Skin photoaging, main causes of skin aging, is induced by chronic UV irradiation. LncSPRY4-IT1, a broadly expressed lncRNA, takes part in various biological functions by combining with functional protein molecules. However, the role of LncSPRY4-IT1 in skin photoaging process has not been characterized. This study is to investigate the interacting proteins of LncSPRY4-IT1 by combining RNA pull-down, high-throughput, and bioinformatic analysis.
Human skin fibroblasts (HDFs) were exposed to 10J/cm
UVA irradiation, once a day for 14days. LncSPRY4-IT1 expression was qualified via RT-PCR. In vitro RNA pull-down assays and liquid chromatography-mass spectrometry analysis were used to identify the LncSPRY4-IT1-related proteins. Functional annotation analysis and pathway enrichment were preformed via Gene Ontology and KEGG.
LncSPRY4-IT1 expression in photoaging fibroblasts was increased 1.66±0.23 folds. 181 LncSPRY4-IT1-interacting proteins in UVA-induced photoaging skin fibroblast irradiation were identified, of which 56 proteins with two or more unique peptides, 73 proteins related to RNA processing, and 5 proteins related to DNA processing. High-throughput and bioinformatic analysis showed that LncSPRY4-IT1-targeting proteins were involved in cellular process, metabolic process, biological regulation, and cell part in skin photoaging process. The KEGG revealed that LncSPRY4-IT1-targeting proteins were mainly enriched in metabolic pathways.
The results of our studies illuminate how LncSPRY4-IT1 formed a LncRNA-protein regulatory network in skin photoaging mechanisms and suggest that LncSPRY4-IT1 may serve as a novel upstream intervention target for the prevention and treatment of photoaging and related skin diseases.
The results of our studies illuminate how LncSPRY4-IT1 formed a LncRNA-protein regulatory network in skin photoaging mechanisms and suggest that LncSPRY4-IT1 may serve as a novel upstream intervention target for the prevention and treatment of photoaging and related skin diseases.Osteosarcoma is a bone cancer formed by the cells of the bone. Children, young adults, and teens are highly affected by osteosarcoma. Early identification of osteosarcoma is mandatory to improve the treatment and increase the lifespan of the patients. MicroRNA-195 (miR-195) was shown to be a suitable biomarker for osteosarcoma, and the present study describes a sensitive method of miR-195 identification by nuclease digestion in ELISA to detect and quantify the level of miR-195. S1 nuclease catalyzed endo- and exonucleolytic digestion of single-stranded (ss) RNA and DNA on ELISA polystyrene substrate, which helped to identify duplexed miR-195. This method selectively and specifically identified miR-195 without any biofouling interactions and reached the limit of detection at 10 fM within the range from 10 fM to 10 nM. Due to complete digestion of ssDNA, single- and triple-mismatched sequences failed to increase the ELISA signal, indicating specific miRNA detection. Furthermore, human serum spiked with miR-195 did not interfere with the detection, confirming selective identification. This method identified miR-195 at a lower level and will help to diagnose earlier stages of osteosarcoma.Microsporidia are obligate intracellular eukaryotic parasites known to parasitize many species of the animal kingdom as well as some protists. However, their diversity is underestimated, in part as a consequence of the failure of 'universal' primers to detect them in metabarcoding studies. Besides, due to the inconsistency between taxonomy and phylogenetic data, available databases may assign incorrectly sequences obtained with high-throughput sequencing. In this work, we developed a comprehensive reference database which positions microsporidian SSU rRNA gene sequences within a coherent ranked phylogenetic framework. We used this phylogenetic framework to study the microsporidian diversity in lacustrine ecosystems, focusing on less then 150 μm planktonic size fractions. Proteasome purification Our analysis shows a high diversity of Microsporidia, with the identification of 1531 OTUs distributed within seven clades, of which 76% were affiliated to clade IV2 and 20% to clade I (nomenclature presented hereby). About a quarter of the obtained sequences shared less than 85% identity to the closest known species, which might represent undescribed genera or families infecting small hosts. Variations in the abundance of Microsporidia were recorded between the two lakes sampled and across the sampling period, which might be explained by spatio-temporal variations of their potential hosts such as microeukaryotes and metazooplankton.Steven-Johnson syndrome (SJS) is a severe cutaneous adverse drug reaction. Its occurrence due to vaccines is scant.1 We report a case of SJS caused by COVID-19 vaccine in an adult. A 60-year-old male presented with complaints of fever, oral ulceration and skin rash three days after the first dose of COVID-19 vaccine, for which he visited a local physician and was prescribed paracetamol and levocetrizine, inspite of which the symptoms were not controlled and gradually the rashes became generalised in distribution.
Acute cutaneous graft-versus-host disease (acGVHD) following haematopoietic stem cell transplant (HSCT) is common but difficult to distinguish from other causes of rash. Plasma elafin has been proposed as a diagnostic and prognostic biomarker of skin GVHD.
To evaluate the role of plasma elafin as a biomarker in acGVHD in an Indian population.
Plasma elafin was evaluated in a prospective study of HSCT recipients, conducted over 2years, taking measurements at baseline and at onset of skin rash after HSCT. Patients were categorized into those with GVHD rash, those with non-GVHD rash and those with no rash and the three groups were compared.
Two hundred and sixty-one patients with a median age of 16years (range 1-61years) and a male predominance (17586M/F) underwent HSCT during the study period 56 patients in the GVHD group, 49 in the non-GVHD group and 156 in the no-rash group. The median baseline elafin was similar in all three groups. At the onset of rash, median elafin level was similar between GVHD and non-GVHD rash (34549 vs.Proteasome purification
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