Poornema Ramasundaram scite author profile

Poornema Ramasundaram

3Publications

58Citation Statements Received

128Citation Statements Given

How they've been cited

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125

Affiliations

Kean University, Center for Discovery, Hackensack University Medical Center

Publications

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GRP78 modulates cell adhesion markers in prostate Cancer and multiple myeloma cell lines

Cultrara¹,

Kozuch²,

Ramasundaram

et al. 2018

BMC Cancer

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BackgroundGlucose regulated protein 78 (GRP78) is a resident chaperone of the endoplasmic reticulum and a master regulator of the unfolded protein response under physiological and pathological cell stress conditions. GRP78 is overexpressed in many cancers, regulating a variety of signaling pathways associated with tumor initiation, proliferation, adhesion and invasion which contributes to metastatic spread. GRP78 can also regulate cell survival and apoptotic pathways to alter responsiveness to anticancer drugs. Tumors that reside in or metastasize to the bone and bone marrow (BM) space can develop pro-survival signals through their direct adhesive interactions with stromal elements of this niche thereby resisting the cytotoxic effects of drug treatment. In this study, we report a direct correlation between GRP78 and the adhesion molecule N-cadherin (N-cad), known to play a critical role in the adhesive interactions of multiple myeloma and metastatic prostate cancer with the bone microenvironment.MethodsN-cad expression levels (transcription and protein) were evaluated upon siRNA mediated silencing of GRP78 in the MM.1S multiple myeloma and the PC3 metastatic prostate cancer cell lines. Furthermore, we evaluated the effects of GRP78 knockdown (KD) on epithelial-mesenchymal (EMT) transition markers, morphological changes and adhesion of PC3 cells.ResultsGRP78 KD led to concomitant downregulation of N-cad in both tumors types. In PC3 cells, GRP78 KD significantly decreased E-cadherin (E-cad) expression likely associated with the induction in TGF-β1 expression. Furthermore, GRP78 KD also triggered drastic changes in PC3 cells morphology and decreased their adhesion to osteoblasts (OSB) dependent, in part, to the reduced N-cad expression.ConclusionThis work implicates GRP78 as a modulator of cell adhesion markers in MM and PCa. Our results may have clinical implications underscoring GRP78 as a potential therapeutic target to reduce the adhesive nature of metastatic tumors to the bone niche.Electronic supplementary materialThe online version of this article (10.1186/s12885-018-5178-8) contains supplementary material, which is available to authorized users.

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Human ex vivo 3D bone model recapitulates osteocyte response to metastatic prostate cancer

Choudhary

Ramasundaram

Dziopa

et al. 2018

Sci Rep

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Prostate cancer (PCa) is the second leading cause of cancer deaths among American men. Unfortunately, there is no cure once the tumor is established within the bone niche. Although osteocytes are master regulators of bone homeostasis and remodeling, their role in supporting PCa metastases remains poorly defined. This is largely due to a lack of suitable ex vivo models capable of recapitulating the physiological behavior of primary osteocytes. To address this need, we integrated an engineered bone tissue model formed by 3D-networked primary human osteocytes, with conditionally reprogrammed (CR) primary human PCa cells. CR PCa cells induced a significant increase in the expression of fibroblast growth factor 23 (FGF23) by osteocytes. The expression of the Wnt inhibitors sclerostin and dickkopf-1 (Dkk-1), exhibited contrasting trends, where sclerostin decreased while Dkk-1 increased. Furthermore, alkaline phosphatase (ALP) was induced with a concomitant increase in mineralization, consistent with the predominantly osteoblastic PCa-bone metastasis niche seen in patients. Lastly, we confirmed that traditional 2D culture failed to reproduce these key responses, making the use of our ex vivo engineered human 3D bone tissue an ideal platform for modeling PCa-bone interactions.

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Abstract 4548: The chemokine receptor CCR1 is involved in microglia stimulated glioblastoma invasion

Coniglio

Ramasundaram

Fournier

et al. 2019

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Glioblastoma Multiforme (GBM) is the most aggressive form of adult brain tumor with a median survival time of twelve months. GBM is highly resistant to conventional therapy which includes surgical resection of the tumor, radiation treatment and chemotherapy. GBM cells are highly motile and invasive resulting in infiltrative tumors with poorly defined borders. GBM tumors are heavily infiltrated with microglia cells which are known to stimulate GBM cell invasion. Our laboratory has previously demonstrated that microglia strongly stimulates GBM invasion both in-vitro and in orthotopic animal models. This interaction was found to be dependent on CSF-1R which is expressed on all tumor infiltrating macrophages/microglia. Blockade of the CSF-1R using compounds such as pexidartinib (PLX3397) can inhibit microglia/macrophage-stimulated GBM invasion in-vitro and in vivo. A variety of chemokines are upregulated in the GBM tumor microenvironment and facilitate “cross-talk” between microglia and GBM cells eliciting a chemotactic response. We have demonstrated that the chemotactic ligand, CCL3, is similarly upregulated in GBM tumors. We postulated that inhibition of CCL3 associated receptors such as C-C receptor 1 (CCR1) might also inhibit GBM invasion, thus, a CCR1 antagonist could prove efficacious for blockade of microglia-induced glioblastoma invasion in vitro. Many potent CCR1 antagonists have been described in the literature. We chose four of these compounds with two distinct structural cores, all with reported IC50’s of less than 200 nM for inhibition of CCR1 binding versus CCL3. We examined the ability of these antagonists to block microglia-stimulated glioblastoma invasion using an in-vitro coculture invasion assay. Using quantitative PCR arrays, we also show that expression of chemokines and chemokine receptor genes is greatly altered in GBM conditioned media-treated microglia. Understanding the pattern of tumor-associated macrophage/microglia chemokine secretion in GBM may present additional targets for chemotherapeutic intervention and enhance immunotherapy. Citation Format: Salvatore J. Coniglio, Poornema Ramasundaram, Neshama Fournier, Danielle S. Hamilton, Gregory Marshall, Keia Smith, Diana Habib, James R. Merritt. The chemokine receptor CCR1 is involved in microglia stimulated glioblastoma invasion [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2019; 2019 Mar 29-Apr 3; Atlanta, GA. Philadelphia (PA): AACR; Cancer Res 2019;79(13 Suppl):Abstract nr 4548.

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