60–72.
- V. Swarup, J. Ghosh, S. Das, and A. Basu. (2008). Tumor necrosis factor receptor-associated death domain mediated neuronal death contributes to the microglial activation and subsequent release of proinflammatory mediators in japanese encephalitis. Neurochem Int, 52(7): 1310–1321.
- M.K. Mishra and A. Basu. (2008). Minocycline neuroprotects, reduces microglial activation, inhibits caspase-3 induction, and viral replication following Japanese encephalitis. J Neurochem, 105(5): 1582-95. (News and views reported and published by Reuters, Nature India and as a part of several national and international press releases).
- V. Swarup, J. Ghosh, M.K. Mishra, and A. Basu. (2008). Novel strategy for treatment of Japanese encephalitis using arctigenin, a plant lignan. J Antimicrob Chemotherapy, 61(3): 679-688.
- S. Das and A. Basu. (2008). Inflammation: A new candidate in modulating adult neurogenesis. J Neurosci Res, 86 (6): 1199-1208.
2007 - V. Swarup, S. Das, S. Ghosh and A. Basu. (2007). Tumor necrosis factor receptor-1 induced neuronal death by tradd contributes to the pathogenesis of japanese encephalitis. J Neurochem, 103(2): 771-783.
- V. Swarup, J. Ghosh, R. Duseja, S. Ghosh, and A. Basu. (2007). Japanese encephalitis virus infection decrease endogenous il-10 production: correlation with microglial activation and neuronal death. Neurosci Lett, 420(2): 144-149.
- V. Swarup, J. Ghosh, S. Ghosh, A. Saxena, and A. Basu (2007) Anti-viral and anti inflammatory effect of rosmarinic acid in an experimental murine model of Japanese encephalitis. Antimicrob Agents Chemother, 51(9) 3367-3370.
- M.K. Mishra, P. Koli, S. Bhowmick and A. Basu. (2007). Neuroprotection conferred by astrocytes is insufficient to protect animals from succumbing to Japanese encephalitis. Neurochem Int, 50(5): 764-773.
- S. Bhowmick, R. Duseja, S. Das, M.B. Appaiahgiri, S. Vrati and A. Basu. (2007). Induction of IP-10 (CXCL10) in astrocytes following Japanese encephalitis. Neurosci Lett, 414(1): 45-50.
- A. Ghoshal, S. Das, S. Ghosh, M.K. Mishra, V. Sharma, P. Koli, E. Sen and A. Basu. (2007). Proinflammatory mediators released by activated microglia induces neuronal death in Japanese encephalitis. Glia, 55(5): 483-496.
- S. Chakraborty, D.K. Kaushik, M. Gupta, and A. Basu. (2010). Inflammasome signaling at the heart of central nervous system pathology. J Neurosci Res, 88(8): 1615-1631