Ask about this productRelated genes to: RAB11FIP2 antibody
- Gene:
- RAB11FIP2 NIH gene
- Name:
- RAB11 family interacting protein 2
- Previous symbol:
- -
- Synonyms:
- KIAA0941, nRip11, Rab11-FIP2
- Chromosome:
- 10q26.11
- Locus Type:
- gene with protein product
- Date approved:
- 2004-07-22
- Date modifiied:
- 2016-10-05
Related products to: RAB11FIP2 antibody
Related articles to: RAB11FIP2 antibody
- Membrane trafficking through the trans-Golgi network has been shown to guide activation of the NLRP3 inflammasome. Rab11 GTPases and their effector Rab11-FIP2 regulate endosomal trafficking and retrograde transport. Here, we demonstrate that Rab11b and Rab11-FIP2 contribute to NLRP3 and pro-IL-1β stabilization during the inflammasome priming phase, which is followed by inflammasome activation. We show Rab11-FIP2 to promote TAK1 phosphorylation and TAK1-mediated activation of IKKβ, a process controlling NLRP3 translocation to the trans-Golgi network. Human NLRP3 and Rab11-FIP2 bind each other via their phosphatidylinositol-4 phosphate (PI4P)-binding domains KMKK and N-terminal C2 domain, respectively. We also provide evidence indicating that Rab11-FIP2 stabilizes NLRP3 on early endosomes, which is important for ASC speck formation. These findings provide insights into the mechanisms controlling stability and intracellular trafficking of NLRP3 in human macrophages. - Source: PubMed
Publication date: 2026/03/25
Gravastrand Caroline SYurchenko MariaKristensen StineSkjesol AstridChen CarmenUllmann SindreIqbal ZunairaDahlen Karoline RuudRasheed KashifNonstad UnniRyan LivEspevik TerjeHusebye Harald - High temperatures present considerable challenges to global fish growth and production, yet the genetic basis of heat tolerance remains underexplored. This study combines quantitative trait locus (QTL) mapping and genome-wide association studies (GWAS) to examine the genetics of heat tolerance in . As a result, a genetic linkage map was constructed with 3237 bin markers spanning 24 linkage groups and totaling 1900.84 centimorgans, using genotyping-by-sequencing of a full-sib family comprising 120 progeny and their two parents. Based on this genetic linkage map, QTL mapping identified four QTLs associated with heat tolerance, which encompassed 18 single nucleotide polymorphisms and harbored 648 genes within the QTL intervals. The GWAS further disclosed 76 candidate genes related to heat tolerance, 56 of which overlapped with the QTL results. Enrichment analysis indicated that these genes are involved in immune response, development, lipid metabolism, and endocrine regulation. qPCR validation of 14 prioritized genes, which were simultaneously enriched in Gene Ontology and Kyoto Encyclopedia of Genes and Genomes pathways, confirmed significant upregulation of , , , and , along with downregulation of and after 6 h of heat stress. These findings demonstrate their responsiveness to elevated high temperatures. This meta-analysis of QTL mapping and GWAS has successfully identified functional genes related to heat tolerance, enhancing understanding of the genetic architecture underlying this critical trait in . It also provides a molecular breeding tool to improve genetic traits associated with heat tolerance in cultured . - Source: PubMed
Publication date: 2025/02/14
Liu FengLiu HaowenZhang TianleGuo DandanZhan WeiYe TingLou Bao - Extracellular vesicles (EVs) from brain-seeking breast cancer cells (Br-EVs) breach the blood-brain barrier (BBB) via transcytosis and promote brain metastasis. Here, we defined the mechanisms by which Br-EVs modulate brain endothelial cell (BEC) dynamics to facilitate their BBB transcytosis. BEC treated with Br-EVs show significant downregulation of Rab11fip2, known to promote vesicle recycling to the plasma membrane and significant upregulation of Rab11fip3 and Rab11fip5, which support structural stability of the endosomal compartment and facilitate vesicle recycling and transcytosis, respectively. Using machine learning and quantitative global proteomic, we identified novel Br-EV-induced changes in BECs morphology, motility, and proteome that correlate with decreased BEC cytoplasm and cytoskeletal organization and dynamics. These results define early steps leading to breast-to-brain metastasis and identify molecules that could serve as targets for therapeutic strategies for brain metastasis. - Source: PubMed
Busatto SaraSong Tzu-HsiKim Hyung JoonHallinan CalebLombardo Michael NStemmer-Rachamimov Anat OLee KwonmooMoses Marsha A - Membrane trafficking is a conserved process required for the import, export, movement, and distribution of proteins and other macromolecules within cells. The Caenorhabditis elegans NIMA-related kinases NEKL-2 (human NEK8/9) and NEKL-3 (human NEK6/7) are conserved regulators of membrane trafficking and are required for the completion of molting. Using a genetic approach, we identified reduction-of-function mutations in tat-1 that suppress nekl-associated molting defects. tat-1 encodes the C. elegans ortholog of mammalian ATP8A1/2, a phosphatidylserine flippase that promotes the asymmetric distribution of phosphatidylserine on the cytosolic leaflet of lipid membrane bilayers. CHAT-1 (human CDC50), a conserved chaperone, was required for the correct localization of TAT-1, and chat-1 inhibition strongly suppressed nekl defects. Using a phosphatidylserine sensor, we found that TAT-1 was required for the normal localization of phosphatidylserine at apical endosomes and that loss of TAT-1 led to aberrant endosomal morphologies. Consistent with these data, TAT-1 localized to early endosomes and to recycling endosomes marked with RME-1, the C. elegans ortholog of the human EPS15 homology domain-containing protein, EHD1. TAT-1, phosphatidylserine biosynthesis, and the phosphatidylserine-binding protein RFIP-2 (human RAB11-FIP2) were all required for the normal localization of RME-1 to apical endosomes. Consistent with these proteins functioning together, inhibition of RFIP-2 or RME-1 led to the partial suppression of nekl molting defects, as did inhibition of phosphatidylserine biosynthesis. We propose that TAT-1 flippase activity, in conjunction with RFIP-2, promotes the recruitment of RME-1 to apical recycling endosomes and that inhibition of TAT-1-RFIP-2-RME-1 can compensate for a reduction in NEKL activities. - Source: PubMed
Milne Shae MEdeen Philip TFay David S - Membrane trafficking is a conserved process required for the movement and distribution of proteins and other macromolecules within cells. The NIMA-related kinases NEKL-2 (human NEK8/9) and NEKL-3 (human NEK6/7) are conserved regulators of membrane trafficking and are required for the completion of molting. We used a genetic approach to identify reduction-of-function mutations in that suppress -associated molting defects. encodes the ortholog of mammalian ATP8A1/2, a phosphatidylserine (PS) flippase that promotes the asymmetric distribution of PS to the cytosolic leaflet of lipid membrane bilayers. CHAT-1 (human CDC50), a conserved chaperone, was required for the correct localization of TAT-1, and inhibition strongly suppressed defects. Using a PS sensor, we found that TAT-1 was required for the normal localization of PS at apical endosomes and that loss of TAT-1 led to aberrant endosomal morphologies. Consistent with this, TAT-1 localized to early endosomes and to recycling endosomes marked with RME-1, the ortholog of the human EPS15 homology (EH) domain-containing protein, EHD1. TAT-1, PS biosynthesis, and the PS-binding protein RFIP-2 (human RAB11-FIP2) were all required for the normal localization of RME-1 to apical endosomes. Consistent with these proteins functioning together, inhibition of RFIP-2 or RME-1 led to the partial suppression of molting defects, as did the inhibition of PS biosynthesis. Using the auxin-inducible degron system, we found that depletion of NEKL-2 or NEKL-3 led to defects in RME-1 localization and that a reduction in TAT-1 function partially restored RME-1 localization in NEKL-3-depleted cells. - Source: PubMed
Publication date: 2024/09/15
Milne Shae MEdeen Philip TFay David S