Vijaya Pooja Vaikari scite author profile

Glioblastoma (GBM) is an aggressive brain tumor which is currently treated with temozolomide (TMZ). Tumors usually become resistant to TMZ and recur; no effective therapy is then available. Monoamine Oxidase A (MAO A) oxidizes monoamine neurotransmitters resulting in reactive oxygen species which cause cancer. This study shows that MAO A expression is increased in human glioma tissues and cell lines. MAO A inhibitors, clorgyline or the near-infrared-dye MHI-148 conjugated to clorgyline (NMI), were cytotoxic for glioma and decreased invasion in vitro. Using the intracranial TMZ-resistant glioma model, clorgyline or NMI alone or in combination with low-dose TMZ reduced tumor growth and increased animal survival. NMI was localized specifically to the tumor. Immunocytochemistry studies showed that the MAO A inhibitor reduced proliferation, microvessel density and invasion, and increased macrophage infiltration. In conclusion, we have identified MAO A inhibitors as potential novel stand-alone drugs or as combination therapy with low dose TMZ for drug-resistant gliomas. NMI can also be used as a non-invasive imaging tool. Thus has a dual function for both therapy and diagnosis.

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Apolipoprotein C2 - CD36 Promotes Leukemia Growth and Presents a Targetable Axis in Acute Myeloid Leukemia

Zhang

Yang

Vaikari

et al. 2020

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Acute myeloid leukemia (AML) is a devastating hematologic malignancy that affects the hematopoietic stem cells. The 5-year overall survival (OS) of patients with AML is less than 30%, highlighting the urgent need to identify new therapeutic targets. Here, we analyze gene expression datasets for genes that are differentially overexpressed in AML cells compared with healthy hematopoietic cells. We report that apolipoprotein C2 (APOC2) mRNA is signifi cantly overexpressed in AML, particularly in patients with mixed-lineage leukemia rearrangements. By multivariate analysis, high APOC2 expression in leukemia blasts is signifi cantly associated with decreased OS (HR: 2.51; 95% CI, 1.03-6.07; P = 0.04). APOC2 is a small secreted apolipoprotein that constitutes chylomicrons, very-low-density lipoproteins, and high-density lipoproteins with other apolipoproteins. APOC2 activates lipoprotein lipase and contributes to lipid metabolism. By gain and loss of function approaches in cultured AML cells, we demonstrate that APOC2 promotes leukemia growth via CD36-mediated LYN-ERK signaling activation. Knockdown or pharmacological inhibition of either APOC2 or CD36 reduces cell proliferation, induces apoptosis in vitro , and delays leukemia progression in mice. Altogether, this study establishes APOC2-CD36 axis as a potential therapeutic target in AML. SIGnIFICAnCE: The majority of patients with AML die within fi ve years of diagnosis. We reveal that lipid transporter APOC2 is elevated in AML and promotes leukemic cell metabolism and growth via CD36, and provide preclinical evidence that targeting this pathway may be benefi cial in AML.

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A novel drug conjugate, NEO212, targeting proneural and mesenchymal subtypes of patient-derived glioma cancer stem cells

et al. 2016

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Loss of MAOA in epithelia inhibits adenocarcinoma development, cell proliferation and cancer stem cells in prostate

Liao

Lin

et al. 2018

Oncogene

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Monoamine oxidase A (MAOA) is a mitochondrial enzyme, which degrades monoamine neurotransmitters and dietary amines and produces HO. Recent studies have shown increased MAOA expression in prostate cancer (PCa), glioma, and classical Hodgkin lymphoma. However, the biological function of MAOA in cancer development remains unknown. In this study, we investigated the role of MAOA in the development of prostate adenocarcinoma by creating a prostate-specific Pten/MAOA knockout (KO) mouse model, in which MAOA-floxP mouse was crossed with the conditional Pten KO PCa mouse that develops invasive PCa. In contrast to Pten KO mice, age-matched Pten/MAOA KO mice exhibited a significant decrease in both prostate size and the incidence of invasive cancer. We observed a significant decline in AKT phosphorylation and Ki67 expression in Pten/MAOA KO mice, which reduced epithelial cell growth and proliferation. As cancer stem cells (CSCs) are required for tumor initiation and growth, we investigated expression of OCT4 and NANOG in the setting of decreased MAOA expression. We found that both OCT4 and NANOG were significantly attenuated in the prostate epithelia of Pten/MAOA KO mice compared to Pten KO mice, which was confirmed with targeted knockdown of MAOA with a short-hairpin(sh) vector targeting MAOA compared to cells transfected with a control vector. Expression of other markers associated with the a stem cell phenotype, including CD44, α2β1, and CD133 as well as HIF-1αCD44 stem cells were all decreased in shMAOA PCa cells compared with empty vector-transfected control cells. We also found spheroid formation ability in PCa cells was decreased when endogenous MAOA was suppressed by siRNA or MAOA inhibitor clorgyline in a colony formation assay. Using the TCGA database, elevated MAOA expression was associated with reduced Pten levels in high Gleason grade in patient samples. Further, we found that Pten-positive PCa cells were more resistant to clorgyline treatments than Pten-null cells in tumorigenicity and stemness. Taken together, these studies suggest that MAOA expression promotes PCa development by increasing cell proliferation and CSCs and highlights the potential use of MAOA inhibitors for the treatment of PCa.

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Clinical and preclinical characterization of CD99 isoforms in acute myeloid leukemia

Vaikari

et al. 2019

Haematologica

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I n an effort to identify target genes in acute myeloid leukemia (AML), we compared gene expression profiles between normal and AML cells from various publicly available datasets. We identified CD99, a gene that is up-regulated in AML patients. In 186 patients from The Cancer Genome Atlas AML dataset, CD99 was over-expressed in patients with FLT3-ITD and was down-regulated in patients with TP53 mutations. CD99 is a transmembrane protein expressed on leukocytes and plays a role in cell adhesion, trans-endothelial migration, and T-cell differentiation. The CD99 gene encodes two isoforms with distinct expression and functional profiles in both normal and malignant tissues. Here we report that, although the CD99 long isoform initially induces an increase in cell proliferation, it also induces higher levels of reactive oxygen species, DNA damage, apoptosis and a subsequent decrease in cell viability. In several leukemia murine models, the CD99 long isoform delayed disease progression and resulted in lower leukemia engraftment in the bone marrow. Furthermore, the CD99 monoclonal antibody reduced cell viability, colony formation, and cell migration, and induced cell differentiation and apoptosis in leukemia cell lines and primary blasts. Mechanistically, CD99 long isoform resulted in transient induction followed by a dramatic decrease in both ERK and SRC phosphorylation. Altogether, our study provides new insights into the role of CD99 isoforms in AML that could potentially be relevant for the preclinical development of CD99 targeted therapy.

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