Sukalpa Chattopadhyay scite author profile

Sukalpa Chattopadhyay

5Publications

50Citation Statements Received

165Citation Statements Given

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Aberrant Wnt Signaling Pathway in the Hematopoietic Stem/Progenitor Compartment in Experimental Leukemic Animal

Chattopadhyay¹,

Chaklader

Law³

2018

J. Cell Commun. Signal.

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The evolutionarily conserved Wnt signaling pathway regulates physiological hematopoiesis, a process of formation of blood cells and has been shown to play crucial role in the development of both myeloid and lymphoid malignancies. The Wnt signaling pathway can be broadly divided into canonical and non-canonical pathways. In the present study, we investigated the pathobiology of leukemia by studying the expression profile of Wnt proteins, receptors, key signaling intermediates and endogenous Wnt antagonist involved in canonical and non-canonical pathways in the bone marrow (BM) hematopoietic stem/progenitor cell (HSPC) compartment of experimental leukemic mice. Cell adhesion molecule N-Cadherin and leukemic BM microenvironment with reference to Wnt were also studied. We used ENU, a potent carcinogen, to induce leukemia in wild type Swiss albino mice and malignant transformation was cofirmed by peripheral blood and BM studies. Flow cytometric expression analysis revealed profound up-regulation of canonical Wnt3a/β-catenin/CyclinD1 signaling axis along with N-Cadherin whereas down-regulation of non-canonical Wnt5a/Ca/CaMKII signaling axis in the leukemic HSPC compartment. Subsequent use of anti-Wnt3a antibody in the in vitro clonogenicity assay uncovered that anti-Wnt3a antibody preferentially inhibited the growth and number of the primitive leukemic hematopoietic CFU-GEMM and BFU-E colonies. Stromal cells derived from the leukemic BM also exhibited aberrant Wnt3a and Wnt5a protein expression. Taken together, alteration of canonical and non-canonical Wnt signaling pathways in the HSPC compartment along with classical Wnt protein expression pattern in the leukemic stromal microenvironment resulted in progression of leukemia.

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Pathophysiological Scenario of Hematopoietic Disorders: A Comparative Study of Aplastic Anemia, Myelodysplastic Syndrome and Leukemia in Experimental Animals

Chatterjee¹,

Chattopadhyay²,

Sanyal³

et al. 2015

Proc Zool Soc

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The conversion of physiology to pathophysiology in hematological disorders viz: aplastic anemia, myelodysplastic syndrome (MDS) and leukemia in murine models was the subject of study in the present programme. Peripheral blood hemogram, spleno-somatic index, bone marrow smear study, cytochemical staining of marrow, cell release kinetics study during marrow explants culture, hematopoietic niche assessment, chromosomal aberration study, plasma membrane stability study of marrow cells, lysosomal membrane and mitochondrial membrane stability study and innate immune parameters were performed in the aplastic anemia, leukemia and MDS mouse model. In bone marrow aplasia, peripheral blood pancytopenia, marrow hypocellularity, decreased marrow cellular viability, deterioration of bone marrow hematopoiesis as well as hematopoietic microenvironment and extramedullary hematopoiesis were noticed. In addition, disruption of mitochondrial and lysosomal membrane integrity along with reduction of innate immune parameters were found in the hematopoietic suppressed condition. Surprisingly, no noticeable chromosomal aberration was found in the aplastic condition. Ineffective marrow hematopoiesis together with the disruption of hematopoietic microenvironment was observed in MDS. Also, extramedullary hematopoiesis, increased marrow cellular death, chromosomal aberration and loss of innate immunity were the common events. During leukemia, the number of functionally and structurally immature cells in the peripheral blood and bone marrow was increased together with malignant conversion of hematopoietic cells in the presence of malignancy supportive stromal microenvironment. Chromosomal aberration, decrease of cell mediated immunity with least mitochondrial apoptotic damage were also found in leukemic condition as well.

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Noncanonical Wnt5a-Ca²⁺-NFAT signaling axis in pesticide induced bone marrow aplasia mouse model: A study to explore the novel mechanism of pesticide toxicity

Chattopadhyay¹,

Chatterjee²,

Law³

2015

Environ. Toxicol.

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According to case-control studies, long-term pesticide exposure can cause bone marrow aplasia like hematopoietic degenerative disease leading to impaired hematopoiesis and increased risk of aplastic anemia in human subjects. However, the exact mechanism of pesticide mediated hematotoxicity still remains elusive. In this study, we investigated the role of noncanonical Wnt signaling pathway, a crucial regulator of adult hematopoiesis, in pesticide induced bone marrow aplasia mouse model. Aplasia mouse model was developed following inhalation and dermal exposure of 5% aqueous mixture of common agriculturally used pesticides for 6 h/day for 5 days a week up to 90 days. After that, blood hemogram, marrow smear, cellularity, scanning electron microscopy, extramedullary hematopoiesis and flowcytometric expression analysis of noncanonical Wnt signaling components, such as Wnt 5a, fzd5, NFAT, IFN-γ, intracellular Ca(2+) level were evaluated in the bone marrow hematopoietic stem/progenitor compartment of the control and pesticide induced aplasia groups of animals. Results showed that pesticide exposed mice were anemic with peripheral blood pancytopenia, hypocellular degenerative marrow, and extramedullary hematopoiesis in the spleen. Upon pesticide exposure, Wnt 5a expression was severely downregulated with a decline in intracellular Ca(2+) level. Moreover, downstream of Wnt5a, we observed sharp downregulation of NFATc2 transcription factor expression, the major target of pesticide toxicity and its target molecule IFN-γ. Taken together, our result suggests that deregulation of Wnt5a-Ca(2+) -NFAT signaling axis in the hematopoietic stem/progenitor compartment plays a crucial role behind the pathogenesis of pesticide mediated bone marrow aplasia by limiting primitive hematopoietic stem cells' ability to maintain hematopoietic homeostasis and reconstitution mechanism in vivo during xenobiotic stress leading to ineffective hematopoiesis and evolution of bone marrow aplasia. © 2015 Wiley Periodicals, Inc. Environ Toxicol 31: 1163-1175, 2016.

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Deregulation of vital mitotic kinase–phosphatase signaling in hematopoietic stem/progenitor compartment leads to cellular catastrophe in experimental aplastic anemia

Chatterjee¹,

Chattopadhyay²,

Law³

2016

Mol Cell Biochem

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Aplastic anemia, the paradigm of bone marrow failure, is characterized by pancytopenic peripheral blood and hypoplastic bone marrow. Among various etiologies, inappropriate use of DNA alkylating drugs like cyclophosphamide and busulfan often causes the manifestation of the dreadful disease. Cell cycle impairment in marrow hematopoietic stem/progenitor compartment together with cellular apoptosis has been recognized as culpable factors behind aplastic pathophysiologies. However, the intricate molecular mechanisms remain unrevealed till date. In the present study, we have dealt with the mechanistic intervention of the disease by peripheral blood hemogram, bone marrow histopathology, cytopathology, hematopoietic kinetic study, scanning electron microscopy, DNA damage assessment and flowcytometric analysis of cellular proliferation and apoptosis in hematopoietic stem/progenitor cell (HSPC) rich marrow compartment using busulfan and cyclophosphamidemediated mouse model. To unveil the molecular mechanisms behind aplastic pathophysiology, we further investigated the role of some crucial mitotic and apoptotic regulators like Protein kinase-B (PKB), Gsk-3β, Cyclin-D1, PP2A, Cdc25c, Plk-1, Aurora kinase-A, Chk-1 regarding the hematopoietic catastrophe. Our observations revealed that the alteration of PKB-GSK-3β axis, Plk-1, and Aurora kinase-A expressions in HSPC compartment due to DNA damage response was associated with the proliferative impairment and apoptosis during aplastic anemia. The study established the correlation between the accumulation of DNA damage and alteration of the mentioned molecules in aplastic HSPCs that lead to the hematopoietic catastrophe. We anticipate that our findings will be beneficial for developing better therapeutic strategies for the dreadful disease concerned.

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Alteration of classical and hematopoiesis specific p53 pathway in the bone marrow hematopoietic stem/progenitor compartment facilitates leukemia progression in experimental mice

Chatterjee¹,

Chattopadhyay²,

Law³

2016

Leukemia Research

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