Publications by authors named "Priyanka Dhanan"

Article Synopsis
  • A study investigates how drug-induced gene expression profiles can reveal mechanisms of cardiotoxicity in FDA-approved tyrosine kinase inhibitors (TKIs) using human stem cell-derived heart cells.
  • The research employs singular value decomposition to detect drug-specific patterns in cells from various healthy individuals, highlighting affected cellular pathways like energy metabolism and contractile functions.
  • The findings suggest that integrating mRNA expression data with genomic and pathway information can create comprehensive signatures for cardiotoxicity, aiding in drug development and personalized treatment strategies.
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Tyrosine kinase inhibitor drugs (TKIs) are highly effective cancer drugs, yet many TKIs are associated with various forms of cardiotoxicity. The mechanisms underlying these drug-induced adverse events remain poorly understood. We studied mechanisms of TKI-induced cardiotoxicity by integrating several complementary approaches, including comprehensive transcriptomics, mechanistic mathematical modeling, and physiological assays in cultured human cardiac myocytes.

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Article Synopsis
  • A new library of human induced pluripotent stem cell (hiPSC) lines has been created from 40 healthy individuals aged 22 to 61, providing a diverse resource for studying normal human development and diseases.
  • These hiPSC lines maintain the genetic identity of their parent cells and exhibit characteristics typical of pluripotent stem cells, making them reliable for research purposes.
  • The library includes extensive data like whole-genome sequencing and analysis of disease genes, enhancing its potential for in-depth studies on human biology and drug responses.
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Generation of orthotopic xenograft mouse models of leukemia is important to understand the mechanisms of leukemogenesis, cancer progression, its cross talk with the bone marrow microenvironment, and for preclinical evaluation of drugs. In these models, following intravenous injection, leukemic cells home to the bone marrow and proliferate there before infiltrating other organs, such as spleen, liver, and the central nervous system. Moreover, such models have been shown to accurately recapitulate the human disease and correlate with patient response to therapy and prognosis.

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The bone marrow microenvironment plays an important role in acute lymphoblastic leukemia (ALL) cell proliferation, maintenance, and resistance to chemotherapy. Annexin II (ANX2) is abundantly expressed on bone marrow cells and complexes with p11 to form ANX2/p11-hetero-tetramer (ANX2T). We present evidence that p11 is upregulated in refractory ALL cell lines and patient samples.

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