Medhavi Bole
Beth Israel Deaconess Medical Center
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Publication
Featured researches published by Medhavi Bole.
PLOS ONE | 2012
Naimish R. Patel; Medhavi Bole; Cheng Chen; C. Corey Hardin; Alvin T. Kho; Justin D. Mih; Linhong Deng; James P. Butler; Daniel J. Tschumperlin; Jeffrey J. Fredberg; Ramaswamy Krishnan; Henryk Koziel
Macrophages serve to maintain organ homeostasis in response to challenges from injury, inflammation, malignancy, particulate exposure, or infection. Until now, receptor ligation has been understood as being the central mechanism that regulates macrophage function. Using macrophages of different origins and species, we report that macrophage elasticity is a major determinant of innate macrophage function. Macrophage elasticity is modulated not only by classical biologic activators such as LPS and IFN-γ, but to an equal extent by substrate rigidity and substrate stretch. Macrophage elasticity is dependent upon actin polymerization and small rhoGTPase activation, but functional effects of elasticity are not predicted by examination of gene expression profiles alone. Taken together, these data demonstrate an unanticipated role for cell elasticity as a common pathway by which mechanical and biologic factors determine macrophage function.
Blood | 2010
Souvenir D. Tachado; Xin Li; Medhavi Bole; Katharine Swan; Asha Anandaiah; Naimish R. Patel; Henry Koziel
Alveolar macrophages (AMs) are the predominant effector cell in the lungs and contribute to a critical first line of defense against bacterial pathogens through recognition by pattern recognition receptors such as Toll-like receptor 4 (TLR4). TLR4-mediated tumor necrosis factor alpha (TNFalpha) release is significantly impaired in HIV(+) macrophages, but whether HIV impairs myeloid differentiation factor 88 (MyD88)-dependent and/or MyD-independent TLR4 signaling pathways in human macrophages is not known. Comparing human U937 macrophages with HIV(+) U1 macrophages (HIV-infected U937 subclone), the current study shows that HIV infection is associated with impaired macrophage TLR4-mediated signaling, specifically targeting the MyD88-dependent TLR4-mediated signaling pathway (reduced MyD88-interleukin-1 receptor-associated kinase [IRAK] interaction, IRAK phosphorylation, nuclear factor [NF]-kappaB nuclear translocation, and TNFalpha release) while preserving the MyD88-independent TLR4-mediated signaling pathway (preserved STAT1 phosphorylation, interferon regulatory factor [IRF] nuclear translocation, and interleukin-10 [IL-10] and RANTES release). Extracellular TLR4 signaling complex was intact (similar levels of CD14 and MD2), and similar patterns of response were observed in clinically relevant AMs from healthy and asymptomatic HIV(+) persons at high clinical risk of pneumonia. Taken together, these data support the concept that chronic HIV infection is associated with specific and targeted disruption of critical macrophage TLR4 signaling, which in turn may contribute to disease pathogenesis of bacterial pneumonia.
Infection and Immunity | 2013
Asha Anandaiah; Sanjeev Sinha; Medhavi Bole; Surendra Sharma; Narendra Kumar; Kalpana Luthra; Xin Li; Xiuqin Zhou; Benjamin Nelson; Xinbing Han; Souvenir D. Tachado; Naimish R. Patel; Henry Koziel
ABSTRACT Mycobacterium tuberculosis disease represents an enormous global health problem, with exceptionally high morbidity and mortality in HIV-seropositive (HIV+) persons. Alveolar macrophages from HIV+ persons demonstrate specific and targeted impairment of critical host cell responses, including impaired M. tuberculosis-mediated tumor necrosis factor (TNF) release and macrophage apoptosis. Vitamin D may promote anti-M. tuberculosis responses through upregulation of macrophage NO, NADPH oxidase, cathelicidin, and autophagy mechanisms, but whether vitamin D promotes anti-M. tuberculosis mechanisms in HIV+ macrophages is not known. In the current study, human macrophages exposed to M. tuberculosis demonstrated robust release of TNF, IκB degradation, and NF-κB nuclear translocation, and these responses were independent of vitamin D pretreatment. In marked contrast, HIV+ U1 human macrophages exposed to M. tuberculosis demonstrated very low TNF release and no significant IκB degradation or NF-κB nuclear translocation, whereas vitamin D pretreatment restored these critical responses. The vitamin D-mediated restored responses were dependent in part on macrophage CD14 expression. Importantly, similar response patterns were observed with clinically relevant human alveolar macrophages from healthy individuals and asymptomatic HIV+ persons at high clinical risk of M. tuberculosis infection. Taken together with the observation that local bronchoalveolar lavage fluid (BALF) levels of vitamin D are severely deficient in HIV+ persons, the data from this study demonstrate that exogenous vitamin D can selectively rescue impaired critical innate immune responses in vitro in alveolar macrophages from HIV+ persons at risk for M. tuberculosis disease, supporting a potential role for exogenous vitamin D as a therapeutic adjuvant in M. tuberculosis infection in HIV+ persons.
Journal of Immunology | 2011
Xin Li; Xinbing Han; Juliana Llano; Medhavi Bole; Xiuqin Zhou; Katharine Swan; Asha Anandaiah; Benjamin Nelson; Naimish R. Patel; Peter S. Reinach; Henry Koziel; Souvenir D. Tachado
TLR-4–mediated signaling is significantly impaired in macrophages from HIV+ persons, predominantly owing to altered MyD88-dependent pathway signaling caused in part by constitutive activation of PI3K. In this study we assessed in these macrophages if the blunted increase in TLR-4–mediated TNF-α release induced by lipid A (LA) is associated with PI3K-induced upregulation of mammalian target of rapamycin (mTOR) activity. mTOR inhibition with rapamycin enhanced TLR-4–mediated TNF-α release, but suppressed anti-inflammatory IL-10 release. Targeted gene silencing of mTOR in macrophages resulted in LA-induced TNF-α and IL-10 release patterns similar to those induced by rapamycin. Rapamycin restored MyD88/IL-1R–associated kinase interaction in a dose-dependent manner. Targeted gene silencing of MyD88 (short hairpin RNA) and mTOR (RNA interference) inhibition resulted in TLR-4–mediated 70-kDa ribosomal protein S6 kinase activation and enhanced TNF-α release, whereas IL-10 release was inhibited in both silenced and nonsilenced HIV+ macrophages. Furthermore, mTOR inhibition augmented LA-induced TNF-α release through enhanced and prolonged phosphorylation of ERK1/2 and JNK1/2 MAPK, which was associated with time-dependent MKP-1 destabilization. Taken together, impaired TLR-4–mediated TNF-α release in HIV+ macrophages is attributable in part to mTOR activation by constitutive PI3K expression in a MyD88-dependent signaling pathway. These changes result in MAPK phosphatase 1 stabilization, which shortens and blunts MAPK activation. mTOR inhibition may serve as a potential therapeutic target to upregulate macrophage innate immune host defense responsiveness in HIV+ persons.
Archive | 2011
Xin Li; Xinbing Han; Juliana Llano; Medhavi Bole; Xiuqin Zhou; Katharine Swan; Asha Anandaiah; Benjamin Nelson; Naimish R. Patel; Peter S. Reinach; Henry Koziel; Souvenir D. Tachado
american thoracic society international conference | 2009
Asha Anandaiah; Sanjeev Sinha; Surendra Sharma; N Kumar; K Luthra; Medhavi Bole; Henry Koziel; Naimish R. Patel
american thoracic society international conference | 2012
Asha Anandaiah; Medhavi Bole; Sanjeev Sinha; Xin Li; Xiuqin Zhou; Xinbing Han; Benjamin Nelson; Souvenir D. Tachado; Henry Koziel; Naimish R. Patel
american thoracic society international conference | 2012
Xinbing Han; Xin Li; Simon Yue; Falah Hashem; Medhavi Bole; Asha Anandaiah; Xiuqin Zhou; Benjamin Nelson; Naimish R. Patel; Henry Koziel; Souvenir D. Tachado
american thoracic society international conference | 2011
Medhavi Bole; Cheng Cheng; C. Corey Hardin; Ramaswamy Krishnan; Justin D. Mih; James P. Butler; Linhong Deng; Daniel J. Tschumperlin; Jeffrey J. Fredberg; Henry Koziel; Naimish R. Patel
american thoracic society international conference | 2011
Asha Anandaiah; Medhavi Bole; Xin Li; Sharon Zhou; Benjamin Nelson; Souvenir D. Tachado; Henry Koziel; Naimish R. Patel