Project description:The objective of this experiment is to test the contribution of the carbons derived from glutamine to the generation of aspartate and glutamate in human epithelial renal cells HK2 and ccRCC cell lines 786-O and 786-M1A. To test this hypothesis, we incubated all cells with 13C5-glutamine in Plasmax media with or without a pharmacological inhibitor of glutaminase CB-839. This is Part 7 of a study and the experimental number is MS57.

Project description:The objective of this experiment is to test the contribution of branched-chain amino acids (BCAA)-derived nitrogen to the generation of de novo amino acids in renal cells through transamination reactions. To test this hypothesis, we incubated human renal epithelial cell line HK2 and ccRCC cell lines 786-O, 786-M1A and 786-M2A with 15N-leucine and 15N-isoleucine in Plasmax media for 27h. Data were generated from 5 independent cultures. This is Part 2 of the study and the experimental number is MS48.

Project description:The objective of this experiment is to test the contribution of the branched chain amino acids catabolism to the carbons used in the TCA cycle. To test this hypothesis, we incubated human renal epithelial cells (HK2) and ccRCC cell lines (786-O, 786-M1A, OS-RC-2, OS-LM1, RFX-631) with 13C6-leucine and 13C6-isoleucine in Plasmax media for 10 mins, 1 hour and 3 hours. Data were generated from 5 independent cultures. This is Part 4 of the study and the experiment number is MS52.

Project description:The objective of this experiment is to analyse the metabolic profiles of human renal epithelial cells HK2 and ccRCC cell lines 786-O, 786-M1A and 786-M2A in Plasmax media. The experiment was conducted on three different days using cells with different passage numbers. This is Part 5 of a study and the experimental number is MS55.

Project description:The objective of this study is to analyse the exometabolomics of human epithelial renal cell line HK2 and clear cell renal cell carcinoma (ccRCC) cell lines 786-O, 786-M1A, 786-M2A, OS-RC-2, OS-LM1 and RFX-631 that are cultured with the Plasmax media. This is part 3 of the study, and the experimental number is MS51.

Project description:The objective of this experiment is to compare the catabolism of branched-chain amino acids (BCAAs) in human renal epithelial cell line HK2 versus ccRCC cell lines 786-O, 786-M1A and 786-M2A using 13C6-labelled leucine and isoleucine stable isotope tracers. To this end, we incubated the above cell lines with 13C6-leucine and 13C6-isoleucine in Plasmax media for 27h. Data were generated from 5 independent cultures. This is Part I of the study and the experimental number is MS42.

Project description:Cells were deprived of glucose or glutamine for 1 h then resuspended in 10mM [13C1,2] D-glucose labeled or 4 mM [13C5]-U-glutamine labeled medium, respectively. At this time cells were also activated with 5 ug/ml anti-CD3 and anti-CD28. Cells were labeled (and activated) for 12 h when samples were spun down, and cells were resuspended in 200 ul ice cold methanol

Project description:N1-methyladenosine (m1A) is an abundant post-transcriptional RNA modification, yet little is known about its prevalence, topology and dynamics in mRNA. Here, we show that m1A is abundant in human mRNA, with an m1A/A ratio of ~0.02%. We develop m1A-ID-Seq, based on m1A immunoprecipitation and the inherent property of m1A to stall reverse transcription, for the transcriptome-wide m1A analysis. m1A-ID-Seq identifies 901 m1A peaks (from 583 genes) in mRNA and ncRNA, and reveals a prominent feature of enrichment in the 5’-untranslated region of mRNA transcripts, distinct from that of N6-methyladenosine, the most abundant internal mammalian mRNA modification. m1A in mRNA is also reversible by ALKBH3, a known DNA/RNA demethylase. Lastly, m1A responds dynamically to stimuli and hundreds of stress-induced m1A sites are identified. Collectively, our approaches allow comprehensive analysis of m1A methylation and provide an important tool for functional studies of potential epigenetic regulation via the reversible and dynamic m1A methylation. Identification of m1A sites in human embryonic kidney cells. Comparisons of m1A profiles of wild type HEK293T with ALKBH3 knock out cell line reveals the ALKBH3 specific sites. Stress inducible m1A sites are also identified by comparing the profiles of untreated cells with stress treated cells.

Project description:The success of Mycobacterium tuberculosis (Mtb) as pathogen is tightly linked to its ability to recalibrate host metabolic processes in infected host macrophages. Correspondingly, analysis of RNA-sequencing datasets showed altered gene expression of key metabolic enzymes involved in NAD+, creatine, glucose and glutamine metabolism (e.g NAMPT, IDO1, SLC6A8, CKB, HK2) in Mtb-infected M2 macrophages.

Project description:Gene expression changes in response to VHL-reintroduction in metastatic 786-M1A cells.