Project description:To analyze the proximity-dependent gene expression in macrophages cocultured with tumor cells, we integrated QMID and RNA-seq to profile the transcriptome in THP1-derived macrophages cocultured with tumor cells.

Project description:Proteomic analysis of injured human peripheral nerves, particularly focusing on events occurring in the proximal and distal nerve ends, remains relatively underexplored. This study aimed to investigate the molecular patterns underlying a digital nerve injury, concentrating on differences in protein expression between the proximal and distal nerve ends. A total of 26 human injured digital nerve samples (24 men; 2 women; median age 47 [30-66] years), harvested during primary nerve repair within 48 hours post-injury from proximal and distal nerve ends, were analyzed using mass spectrometry. A total of 3914 proteins were identified, with 127 proteins showing significant differences in abundance between the proximal and the distal nerve ends. The downregulation of proteins in the distal nerve end was associated with synaptic transmission, autophagy, neurotransmitter regulation, cell adhesion and migration. Conversely, proteins upregulated in the distal nerve end were implicated in cellular stress response, neuromuscular junction stability and muscle contraction, neuronal excitability and neurotransmitter release, synaptic vesicle recycling and axon guidance and angiogenesis. Investigation of proteins, with functional annotations analysis, in proximal and the distal ends of human injured digital nerves, revealed dynamic cellular responses aimed at promoting tissue degeneration and restoration, while suppressing non-essential processes.

Project description:Analysis of gene expression in proximal versus distal part of the mouse large intestine. Three (3) animals (biological replicates) were used to isolate tissue from proximal and distal areas of the large intestine.

Project description:Lcn2 is involved in host defense against pathogens, but the function in intestinal mucosal immunity and inflammation remains largely unknown. Genetic ablation of Lcn2 results in early-onset colitis and spontaneous emergence of right-sided colonic tumors in the setting of IL-10 deficiency (Lcn2-/-;IL10-/- mice). To address whether inflammation or other mechanisms drives the site-specific tumor locations gene expression analyses in proximal versus distal colons of Lcn2-/- IL10-/- mice were performed. Differential expression between distal colon versus cecum and proximal colon samples were analyses using Affymetrix MoGene 2.0 ST arrays on formalin-fixed, paraffin-embedded tissue sections of Lcn2-/-; IL10-/-mice.

Project description:Analogous to alternative splicing, alternative polyadenylation (APA) has long been thought to result from competition between proximal and distal polyA sites. By Fractionation-seq, we unexpectedly identified several hundred APA genes where their distal polyA isoforms are retained in chromatin/nuclear matrix and proximal polyA isoforms released into the cytoplasm. Global metabolic PAS-seq and Nanopore long-read RNA-seq provided further evidence that the strong distal polyA sites are first processed and the resulting transcripts are anchored in chromatin/nuclear matrix for further processing at proximal polyA sites and removal of certain slowly spliced introns. By engineering an autocleavable ribozyme between the proximal and distal polyA sites, we demonstrated that the distal polyA isoform is indeed the precursor to the proximal polyA isoform. Therefore, unlike alternative splicing, APA sites are recognized independently, rather than competitively, and in many cases, in a sequential manner. This provides a versatile strategy to regulate gene expression in mammalian cells.

Project description:By comparing the transcriptome from proximal (quadriceps femoris, QF) and distal (tibialis anterior, TA)muscle groups in dysferlin deficient mouse muscle (the SJL mutation bred onto C57BL/10 to produces C57BL/10-SJL.Dysf) with proximal and distal muscle groups from control C57BL/10 mice of an equivalent age (3-weeks old, prior to the onset of overt pathology) we aim to address the issues of muscle selectivity in this this form of muscular dystrophy. Keywords: parallel sample

Project description:Analysis of gene expression in proximal versus distal part of the mouse large intestine.

Project description:Proximal and Distal Nephron-specific Adaptation to Furosemide

Project description:The object of this aim is to understand the mechanism by which vitamin D mediates calcium absorption. Our working hypothesis is that VDR has distinct sets of binding sites: proximal versus distal intestine. Thus, to accomplish the goals, we will 1) determine whether 1,25(OH)2D3/VDR regulates specific target genes in proximal and distal intestine, 2) identify the locations of genomic binding sites for VDR in proximal and distal intestine.

Project description:<p>The incidence of intestinal diseases increases with age, but the regulators of gut aging and the molecules linking gut aging and diseases remain largely unknown. By profiling the transcriptome, proteome, phosphoproteome and metabolome of 104 <em>Macaca fascicularis</em> large intestinal tissues, we unveiled asynchronous aging within the proximal and distal colon. The levels of many gene products, phosphosites and metabolites changed with age in a location- and sex-dependent manner, and many of these changes occurred at distinct rates or even in opposite directions at different locations. Assessment of 60 age-related molecules (genes, phosphosites, metabolites) across<em> C. elegans</em>, mice, and cell lines identified 32 crucial regulators of gut atrophy and barrier integrity. Notably, we found that tryptophan metabolism via the kynurenine and serotonin (5-HT) pathways was more active in the proximal and distal colon, respectively. In a mouse colitis model, reducing 5-HT production with a Tph1 inhibitor alleviated distal but not proximal colitis, while adding 5-HT aggravated distal symptoms, indicating that distal colitis is more sensitive to 5-HT fluctuations. Moreover, we identified 24 proteins, particularly HPX, that potentially link gut aging to colorectal cancer (CRC). High levels of HPX in CRC predicted poor prognosis in patients older than 50 yr but not in younger patients, suggesting that an age-linked HPX increase in the gut may contribute to CRC progression. Collectively, this work reveals the heterogeneity of large intestinal aging in non-human primates and offers promising targets for preventing gut aging and diseases.</p>