LncRNA taurine up-regulated gene1 (TUG1) is a valuable lncRNA that is abnormally expressed in a number of tumor types.However, investigations into its expression, prognostic implications, and associations with the tumor microenvironment and immunity remain limited.In this study, we evaluated the prognostic value and oncogenic potential of TUG1, and its relationship with pathol. parameters, immune infiltration, and cancer drug sensitivity.Using data from The Cancer Genome Atlas (TCGA), Sangerbox, and the Cancer Cell Line Encyclopedia (CCLE), we analyzed TUG1 expression.Kaplan-Meier and Cox regression analyses were employed to evaluate the prognostic significance of TUG1 in pan-cancer.The association between TUG1 expression and methylation, tumor mutational burden (TMB), microsatellite instability (MSI), immune infiltration, immune checkpoints, and drug sensitivity was examinedIn adrenocortical carcinoma (ACC) and liver hepatocellular carcinoma (LIHC), TUG1 overexpression was related to poorer overall survival (OS).In glioblastoma multiforme (GBM), lower grade glioma (LGG) and pheochromocytoma and paraganglioma (PCPG), increased TUG1 was related to better OS.In ACC and LGG, TUG1 may be an independent prognostic factor.Gene set enrichment anal. (GSEA) highlights the involvement of TUG1 in various tumorigenic and signaling pathways.Addnl., TUG1 was associated with TMB in 12 tumor types and with MSI in 11 cancer types.TUG1 expression was pos. correlated with Chelerythrine, Nelarabine, Methylprednisol, AZD-9496, and ZM-336372, while it neg. correlated with CG-806, BPTES, Vincristine, AZD-4547, CFI-400945, XR-5944, and Danusertib.Our findings revealed dysregulated TUG1 expression in the human pan-cancer dataset.Drug sensitivity anal. suggested a potential association between TUG1 and drug resistance of specific drugs.Moreover, TUG1 expression was correlated with immune checkpoint genes, immune cell infiltration, and the tumor microenvironment across various cancers, underscoring its potential as a promising target for tumor prognosis and treatment.Our findings highlight the fundamental impact of TUG1 across multiple cancer types, offering insights that could pave the way for novel therapeutic strategies in cancer patients.

02 Jul 2021·Nucleic acids researchQ2 · BIOLOGY

PLIP 2021: expanding the scope of the protein–ligand interaction profiler to DNA and RNA

Q2 · BIOLOGY

ArticleOA

Author: Haupt, V Joachim ; Salentin, Sebastian ; Bolz, Sarah Naomi ; Schroeder, Michael ; Kaiser, Florian ; Linnemann, Katja L ; Adasme, Melissa F

Abstract:

With the growth of protein structure data, the analysis of molecular interactions between ligands and their target molecules is gaining importance. PLIP, the protein–ligand interaction profiler, detects and visualises these interactions and provides data in formats suitable for further processing. PLIP has proven very successful in applications ranging from the characterisation of docking experiments to the assessment of novel ligand–protein complexes. Besides ligand–protein interactions, interactions with DNA and RNA play a vital role in many applications, such as drugs targeting DNA or RNA-binding proteins. To date, over 7% of all 3D structures in the Protein Data Bank include DNA or RNA. Therefore, we extended PLIP to encompass these important molecules. We demonstrate the power of this extension with examples of a cancer drug binding to a DNA target, and an RNA–protein complex central to a neurological disease. PLIP is available online at https://plip-tool.biotec.tu-dresden.de and as open source code. So far, the engine has served over a million queries and the source code has been downloaded several thousand times.

01 Aug 2020·Journal of molecular recognition : JMRQ4 · BIOLOGY

Structures and dynamics of DNA complexes of the desmethyl analog of the cytotoxin MLN944: Insights into activity when a methyl isn't futile

Q4 · BIOLOGY

Article

Author: Ball, Graham E. ; Serobian, Andre ; Wakelin, Laurence P. G. ; Pracey, Christopher P. ; Thomas, Donald S. ; Denny, William A.

Abstract:

Structure activity relationships for tricyclic‐carboxamide topoisomerase II poisons indicate that cytotoxicity is enhanced by the presence of methyl, and other, groups in the position peri to the carboxamide. Linked dimers of phenazine‐1‐carboxamides are potent cytotoxins and one phenazine dimer, MLN944 (alternatively XR5944), has been in clinical trial. MLN944 is a template inhibitor of transcription, whereas corresponding monomers are not. Nevertheless, its cytotoxic potency is also diminished by removal of its peri methyl groups. Here, we describe NMR and molecular dynamic studies of the interaction of desmethyl MLN944 with d(ATGCAT)2, d(TATGCATA)2, and d(TACGCGTA)2 to investigate the influence of the nine‐methyl group on the structure of MLN944 complexes. As with MLN944, the carboxamide group hydrogen bonds to the phenazine ring nitrogen, the ligand sandwiches the central GC base pairs in the major groove, and the protonated linker amines hydrogen bond primarily to the O6 atom of the guanines. Molecular dynamics studies reveal that the linker exists in multiple conformations, none of which produce an ideal set of hydrogen bonds. In distinction, however, the carboxamide‐to‐phenazine ring nitrogen hydrogen bond is weaker, the overall helix winding is less and the NMR resonances are broader in the desmethyl complexes. Exchange between free and complexed DNA, quantified using two‐dimensional NOESY spectra, is faster for the desmethyl MLN944 complexes than for MLN944 complexes. Overall, the data suggest that desmethyl MLN944 DNA complexes are “looser” and more unwound at the binding site, leading to faster dissociation rates, which could account for the diminished efficacy of the desmethyl analog.

100 Deals associated with XR-5944

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KEGG	Wiki	ATC	Drug Bank
-	-	-	DB06364

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Indication	Highest Phase	Country/Location	Organization	Date
Neoplasms	Phase 1	-	Millennium Pharmaceuticals, Inc.	-
Neoplasms	Phase 1	-	Xenova Ltd.	-
Solid tumor	Phase 1	United Kingdom	Xenova Group Plc	-

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Study	Phase	Population	Analyzed Enrollment	Group	Results	Evaluation	Publication Date


ASCO2004	Phase 1	Solid tumor	9	XR5944	etcguziuyi(qbbslewxvb) = pvgfedqqpi bqwrnprwql (syehsvuqjv ) View more	-	15 Jul 2004

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