Recent studies have boosted our understanding of long noncoding RNAs (lncRNAs) in numerous biological processes, but few have examined their roles in somatic cell reprogramming. Through expression profiling and functional screening, we have identified that the large intergenic noncoding RNA p21 (lincRNA-p21) impairs reprogramming. Notably, lincRNA-p21 is induced by p53 but does not promote apoptosis or cell senescence in reprogramming. Instead, lincRNA-p21 associates with the H3K9 methyltransferase SETDB1 and the maintenance DNA methyltransferase DNMT1, which is facilitated by the RNA-binding protein HNRNPK. Consequently, lincRNA-p21 prevents reprogramming by sustaining H3K9me3 and/or CpG methylation at pluripotency gene promoters. Our results provide insight into the role of lncRNAs in reprogramming and establish a novel link between p53 and heterochromatin regulation.
Background: Sarilumab is the first fully human monoclonal antibody (mAb) directed against the interleukin-6 receptor alpha (IL-6Rα). Sarilumab was developed using VelocImmune ® mice immunized with the human IL-6 (hIL-6) receptor. VelocImmune mice are genetically-engineered to express human antibody variable domain genes in the same robust fashion that the replaced mouse genes are typically expressed. Sarilumab is currently being explored as a new therapeutic modality for the treatment of rheumatoid arthritis. Objectives: To evaluate the kinetic binding parameters and in vitro functional activity of two monoclonal antibodies directed against IL-6Rα: the fully human mAb sarilumab and the humanized mAb tocilizumab. Methods: Kinetic binding parameters were measured using Surface Plasmon Resonance (SPR) technology. The ability to block hIL-6 induced activation of the human IL-6Rα was investigated using several bioassays; a human hepatocellular carcinoma cell line HepG2, transfected with a STAT3-luciferase reporter plasmid, as well as a proliferation assay using the human B-lymphoma cell line, DS-1. Results: Sarilumab bound with high affinity to recombinant monomeric human and monkey IL-6 receptor with a K D value of 61.9 pM and 71.9 pM, respectively. The binding affinity of sarilumab to the dimeric human IL-6 receptor Fc-fusion was 12.8 pM. Cross-reactivity to mouse IL-6 receptor was not observed using SPR, indicating that sarilumab is specific to human and monkey IL-6 receptor. In contrast, tocilizumab bound to monomeric and dimeric forms of the human IL-6 receptor with a 15-22 fold weaker affinity than that of sarilumab as determined by SPR. In the HepG2 cell luciferase reporter assay, sarilumab effectively blocked luciferase activity induced by 50 pM hIL-6 with an IC 50 of 146 pM and was ~4 fold more potent than tocilizumab. Similarly, in the DS-1 cell proliferation assay, sarilumab effectively blocked growth induced by 1.0 pM hIL-6 with an IC 50 of 226 pM and was several fold more potent than tocilizumab. Conclusions: Based on these in vitro assay data, sarilumab has both a higher relative binding affinity for IL-6Rα, blocks IL-6Rα activation, and inhibits IL-6-induced cellular responses such as cell proliferation at lower concentrations than tocilizumab. Acknowledgements: VelocImmune ® is a registered trademark of Regeneron Pharmaceuticals, Inc.
Metabolomics has been applied to explore altered metabolite profiles in disease and identify unique metabolic signatures in recent years. We aim to characterize the metabolic profile of rheumatoid arthritis patients and explore its underlying pathological processes using metabolomics approach. Serum samples from 30 rheumatoid arthritis (RA) patients, 30 primary Sjogren's syndrome (pSS) patients, and 32 healthy controls (HC) were collected. The sample was analyzed by ultra-high-performance liquid chromatography coupled with high-resolution mass spectrometry (UPLC-HRMS). Potential biomarkers were screened from orthogonal projection to latent structure discriminate analysis (OPLS-DA) and further evaluated by receiver operating characteristic analysis (ROC). Compared with HC and pSS patients, the RA patients had increased serum levels of 4-methoxyphenylacetic acid, glutamic acid, L-leucine, L-phenylalanine, L-tryptophan, L-proline, glyceraldehyde, fumaric acid, and cholesterol as well as decreased capric acid, argininosuccinic acid, and billirubin. A total of eight potential biomarkers were screened and tentatively identified for RA. A panel of three metabolites (4-methoxyphenylacetic acid, L-phenylalanine, and L-leucine) was identified as specific biomarkers of RA. ROC analysis showed that the panel had a sensitivity of 93.30% with a specificity of 95.20% in discrimination RA from other groups. UPLC-HRMS-based quantification of circulating metabolites was a useful tool for identifying RA patients from pSS patients and healthy controls. The potential biomarkers indicated that the RA metabolic disturbance might be associated with inflammation injury, amino acid metabolism, oxidative stress, and phospholipid metabolism.
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