Porsha L. Smith scite author profile

Key Points• EBV infection leads to PRMT5 overexpression and global epigenetic changes that are essential to drive B-lymphocyte transformation.• Highly selective PRMT5 inhibitors represent a novel, first-in-class drug that restores critical regulatory checkpoints in lymphoma cells.Epigenetic events that are essential drivers of lymphocyte transformation remain incompletely characterized. We used models of Epstein-Barr virus (EBV)-induced B-cell transformation to document the relevance of protein arginine methyltransferase 5 (PRMT5) to regulation of epigenetic-repressive marks during lymphomagenesis. EBV 1 lymphomas and transformed cell lines exhibited abundant expression of PRMT5, a type II PRMT enzyme that promotes transcriptional silencing of target genes by methylating arginine residues on histone tails. PRMT5 expression was limited to EBV-transformed cells, not resting or activated B lymphocytes, validating it as an ideal therapeutic target. We developed a first-in-class, small-molecule PRMT5 inhibitor that blocked EBV-driven B-lymphocyte transformation and survival while leaving normal B cells unaffected. Inhibition of PRMT5 led to lost recruitment of a PRMT5/p65/HDAC3-repressive complex on the miR96 promoter, restored miR96 expression, and PRMT5 downregulation. RNA-sequencing and chromatin immunoprecipitation experiments identified several tumor suppressor genes, including the protein tyrosine phosphatase gene PTPROt, which became silenced during EBV-driven B-cell transformation. Enhanced PTPROt expression following PRMT5 inhibition led to dephosphorylation of kinases that regulate B-cell receptor signaling. We conclude that PRMT5 is critical to EBV-driven B-cell transformation and maintenance of the malignant phenotype, and that PRMT5 inhibition shows promise as a novel therapeutic approach for B-cell lymphomas. (Blood. 2015;125(16):2530-2543

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Insulinotropic actions of exendin-4 and glucagon-like peptide-1 in vivo and in vitro

Parkes¹,

Pittner²,

Jodka³

et al. 2001

Metabolism

228

157

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Pharmacokinetic actions of exendin‐4 in the rat: Comparison with glucagon‐like peptide‐1

Parkes¹,

Jodka²,

Smith³

et al. 2001

Drug Development Research

152

133

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Exendin-4, originally isolated from saliva of the lizard Heloderma suspectum, shares 53% sequence homology and several potentially antidiabetic actions with the mammalian hormone glucagonlike peptide-1(7-36)amide (GLP-1). It shows a higher potency and longer duration of effect in vivo, which may be partly attributed to pharmacokinetic properties. The present study compares the pharmacokinetics of GLP-1 and exendin-4 in rats after intravenous (iv), subcutaneous (sc), or intraperitoneal (ip) administration. Samples were assayed for active GLP-1 (7-36) amide using an enzyme-linked immunosorbent assay that does not detect GLP-1 (1-36-amide), (1-37), (9-36-amide) or (9-37). In parallel experiments, samples were assayed for exendin-4 using a two-site immunoradiometric assay that reacts specifically with fulllength exendin-4. The estimated half-life for GLP-1 and exendin-4 were 0.8-4.7 min and 18-41 min for iv bolus, and 4.6-7.1 min and 90-216 min for SC administration, respectively. Half-lives after ip injection were 0.6-13.5 min for GLP-1 and 125-174 min for exendin-4. Bioavailability for GLP-1 and exendin-4 was 44-71% and 65-75%, respectively, for sc injection. For ip injection, bioavailability for GLP-1 and exendin-4 was 36-67% and 74-76%, respectively. Plasma clearance, as determined from iv infusion data, was 35-38 ml/min for GLP-1 and 4-8 ml/min for exendin-4. Both Co/C max and AUC values were proportional to dose with each route of administration. Plasma clearance of exendin-4 was reduced by 4.4-fold in nephrectomized animals. In conclusion, exendin-4 exhibited a much longer plasma half-life than GLP-1 in rats after iv, sc, or ip injection, which may contribute in some part to reported differences in duration of biological action of the two peptides. Drug Dev. Res. 53:260-267, 2001.

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Genetic Validation of the Protein Arginine Methyltransferase PRMT5 as a Candidate Therapeutic Target in Glioblastoma

et al. 2014

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Glioblastoma (GBM) is the most common and aggressive histologic subtype of brain cancer with poor outcomes and limited treatment options. Here we report the selective overexpression of the protein arginine methyltransferase PRMT5 as a novel candidate theranostic target in this disease. PRMT5 silences the transcription of regulatory genes by catalyzing symmetric di-methylation of arginine residues on histone tails. PRMT5 overexpression in patient-derived primary tumors and cell lines correlated with cell line growth rate and inversely with overall patient survival. Genetic attenuation of PRMT5 led to cell cycle arrest, apoptosis and loss of cell migratory activity. Cell death was p53-independent but caspase-dependent and enhanced with temozolomide, a chemotherapeutic agent used as a present standard of care. Global gene profiling and chromatin immunoprecipitation identified the tumor suppressor ST7 as a key gene silenced by PRMT5. Diminished ST7 expression was associated with reduced patient survival. PRMT5 attenuation limited PRMT5 recruitment to the ST7 promoter, led to restored expression of ST7 and cell growth inhibition. Lastly, PRMT5 attenuation enhanced GBM cell survival in a mouse xenograft model of aggressive GBM. Together, our findings defined PRMT5 as a candidate prognostic factor and therapeutic target in GBM, offering a preclinical justification for targeting PRMT5-driven oncogenic pathways in this deadly disease.

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Porsha L. Smith

Beneficial effects of metformin in normoglycemic morbidly obese adolescents

Selective inhibition of protein arginine methyltransferase 5 blocks initiation and maintenance of B-cell transformation

Insulinotropic actions of exendin-4 and glucagon-like peptide-1 in vivo and in vitro

Pharmacokinetic actions of exendin‐4 in the rat: Comparison with glucagon‐like peptide‐1

Genetic Validation of the Protein Arginine Methyltransferase PRMT5 as a Candidate Therapeutic Target in Glioblastoma

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