RELB

Protein-coding gene in the species Homo sapiens
RELB
Available structures
PDBOrtholog search: PDBe RCSB
List of PDB id codes

1ZK9, 1ZKA, 2V2T, 3DO7, 3JSS, 3JUZ, 3JV0, 3JV4, 3JV6, 4JGM, 4JHB

Identifiers
AliasesRELB, I-REL, IREL, REL-B, RELB proto-oncogene, NF-kB subunit, IMD53
External IDsOMIM: 604758 MGI: 103289 HomoloGene: 4747 GeneCards: RELB
Gene location (Human)
Chromosome 19 (human)
Chr.Chromosome 19 (human)[1]
Chromosome 19 (human)
Genomic location for RELB
Genomic location for RELB
Band19q13.32Start45,001,449 bp[1]
End45,038,198 bp[1]
Gene location (Mouse)
Chromosome 7 (mouse)
Chr.Chromosome 7 (mouse)[2]
Chromosome 7 (mouse)
Genomic location for RELB
Genomic location for RELB
Band7 A3|7 9.93 cMStart19,340,142 bp[2]
End19,363,363 bp[2]
RNA expression pattern
Bgee
HumanMouse (ortholog)
Top expressed in
  • monocyte

  • spleen

  • blood

  • upper lobe of left lung

  • stromal cell of endometrium

  • appendix

  • lymph node

  • skin of abdomen

  • gastrocnemius muscle

  • left uterine tube
Top expressed in
  • jejunum

  • intestinal villus

  • spleen

  • duodenum

  • colon

  • left colon

  • thymus

  • ileum

  • subcutaneous adipose tissue

  • morula
More reference expression data
BioGPS
More reference expression data
Gene ontology
Molecular function
  • DNA binding
  • RNA polymerase II transcription regulatory region sequence-specific DNA binding
  • transcription corepressor activity
  • DNA-binding transcription factor activity
  • chromatin binding
  • protein binding
  • protein kinase binding
  • identical protein binding
  • DNA-binding transcription factor activity, RNA polymerase II-specific
  • RNA polymerase II cis-regulatory region sequence-specific DNA binding
Cellular component
  • I-kappaB/NF-kappaB complex
  • nucleoplasm
  • microtubule organizing center
  • cytoskeleton
  • nucleus
  • cytoplasm
  • cytosol
  • centrosome
  • protein-containing complex
  • transcription repressor complex
Biological process
  • response to cytokine
  • antigen processing and presentation
  • regulation of transcription, DNA-templated
  • rhythmic process
  • regulation of transcription by RNA polymerase II
  • myeloid dendritic cell differentiation
  • stimulatory C-type lectin receptor signaling pathway
  • negative regulation of transcription by RNA polymerase II
  • T-helper 1 cell differentiation
  • negative regulation of interferon-beta production
  • circadian regulation of gene expression
  • transcription, DNA-templated
  • cellular response to osmotic stress
  • positive regulation of gene expression
  • NIK/NF-kappaB signaling
  • T-helper 1 type immune response
  • inflammatory response
  • negative regulation of transcription, DNA-templated
  • I-kappaB kinase/NF-kappaB signaling
  • positive regulation of transcription by RNA polymerase II
  • innate immune response
  • lymphocyte differentiation
Sources:Amigo / QuickGO
Orthologs
SpeciesHumanMouse
Entrez

5971

19698

Ensembl

ENSG00000104856

ENSMUSG00000002983

UniProt

Q01201

Q04863

RefSeq (mRNA)

NM_006509

NM_001290457
NM_009046

RefSeq (protein)

NP_006500

NP_001277386
NP_033072

Location (UCSC)Chr 19: 45 – 45.04 MbChr 7: 19.34 – 19.36 Mb
PubMed search[3][4]
Wikidata
View/Edit HumanView/Edit Mouse

Transcription factor RelB is a protein that in humans is encoded by the RELB gene.[5]

Interactions

RELB has been shown to interact with NFKB2,[6][7] NFKB1,[6] and C22orf25.[8]

Activation and function

In resting cells, RelB is sequestered by the NF-κB precursor protein p100 in the cytoplasm. A select set of TNF-R superfamily members, including lymphotoxin β-receptor (LTβR), BAFF-R, CD40 and RANK, activate the non-canonical NF-κB pathway. In this pathway, NIK stimulates the processing of p100 into p52, which in association with RelB appears in the nucleus as RelB:p52 NF-κB heterodimers. RelB:p52 activates the expression homeostatic lymphokines,[9] which instruct lymphoid organogenesis and determine the trafficking of naive lymphocytes in the secondary lymphoid organs.

Recent studies has suggested that the functional non-canonical NF-κB pathway is modulated by canonical NF-κB signalling. For example, syntheses of the constituents of the non-canonical pathway, viz RelB and p52, are controlled by canonical IKK2-IκB-RelA:p50 signalling.[10] Moreover, generation of canonical and non-canonical dimers, viz RelA:p50 and RelB:p52, within the cellular milieu are mechanistically interlinked. These analyses suggest that an integrated NF-κB system network underlies activation of both RelA and RelB containing dimer and that a malfunctioning canonical pathway will lead to an aberrant cellular response also through the non-canonical pathway.

Most intriguingly, a recent study identified that TNF-induced canonical signalling subverts non-canonical RelB:p52 activity in the inflamed lymphoid tissues limiting lymphocyte ingress.[11] Mechanistically, TNF inactivated NIK in LTβR‐stimulated cells and induced the synthesis of Nfkb2 mRNA encoding p100; these together potently accumulated unprocessed p100, which attenuated the RelB activity. A role of p100/Nfkb2 in dictating lymphocyte ingress in the inflamed lymphoid tissue may have broad physiological implications.

See also

References

  1. ^ a b c GRCh38: Ensembl release 89: ENSG00000104856 – Ensembl, May 2017
  2. ^ a b c GRCm38: Ensembl release 89: ENSMUSG00000002983 – Ensembl, May 2017
  3. ^ "Human PubMed Reference:". National Center for Biotechnology Information, U.S. National Library of Medicine.
  4. ^ "Mouse PubMed Reference:". National Center for Biotechnology Information, U.S. National Library of Medicine.
  5. ^ Bours V, Burd PR, Brown K, Villalobos J, Park S, Ryseck RP, et al. (February 1992). "A novel mitogen-inducible gene product related to p50/p105-NF-kappa B participates in transactivation through a kappa B site". Molecular and Cellular Biology. 12 (2): 685–95. doi:10.1128/MCB.12.2.685. PMC 364259. PMID 1531086.
  6. ^ a b Bouwmeester T, Bauch A, Ruffner H, Angrand PO, Bergamini G, Croughton K, et al. (February 2004). "A physical and functional map of the human TNF-alpha/NF-kappa B signal transduction pathway". Nature Cell Biology. 6 (2): 97–105. doi:10.1038/ncb1086. PMID 14743216. S2CID 11683986.
  7. ^ Thornburg NJ, Pathmanathan R, Raab-Traub N (December 2003). "Activation of nuclear factor-kappaB p50 homodimer/Bcl-3 complexes in nasopharyngeal carcinoma". Cancer Research. 63 (23): 8293–301. PMID 14678988.
  8. ^ "Molecular Interaction Database". Archived from the original on 2006-05-06.
  9. ^ Bonizzi G, Bebien M, Otero DC, Johnson-Vroom KE, Cao Y, Vu D, et al. (October 2004). "Activation of IKKalpha target genes depends on recognition of specific kappaB binding sites by RelB:p52 dimers". The EMBO Journal. 23 (21): 4202–10. doi:10.1038/sj.emboj.7600391. PMC 524385. PMID 15470505.
  10. ^ Basak S, Shih VF, Hoffmann A (May 2008). "Generation and activation of multiple dimeric transcription factors within the NF-kappaB signaling system". Molecular and Cellular Biology. 28 (10): 3139–50. doi:10.1128/MCB.01469-07. PMC 2423155. PMID 18299388.
  11. ^ Mukherjee T, Chatterjee B, Dhar A, Bais SS, Chawla M, Roy P, et al. (December 2017). "A TNF-p100 pathway subverts noncanonical NF-κB signaling in inflamed secondary lymphoid organs". The EMBO Journal. 36 (23): 3501–3516. doi:10.15252/embj.201796919. PMC 5709727. PMID 29061763.

Further reading

  • Taylor JP, Pomerantz R, Bagasra O, Chowdhury M, Rappaport J, Khalili K, Amini S (September 1992). "TAR-independent transactivation by Tat in cells derived from the CNS: a novel mechanism of HIV-1 gene regulation". The EMBO Journal. 11 (9): 3395–403. doi:10.1002/j.1460-2075.1992.tb05418.x. PMC 556874. PMID 1505523.
  • Ruben SM, Klement JF, Coleman TA, Maher M, Chen CH, Rosen CA (May 1992). "I-Rel: a novel rel-related protein that inhibits NF-kappa B transcriptional activity". Genes & Development. 6 (5): 745–60. doi:10.1101/gad.6.5.745. PMID 1577270.
  • Liu J, Perkins ND, Schmid RM, Nabel GJ (June 1992). "Specific NF-kappa B subunits act in concert with Tat to stimulate human immunodeficiency virus type 1 transcription". Journal of Virology. 66 (6): 3883–7. doi:10.1128/JVI.66.6.3883-3887.1992. PMC 241175. PMID 1583734.
  • Biswas DK, Salas TR, Wang F, Ahlers CM, Dezube BJ, Pardee AB (December 1995). "A Tat-induced auto-up-regulatory loop for superactivation of the human immunodeficiency virus type 1 promoter". Journal of Virology. 69 (12): 7437–44. doi:10.1128/JVI.69.12.7437-7444.1995. PMC 189681. PMID 7494249.
  • Jeang KT, Chun R, Lin NH, Gatignol A, Glabe CG, Fan H (October 1993). "In vitro and in vivo binding of human immunodeficiency virus type 1 Tat protein and Sp1 transcription factor". Journal of Virology. 67 (10): 6224–33. doi:10.1128/JVI.67.10.6224-6233.1993. PMC 238044. PMID 7690421.
  • Alcamí J, Laín de Lera T, Folgueira L, Pedraza MA, Jacqué JM, Bachelerie F, et al. (April 1995). "Absolute dependence on kappa B responsive elements for initiation and Tat-mediated amplification of HIV transcription in blood CD4 T lymphocytes". The EMBO Journal. 14 (7): 1552–60. doi:10.1002/j.1460-2075.1995.tb07141.x. PMC 398242. PMID 7729429.
  • Majello B, De Luca P, Hagen G, Suske G, Lania L (November 1994). "Different members of the Sp1 multigene family exert opposite transcriptional regulation of the long terminal repeat of HIV-1". Nucleic Acids Research. 22 (23): 4914–21. doi:10.1093/nar/22.23.4914. PMC 523756. PMID 7800480.
  • Taylor JP, Pomerantz RJ, Oakes JW, Khalili K, Amini S (January 1995). "A CNS-enriched factor that binds to NF-kappa B and is required for interaction with HIV-1 tat". Oncogene. 10 (2): 395–400. PMID 7838536.
  • Westendorp MO, Shatrov VA, Schulze-Osthoff K, Frank R, Kraft M, Los M, et al. (February 1995). "HIV-1 Tat potentiates TNF-induced NF-kappa B activation and cytotoxicity by altering the cellular redox state". The EMBO Journal. 14 (3): 546–54. doi:10.1002/j.1460-2075.1995.tb07030.x. PMC 398112. PMID 7859743.
  • Scala G, Ruocco MR, Ambrosino C, Mallardo M, Giordano V, Baldassarre F, et al. (March 1994). "The expression of the interleukin 6 gene is induced by the human immunodeficiency virus 1 TAT protein". The Journal of Experimental Medicine. 179 (3): 961–71. doi:10.1084/jem.179.3.961. PMC 2191426. PMID 8113688.
  • Bours V, Azarenko V, Dejardin E, Siebenlist U (June 1994). "Human RelB (I-Rel) functions as a kappa B site-dependent transactivating member of the family of Rel-related proteins". Oncogene. 9 (6): 1699–702. PMID 8183565.
  • Deloukas P, Dauwerse JG, van Ommen GJ, van Loon AP (February 1994). "The human NFKB3 gene encoding the p65 subunit of transcription factor NF-kappa B is located on chromosome 11q12". Genomics. 19 (3): 592–4. doi:10.1006/geno.1994.1115. PMID 8188306.
  • Westendorp MO, Li-Weber M, Frank RW, Krammer PH (July 1994). "Human immunodeficiency virus type 1 Tat upregulates interleukin-2 secretion in activated T cells". Journal of Virology. 68 (7): 4177–85. doi:10.1128/JVI.68.7.4177-4185.1994. PMC 236340. PMID 8207793.
  • Dobrzanski P, Ryseck RP, Bravo R (March 1993). "Both N- and C-terminal domains of RelB are required for full transactivation: role of the N-terminal leucine zipper-like motif". Molecular and Cellular Biology. 13 (3): 1572–82. doi:10.1128/MCB.13.3.1572. PMC 359469. PMID 8441398.
  • Harhaj E, Blaney J, Millhouse S, Sun SC (February 1996). "Differential effects of I kappa B molecules on Tat-mediated transactivation of HIV-1 LTR". Virology. 216 (1): 284–7. doi:10.1006/viro.1996.0062. PMID 8615004.
  • Conant K, Ma M, Nath A, Major EO (March 1996). "Extracellular human immunodeficiency virus type 1 Tat protein is associated with an increase in both NF-kappa B binding and protein kinase C activity in primary human astrocytes". Journal of Virology. 70 (3): 1384–9. doi:10.1128/JVI.70.3.1384-1389.1996. PMC 189957. PMID 8627654.
  • Demarchi F, d'Adda di Fagagna F, Falaschi A, Giacca M (July 1996). "Activation of transcription factor NF-kappaB by the Tat protein of human immunodeficiency virus type 1". Journal of Virology. 70 (7): 4427–37. doi:10.1128/JVI.70.7.4427-4437.1996. PMC 190376. PMID 8676466.
  • Beauparlant P, Kwon H, Clarke M, Lin R, Sonenberg N, Wainberg M, Hiscott J (September 1996). "Transdominant mutants of I kappa B alpha block Tat-tumor necrosis factor synergistic activation of human immunodeficiency virus type 1 gene expression and virus multiplication". Journal of Virology. 70 (9): 5777–85. doi:10.1128/JVI.70.9.5777-5785.1996. PMC 190591. PMID 8709193.
  • Ramazzotti E, Vignoli M, Re MC, Furlini G, La Placa M (May 1996). "Enhanced nuclear factor-kappa B activation induced by tumour necrosis factor-alpha in stably tat-transfected cells is associated with the presence of cell-surface-bound Tat protein". AIDS. 10 (5): 455–61. doi:10.1097/00002030-199605000-00002. PMID 8724035. S2CID 84476590.
  • v
  • t
  • e
  • 1zk9: NF-kB RelB forms an intertwined homodimer
    1zk9: NF-kB RelB forms an intertwined homodimer
  • 1zka: NF-kB RelB forms an intertwined homodimer, Y300S mutant
    1zka: NF-kB RelB forms an intertwined homodimer, Y300S mutant
  • v
  • t
  • e
(1) Basic domains
(1.1) Basic leucine zipper (bZIP)
(1.2) Basic helix-loop-helix (bHLH)
Group A
Group B
Group C
bHLH-PAS
Group D
Group E
Group F
bHLH-COE
(1.3) bHLH-ZIP
(1.4) NF-1
(1.5) RF-X
(1.6) Basic helix-span-helix (bHSH)
(2) Zinc finger DNA-binding domains
(2.1) Nuclear receptor (Cys4)
subfamily 1
subfamily 2
subfamily 3
subfamily 4
subfamily 5
subfamily 6
subfamily 0
(2.2) Other Cys4
(2.3) Cys2His2
(2.4) Cys6
(2.5) Alternating composition
(2.6) WRKY
(3) Helix-turn-helix domains
(3.1) Homeodomain
Antennapedia
ANTP class
protoHOX
Hox-like
metaHOX
NK-like
other
(3.2) Paired box
(3.3) Fork head / winged helix
(3.4) Heat shock factors
(3.5) Tryptophan clusters
(3.6) TEA domain
  • transcriptional enhancer factor
(4) β-Scaffold factors with minor groove contacts
(4.1) Rel homology region
(4.2) STAT
(4.3) p53-like
(4.4) MADS box
(4.6) TATA-binding proteins
(4.7) High-mobility group
(4.9) Grainyhead
(4.10) Cold-shock domain
(4.11) Runt
(0) Other transcription factors
(0.2) HMGI(Y)
(0.3) Pocket domain
(0.5) AP-2/EREBP-related factors
(0.6) Miscellaneous
see also transcription factor/coregulator deficiencies
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