Project description:Prevalence and severity of allergic diseases have increased worldwide. To date, respiratory allergy phenotypes are not fully characterized and, along with inflammation progression, treatment is increasingly complex and expensive. Profilin sensitization constitutes a good model to study the progression of allergic inflammation. We have used microarrays to understand the underlying mechanisms of severe profilin-mediated reactions using a model that includes patients with different levels of sensitization to profilin (non-allergic, mild, moderate and severe)

Project description:This study investigated the ability of two novel adjuvant formulations, QCDC (Quil A/cholesterol/DDA/Carbopol) and QCDCR (QCDC/Bay R1005), in combination with a recombinant profilin vaccine, to modulate host protective immunity and to alter new gene expression during experimental avian coccidiosis. Four-condition experiment, Profilin only vs. Non-vaccination, Profilin only vs. Co-vaccination of QCDC plus profilin, Profilin only vs. Co-vaccination of QCDCR plus profilin, Biological replicates: 2 profilin only replicates, 2 Non-vaccination replicates, 2 QCDC plus profilin replicates, 2 QCDCR plus profilin replicates with dye-switching.

Project description:In our study, we found that profilin 1 (PFN1) promoted non-small cell lung cancer (NSCLC) metastasis.For further investigate the mechanisms of PFN1's roles in NSCLC metastasis, we constructed PFN1 overxpression H1299 cell lines(H1299 PFN1 OE cells). And we sent samples of H1299 PFN1 OE cells and EV cells for TMT based quantative proteome profiling.

Project description:Here, we developed a Ψ RNA immunoprecipitation sequencing method (Ψ-RIP-seq) combined with direct RNA sequencing by Oxford Nanopore Technologies to detect mRNA Ψ transcriptome-wide. We identified a large number of novel Ψs in mRNA, revealing a conserved enrichment of Ψ in mRNA 3′ UTR. We further showed that a genome-wide association of Ψ with mRNA polyadenylation, and uncovered that cleavage factor complex I (CFI) regulated Ψ generation in mRNA 3′ UTR. We finally demonstrated that Ψ in mRNA 3′ UTR promoted mRNA stability in a CFI-dependent manner.

Project description:Aberrant expression of nuclear transporters and altered subcellular localization of their cargo proteins are increasingly recognized as drivers and therapeutic targets of cancer. Here, we report that exportin-6, a nuclear exporter specific for actin/profilin-1, is upregulated in a broad range of cancers and associated with poor prognosis. Exportin-6 loss triggers antitumor effects in breast cancer cells in a profilin-1-dependent fashion. Nuclear profilin-1 interacts with the Super Elongation Complex (SEC), a positive transcriptional regulator of pro-cancer genes including MYC. Exportin-6 loss, by increasing nuclear profilin-1, inhibits SEC-dependent transcription and sensitizes breast cancer cells to inhibition of BET domain proteins. Thus, exportin-6 upregulation is a previously unrecognized cancer addiction that reduces the transcriptional inhibitory and anticancer activities of nuclear profilin-1.

Project description:Microglia play a pivotal role in neurodegenerative disease pathogenesis, but the mechanisms underlying microglia dysfunction and toxicity remain to be elucidated. To investigate the effect of neurodegenerative disease-linked genes on the intrinsic properties of microglia, we studied microglia-like cells derived from human induced pluripotent stem cells (iPSCs), termed iMGs, harboring mutations in profilin-1 (PFN1) that are causative for amyotrophic lateral sclerosis (ALS). ALS-PFN1 iMGs exhibited elevated lipid droplets, upregulation of autophagic factors and deficient phagocytosis, a canonical microglia function. Mutant PFN1 also displayed enhanced binding affinity for PI3P, a critical signaling molecule involved in autophagic and endocytic processing. Our cumulative data implicate a gain-of-toxic function for mutant PFN1 within the autophagic and endo-lysosomal pathways, as administration of rapamycin rescued phagocytic dysfunction in ALS-PFN1 iMGs. These outcomes demonstrate the utility of iMGs for neurodegenerative disease research and implicate microglial vesicular degradation pathways in the pathogenesis of these disorders.

Project description:For identifying potential ligands of Leishmania profilin (LdPfn) protein, full length profilin was cloned and expressed with GST tag. Only GST tag protein was used as a negative control. Employing pull down assay and with the help of LC-MS, the potential binding partners of profilin protein in Leishmania promastigotes were detected.

Project description:Dominant mutations in profilin-1 (PFN1) are associated with amyotrophic lateral sclerosis (ALS), a fatal neurodegenerative disease characterized by motor neuron loss, paralysis, and death from respiratory failure. Our lab recently demonstrated that PFN1 mutant proteins are destabilized—they unfold at milder conditions during thermal and chemical denaturation. Furthermore, we and others have shown that mutant PFN1 is more prone to misfold and aggregate. This misfolding alters the protein-protein interactions of PFN1, as demonstrated by an immunoprecipitation-mass spectrometry (IP-MS) screen of wild-type and ALS-associated PFN1 variants. While ALS-associated mutants do not show loss of interaction, several variants have altered interactions with one or several formin family proteins, a group of proteins that interact with profilins to regulate actin polymerization.

Project description:N6-methyladenosine (m6A) is the most abundant internal messenger (mRNA) modification in mammalian mRNA. This modification is reversible and non-stoichiometric, which potentially adds an additional layer of variety and dynamic control of mRNA metabolism. The m6A-modified mRNA can be selectively recognized by the YTH family “reader” proteins. The preferential binding of m6A-containing mRNA by YTHDF2 is known to reduce the stability of the target transcripts; however, the exact effects of m6A on translation has yet to be elucidated. Here we show that another m6A reader protein, YTHDF1, promotes ribosome loading of its target transcripts. YTHDF1 forms a complex with translation initiation factors to elevate the translation efficiency of its bound mRNA. In a unified mechanism of translation control through m6A, the YTHDF2-mediated decay controls the lifetime of target transcripts; whereas, the YTHDF1-based translation promotion increases the translation efficiency to ensure effective protein production from relatively short-lived transcripts that are marked by m6A. PAR-CLIP and RIP was used to identify YTHDF1 binding sites followed by ribosome profling and RNA seq to assess the consequences of YTHDF1 siRNA knock-down

Project description:Transcriptome analysis via high-throughput sequencing (RNA-Seq) captures significant changes in gene expression. The purpose of this study is to elucidate the transcriptomic changes in profilin deficient Leishmania promastigotes (LdPfn+/-) as compared to wild type control (LdPfn+/+). This research will enable us to gain insight into the role of profilin in Leishmania cells. The data has been validated by qRT-PCR. Data analysis results are further supported by flow cytometry, immunofluorescence experiments and by western blot demonstrating a depletion in the protein expression of a eukaryotic translation initiation factor in the cells with depleted levels of profilin protein. Methods: Total RNA from three independent biological replicates from each of wild-type (LdPfn+/+) and profilin knockout (LdPfn+/-) Leishmania promastigotes was extracted and after library preparation, RNA sequencing was carried out on Illumina HiSeq 2500. The sequence reads that passed quality filters were aligned to the Leishmania donovani (BPK282A1) genomic data obtained from TriTrypDB version 51 using Bowtie2 (-x option). All analyses were carried out using the Tophat pipeline with the following versions: Tophat v2.1.1, Bowtie2 v2.3.5.1. The HTSeq version 0.12.4 (htseq-count -f option) was used to count the number of reads aligned to protein-coding genes. DeSeq tool was used for differential gene expression analysis between samples in protein-coding genes. qRT-PCR validation was performed using SYBR Green assay. Results: RNA-Seq datasets generated in this study with each sample control (LdPfn+/+) and profilin knockout (LdPfn+/-) have at least 30 million read pairs. RNA-seq data were aligned to the L.donovani genome (Leishmania donovani BPK282A1, NCBI taxon ID: 981087) and 8135 transcripts were identified in our data set. Data analysis revealed that a total of 254 genes were differentially expressed (DE) having a p-value <0.05. The data obtained from RNA-Seq have been validated by real-time PCR of 18 genes, 8 UP regulated and 10 down-regulated. Results of qRT-PCR analysis showed a strong correlation with the RNA-seq data. Inferences drawn from transcriptomic analysis were further validated by flow cytometry, immunofluorescence experiments and western blotting, revealing a critical role during the early phases of Leishmania cell division. Conclusions: Present study represents a comprehensive report elucidating the transcriptomic changes in profilin deficient Leishmania promastigotes (LdPfn+/-) as compared to wild type (LdPfn+/+). This RNA-Seq data along with validation by qPCR, flow cytometry experiments, and immunofluorescent microscopy experiments indicate that profilin might play a critical role during the early phases of Leishmania cell division.