Sangita Patil scite author profile

This study determined immune activities in the brain of ASD patients and matched normal subjects by examining cytokines in the brain tissue. Our results showed that proinflammatory cytokines (TNF-α, IL-6 and GM-CSF), Th1 cytokine (IFN-γ) and chemokine (IL-8) were significantly increased in the brains of ASD patients compared with the controls. However the Th2 cytokines (IL-4, IL-5 and IL-10) showed no significant difference. The Th1/Th2 ratio was also significantly increased in ASD patients. Conclusion: ASD patients displayed an increased innate and adaptive immune response through the Th1 pathway, suggesting that localized brain inflammation and autoimmune disorder may be involved in the pathogenesis of ASD.

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Regeneration of axons in injured spinal cord by activation of bone morphogenetic protein/Smad1 signaling pathway in adult neurons

Parikh

Hao

Hosseinkhani

et al. 2011

Proc. Natl. Acad. Sci. U.S.A.

142

131

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Axon growth potential is highest in young neurons but diminishes with age, thus becoming a significant obstacle to axonal regeneration after injury in maturity. The mechanism for the decline is incompletely understood, and no effective clinical treatment is available to rekindle innate growth capability. Here, we show that Smad1-dependent bone morphogenetic protein (BMP) signaling is developmentally regulated and governs axonal growth in dorsal root ganglion (DRG) neurons. Down-regulation of the pathway contributes to the age-related decline of the axon growth potential. Reactivating Smad1 selectively in adult DRG neurons results in sensory axon regeneration in a mouse model of spinal cord injury (SCI). Smad1 signaling can be effectively manipulated by an adenoassociated virus (AAV) vector encoding BMP4 delivered by a clinically applicable and minimally invasive technique, an approach devoid of unwanted abnormalities in mechanosensation or pain perception. Importantly, transected axons are able to regenerate even when the AAV treatment is delivered after SCI, thus mimicking a clinically relevant scenario. Together, our results identify a therapeutic target to promote axonal regeneration after SCI.intrinsic axon growth capacity | intrathecal viral vector delivery S pinal cord injury (SCI) disrupts long-projection axons, with devastating neurological outcomes, yet no effective clinical treatment exists. Neurons fail to regenerate axons because of a growth-inhibiting environment at the injury site (1-4) and because of an age-dependent decline in the intrinsic axon growth potential (5, 6). Nevertheless, blocking extracellular inhibitory molecules (7-10) or alleviating the intracellular negative regulators of axonal growth (5, 6, 11, 12) enables only limited axonal regeneration. Thus, additional molecular pathways that can rekindle innate growth capability must exist but remain unidentified (13).Dorsal root ganglion (DRG) neurons are a favored model system to study axonal regeneration. These neurons have an axon with two branches-a peripheral branch that innervates sensory organs and a central branch that relays information to the CNS. The central branches of adult DRG neurons in the spinal cord are refractory to regeneration unless their peripheral branches are severed first. This so-called "conditioning lesion" paradigm activates a transcription program that enhances the intrinsic axonal growth potential (14). Previously, through gene expression profiling, we have demonstrated that Smad1 is induced after peripheral axotomy and that intraganglionic delivery of bone morphogenetic protein 2 or 4 (BMP2 or -4) activates Smad1 and enhances the axon growth potential of adult DRG neurons in cultures. In contrast, severing the central branches of DRGs fails to activate the Smad1 pathway, which correlates with the absence of regeneration after SCI (15).These results suggested a possible involvement of Smad1 in regulating the growth state of DRG neurons. It is not known, however, whether Smad1 governs the axon growth program ...

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Single-cell analysis shows that paracrine signaling by first responder cells shapes the interferon-β response to viral infection

et al. 2015

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Immune responses to viral infection are stochastic processes, which initiate in a limited number of cells that then propagate the response. A key component of the response to viral infection entails the synthesis and secretion of type I interferons (IFNs), including the early induction of the gene encoding IFN-β (Ifnb1). With single-cell analysis and mathematical modeling, we investigated the mechanisms underlying how increases in the amount of Ifnb1 mRNA per cell and in the numbers of cells expressing Ifnb1 calibrate the response to viral infection. We used single-cell, single-molecule assays to quantify the early induction of Ifnb1 expression (the Ifnb1 response) in human monocyte-derived dendritic cells infected with Newcastle disease virus, thus retaining the physiological stoichiometry of transcriptional regulators to both alleles of the Ifnb1 gene. We applied computational methods to extract the stochastic features that underlie the cell-to-cell variations in gene expression over time. Integration of simulations and experiments identified the role of paracrine signaling in increasing the number of cells that express Ifnb1 over time and in calibrating the immune response to viral infection.

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PersistentPneumocystisColonization Leads to the Development of Chronic Obstructive Pulmonary Disease in a Nonhuman Primate Model of AIDS

et al. 2010

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HIV-infected patients are at increased risk for development of pulmonary complications, including chronic obstructive pulmonary disease (COPD). Inflammation associated with sub-clinical infection has been postulated to promote COPD. Persistence of Pneumocystis (Pc) is associated with HIV and COPD, although a causal relationship has not been established. We used a simian/human immunodeficiency virus (SHIV) model of HIV infection to study pulmonary effects of Pc colonization. SHIV-infected/Pc-colonized monkeys developed progressive obstructive pulmonary disease characterized by increased emphysematous tissue and bronchial-associated lymphoid tissue. Elevated Th2 cytokines and pro-inflammatory mediators in bronchoalveolar lavage fluid coincided with Pc colonization and pulmonary function decline. These results support the concept that an infectious agent contributes to development of HIV-associated lung disease and suggests that Pc colonization may be a risk factor for the development of HIV-associated COPD. Furthermore, this model allows examination of early host responses important to disease progression thus identifying potential therapeutic targets for COPD.

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Identification of a Talin-binding Site in the Integrin β3 Subunit Distinct from the NPLY Regulatory Motif of Post-ligand Binding Functions

Patil¹,

Jedsadayanmata²,

Wencel-Drake³

et al. 1999

Journal of Biological Chemistry

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Following platelet aggregation, integrin alpha(IIb)beta(3) becomes associated with the platelet cytoskeleton. The conserved NPLY sequence represents a potential beta-turn motif in the beta(3) cytoplasmic tail and has been suggested to mediate the interaction of beta(3) integrins with talin. In the present study, we performed a double mutation (N744Q/P745A) in the integrin beta(3) subunit to test the functional significance of this beta-turn motif. Chinese hamster ovary cells were co-transfected with cDNA constructs encoding mutant beta(3) and wild type alpha(IIb). Cells expressing either wild type (A5) or mutant (D4) alpha(IIb)beta(3) adhered to fibrinogen; however, as opposed to control A5 cells, adherent D4 cells failed to spread, form focal adhesions, or initiate protein tyrosine phosphorylation. To investigate the role of the NPLY motif in talin binding, we examined the ability of the mutant alpha(IIb)beta(3) to interact with talin in a solid phase binding assay. Both wild type and mutant alpha(IIb)beta(3), purified by RGD affinity chromatography, bound to a similar extent to immobilized talin. Additionally, purified talin failed to interact with peptides containing the AKWDTANNPLYK sequence indicating that the talin binding domain in the integrin beta(3) subunit does not reside in the NPLY motif. In contrast, specific binding of talin to peptides containing the membrane-proximal HDRKEFAKFEEERARAK sequence of the beta(3) cytoplasmic tail was observed, and this interaction was blocked by a recombinant protein fragment corresponding to the 47-kDa N-terminal head domain of talin (rTalin-N). In addition, RGD affinity purified platelet alpha(IIb)beta(3) bound dose-dependently to immobilized rTalin-N, indicating that an integrin-binding site is present in the talin N-terminal head domain. Collectively, these studies demonstrate that the NPLY beta-turn motif regulates post-ligand binding functions of alpha(IIb)beta(3) in a manner independent of talin interaction. Moreover, talin was shown to bind through its N-terminal head domain to the membrane-proximal sequence of the beta(3) cytoplasmic tail.

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Sangita Patil

Elevated immune response in the brain of autistic patients

Regeneration of axons in injured spinal cord by activation of bone morphogenetic protein/Smad1 signaling pathway in adult neurons

Single-cell analysis shows that paracrine signaling by first responder cells shapes the interferon-β response to viral infection

PersistentPneumocystisColonization Leads to the Development of Chronic Obstructive Pulmonary Disease in a Nonhuman Primate Model of AIDS

Identification of a Talin-binding Site in the Integrin β3 Subunit Distinct from the NPLY Regulatory Motif of Post-ligand Binding Functions

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