Thygesendahl2287

Long noncoding RNAs (lncRNAs) have been found to play critical roles in tumorigenesis and the development of various cancers, including hepatocellular carcinoma (HCC). Metastasis associated with lung adenocarcinoma transcript-1 (MALAT1) has been identified as an oncogene and prognostic biomarker in HCC. Here, we demonstrated that MALAT1 expression was obviously high in sorafenib-resistant HCC cells. Furthermore, knockdown of MALAT1 increased sorafenib sensitivity in nonresponsive HCC cells, whereas forced expression of MALAT1 conferred sorafenib resistance to responsive HCC cells in vitro. Additionally, loss/gain-of-function assays revealed that MALAT1 promoted cell proliferation, migration and EMT in HCC cells. Mechanistically, MALAT1 regulated Aurora-A expression by sponging miR-140-5p, thus promoting sorafenib resistance in HCC cells. Moreover, MALAT1 inhibition enhanced the antitumor efficacy of sorafenib in vivo. Clinically, we found that MALAT1 expression was negatively correlated with miR-140-5p expression but positively correlated with Aurora-A expression in HCC patients and that upregulated MALAT1 was closely correlated with poor survival outcomes in HCC patients. These findings indicated that MALAT1 may be a novel target for prognosis prediction and therapeutic strategies in HCC patients treated with sorafenib. Copyright ©2020, American Association for Cancer Research.Renal cell carcinoma (RCC) bone metastases (RCCBM) are typically osteolytic. We previously showed that BIGH3 (beta Ig-h3/TGFbI), secreted by 786-O RCC, plays a role in osteolytic bone lesion in RCCBM through inhibition of osteoblast (OSB) differentiation. To study this interaction, we employed three-dimensional (3D) hydrogels to co-culture bone-derived 786-O RCC cells (Bo-786) with MC3T3-E1 pre-osteoblasts (OSB). Culturing pre-osteoblasts in the 3D hydrogels preserved their ability to differentiate into mature OSB; however, this process was decreased when pre-osteoblasts were co-cultured with Bo-786 cells. Knockdown of BIGH3 in Bo-786 cells recovered OSB differentiation. Further, treatment with bone morphogenetic protein 4 (BMP4), which stimulates osteoblast differentiation, or cabozantinib (CBZ), which inhibits VEGFR1 and MET tyrosine kinase activities, also increased OSB differentiation in the co-culture. CBZ also inhibited pre-osteoclast RAW264.7 cell differentiation. Using RCCBM mouse models, we showed that CBZ inhibited Bo-786 tumor growth in bone. CBZ treatment also increased bone volume and OSB number, and decreased osteoclast number and blood vessel density. When tested in SN12PM6 RCC cells that have been transduced to overexpress BIGH3, CBZ also inhibited SN12PM6 tumor growth in bone. see more These observations suggest that enhancing OSB differentiation could be one of the therapeutic strategies for treating RCCBM that exhibit OSB inhibition characteristics, and that this 3D co-culture system is an effective tool for screening osteoanabolic agents for further in vivo studies. Copyright ©2020, American Association for Cancer Research.Cancer patients often confront the decision of whether to continue high dose chemotherapy at the expense of cumulative toxicities. Reducing the dose of chemotherapy regimens while preserving efficacy is sorely needed to preserve the performance status of these vulnerable patients, yet has not been prioritized. Here, we introduce a dual pronged approach to modulate the microenvironment of desmoplastic pancreatic tumors and enable significant dose de-escalation of the FDA-approved chemotherapeutic nanoliposomal irinotecan (nal-IRI) without compromising tumor control. We demonstrate that light-based photodynamic priming (PDP) coupled with vitamin D3 receptor (VDR) activation within fibroblasts increases intratumoral nal-IRI accumulation and suppresses pro-tumorigenic CXCL12/CXCR7 crosstalk. Combined photodynamic and biochemical modulation of the tumor microenvironment enables a 75% dose reduction of nal-IRI while maintaining treatment efficacy, resulting in improved tolerability. Modifying the disease landscape to increase the susceptibility of cancer, via preferentially modulating fibroblasts, represents a promising and relatively underexplored strategy to enable dose de-escalation. The approach presented here, using a combination of three clinically available therapies with non-overlapping toxicities, can be rapidly translated with minimal modification to treatment workflow, and challenges the notion that significant improvements in chemotherapy efficacy can only be achieved at the expense of increased toxicity. Copyright ©2020, American Association for Cancer Research.The Fellowship in Immediate Medical Care (FIMC) is the highest level of formal qualification available for pre-hospital practitioners, aiming to test the knowledge, technical and non-technical skills of those providing specialist Pre-Hospital Emergency Care (PHEC). The FIMC is a multiprofessional examination with the potential to support continuous quality improvement of the PHEC that the Defence Medical Services (DMS) can offer to our patients now and in the future. The aim of this article is to inform the readership about the evolution of the FIMC examination and its applicability to military clinicians (and their civilian counterparts). A secondary aim is to inform those who are preparing for the examination. © Author(s) (or their employer(s)) 2020. No commercial re-use. See rights and permissions. Published by BMJ.The rhizosheath is a layer of soil around the root that provides a favorable environment for soil microbe enrichment and root growth. Rice (Oryza sativa) roots form rhizosheaths under moderate soil drying conditions (MSD), but how the rhizosheath forms associations with microbes is unclear. To investigate rice rhizosheath formation under MSD, we employed a multiphasic approach, integrating data from high-throughput sequencing and root-bacterial interactions. Rice roots formed a pronounced rhizosheath under MSD, but not under continuous flooding regimens. Plant growth-promoting rhizobacteria of the Enterobacteriaceae were enriched in rhizosheaths of two different rice varieties, Gaoshan 1 (drought tolerant) and Nipponbare (drought sensitive). RNA-seq analysis revealed that the ethylene pathway was induced in the rhizosheath-root system under MSD. Enterobacter aerogenes, a bacterium isolated from the rhizosheath, degrades the ethylene precursor 1-aminocyclopropane-1-carboxylate (ACC), thereby increasing rhizosheath formation.