Connection | Profiles RNS

Search Result Details

Back to Search Results

This page shows the details of why an item matched the keywords from your search.

Search Results

Shanker, Anil

One or more keywords matched the following properties of Shanker, Anil

Property	Value
overview	Dr. Anil Shanker leads the Laboratory of Lymphocyte Function in the Department of Biochemistry and Cancer Biology at Meharry Medical College School of Medicine. He is also a member of the Host-Tumor Interactions Research Program of Vanderbilt-Ingram Comprehensive Cancer Center (VICC) at Vanderbilt University. After completing his Master’s degree in Zoology/Cell Biology at the University of Delhi, Dr. Shanker obtained his PhD in tumor immunobiology from Banaras Hindu University, India in 1999. He performed his postdoctoral studies in tumor immunology at the CNRS/INSERM Center of Immunology (CIML), Marseille, France from 2000 to 2003, and at the National Cancer Institute, Frederick, Maryland from 2003 to 2008. He worked as Scientist I in the Cancer and Inflammation Program at the NCI from 2008 to 2010, before joining as faculty at Meharry Medical College. The Shanker laboratory studies information processing and molecular circuitry underlying lymphocyte crosstalk. Using the TCR-transgenic mice specific to cancer-germline self-antigen P1A, akin to human MAGE antigens (J Immunol 172:5069), our pioneering studies discovered a paradigm of CD8 T cell help for innate NK effector function in solid tumor microenvironments. Such a potentiated CD8 T–NK crosstalk enhances immunosurveillance against tumor development and prevents tumor escape (J Immunol 179:6377). Our ongoing work has identified mitochondrial Ca2+ transport-mediated intermembranous interaction critical during CD8 T–NK cooperativity to elicit NK cell effector/regulatory and T cell memory functions. We also found that CD8 T cells preferentially use death ligands to clear metastasis of tumor cells expressing low-avidity antigens (Cancer Res 69:6615). These findings provide for novel immunotherapy approaches that we are exploring to prevent tumor development, escape and metastasis. In breast, kidney and inducible EGFR-mutant lung cancer mouse models, and patient samples in a multi-institutional collaboration, we are testing adoptive transfer protocols of CD8 T and NK cells in combination with engineered Notch ligand constructs (Cancer Res 71:6122, 75:4728; JITC 7:95), bortezomib, a proteasome inhibitor (J Immunol 180:163; JNCI 100:649; Cancer Res 75:5260), and neurotransmitter agonists. Our efforts are also invested in building computational models that guide cell fate and lymphocyte functional crosstalk (Open Biol 6:160192; Front Immunol 10:1906). The laboratory provides a vibrant research environment for mentoring its undergrad, doctoral, postdoctoral and medical trainees from diverse backgrounds.

Property

Value

overview

Dr. Anil Shanker leads the Laboratory of Lymphocyte Function in the Department of Biochemistry and Cancer Biology at Meharry Medical College School of Medicine. He is also a member of the Host-Tumor Interactions Research Program of Vanderbilt-Ingram Comprehensive Cancer Center (VICC) at Vanderbilt University. After completing his Master’s degree in Zoology/Cell Biology at the University of Delhi, Dr. Shanker obtained his PhD in tumor immunobiology from Banaras Hindu University, India in 1999. He performed his postdoctoral studies in tumor immunology at the CNRS/INSERM Center of Immunology (CIML), Marseille, France from 2000 to 2003, and at the National Cancer Institute, Frederick, Maryland from 2003 to 2008. He worked as Scientist I in the Cancer and Inflammation Program at the NCI from 2008 to 2010, before joining as faculty at Meharry Medical College. The Shanker laboratory studies information processing and molecular circuitry underlying lymphocyte crosstalk. Using the TCR-transgenic mice specific to cancer-germline self-antigen P1A, akin to human MAGE antigens (J Immunol 172:5069), our pioneering studies discovered a paradigm of CD8 T cell help for innate NK effector function in solid tumor microenvironments. Such a potentiated CD8 T–NK crosstalk enhances immunosurveillance against tumor development and prevents tumor escape (J Immunol 179:6377). Our ongoing work has identified mitochondrial Ca2+ transport-mediated intermembranous interaction critical during CD8 T–NK cooperativity to elicit NK cell effector/regulatory and T cell memory functions. We also found that CD8 T cells preferentially use death ligands to clear metastasis of tumor cells expressing low-avidity antigens (Cancer Res 69:6615). These findings provide for novel immunotherapy approaches that we are exploring to prevent tumor development, escape and metastasis. In breast, kidney and inducible EGFR-mutant lung cancer mouse models, and patient samples in a multi-institutional collaboration, we are testing adoptive transfer protocols of CD8 T and NK cells in combination with engineered Notch ligand constructs (Cancer Res 71:6122, 75:4728; JITC 7:95), bortezomib, a proteasome inhibitor (J Immunol 180:163; JNCI 100:649; Cancer Res 75:5260), and neurotransmitter agonists. Our efforts are also invested in building computational models that guide cell fate and lymphocyte functional crosstalk (Open Biol 6:160192; Front Immunol 10:1906). The laboratory provides a vibrant research environment for mentoring its undergrad, doctoral, postdoctoral and medical trainees from diverse backgrounds.

One or more keywords matched the following items that are connected to Shanker, Anil

Item Type	Name
Grant	Immunomodulatory effects of bortezomib on antitumor CD8 T-NK cell crosstalk
Academic Article	Resuscitating cancer immunosurveillance: selective stimulation of DLL1-Notch signaling in T cells rescues T-cell function and inhibits tumor growth.
Academic Article	Promise of Immunotherapy in Lung Cancer.
Academic Article	Multivalent Forms of the Notch Ligand DLL-1 Enhance Antitumor T-cell Immunity in Lung Cancer and Improve Efficacy of EGFR-Targeted Therapy.
Academic Article	Bortezomib enhances expression of effector molecules in anti-tumor CD8+ T lymphocytes by promoting Notch-nuclear factor-?B crosstalk.
Academic Article	Bortezomib augments lymphocyte stimulatory cytokine signaling in the tumor microenvironment to sustain CD8+T cell antitumor function.
Academic Article	Determinant roles of dendritic cell-expressed Notch Delta-like and Jagged ligands on anti-tumor T?cell immunity.
Academic Article	Treating metastatic solid tumors with bortezomib and a tumor necrosis factor-related apoptosis-inducing ligand receptor agonist antibody.
Concept	Carcinoma, Non-Small-Cell Lung
Concept	Lung
Concept	Lung Neoplasms
Award or Honor Receipt	Pilot Project initiative in the NCI SPORE in Lung Cancer (5P50 CA 090949)
Academic Article	Phase II Study of Immunotherapy With Tecemotide and Bevacizumab After Chemoradiation in Patients With Unresectable Stage III Non-Squamous Non-Small-Cell Lung?Cancer (NS-NSCLC): A Trial of the ECOG-ACRIN Cancer Research Group (E6508).
Academic Article	Mitochondrial Fus1/Tusc2 and cellular Ca2+ homeostasis: tumor suppressor, anti-inflammatory and anti-aging implications.
Academic Article	Improving combination therapies: targeting A2B-adenosine receptor to modulate metabolic tumor microenvironment and immunosuppression.
Academic Article	Bortezomib in Combination with Physachenolide C Reduces the Tumorigenic Properties of KRASmut/P53mut Lung Cancer Cells by Inhibiting c-FLIP.

Search Criteria

Lung