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RHOBTB1 (Rho-related BTB domain containing 1)

Written2016-02Kristina Schenková, Shuo Cai, Francisco Rivero
Centre for Cardiovascular and Metabolic Research, The Hull York Medical School, University of Hull, Cottingham Road, Hull HU6 7RX, UK;,,
This article is an update of :
2008-12Kristina Schenková, Francisco Rivero
Centre for Biomedical Research, The Hull York Medical School, University of Hull, Cottingham Road, Hull HU6 7RX, UK

Abstract RhoBTB1 is one of the three members of the RhoBTB family. All RhoBTB proteins are characterized by a GTPase domain followed by a proline-rich region, a tandem of two BTB domains and a C-terminal putative RING finger domain. RHOBTB1 is a putative tumour suppressor gene. Expression of RHOBTB1 has been found decreased in diverse tumors including kidney, breast, stomach and colon cancers and head and neck squamous cell carcinomas. RhoBTB1 is a component of Cullin 3-dependent ubiquitin ligase complexes but its role in tumorigenesis is unknown.

Keywords tumor suppressor, ubiquitin ligase, cullin 3

(Note : for Links provided by Atlas : click)


Alias (NCBI)KIAA0740
HGNC Alias symbKIAA0740
HGNC Previous nameRho-related BTB domain containing 1
LocusID (NCBI) 9886
Atlas_Id 42981
Location 10q21.2  [Link to chromosome band 10q21]
Location_base_pair Starts at 60869440 and ends at 60944185 bp from pter ( according to GRCh38/hg38-Dec_2013)  [Mapping RHOBTB1.png]
Fusion genes
(updated 2017)
Data from Atlas, Mitelman, Cosmic Fusion, Fusion Cancer, TCGA fusion databases with official HUGO symbols (see references in chromosomal bands)
ANK3 (10q21.2)::RHOBTB1 (10q21.2)RHOBTB1 (10q21.2)::ATP6V1C2 (2p25.1)RHOBTB1 (10q21.2)::TFAP2A (6p24.3)
RHOBTB1 (10q21.2)::ZRANB3 (2q21.3)


  Gene structure of RHOBTB1. Boxes represent exons. The coding region is represented in blue. For simplicity very large introns in the 5'UTR have been shortened (indicated by discontinuous lines)
Description The RHOBTB1 gene spans over 132 Kbp genomic DNA and consists of 14 exons, 9 coding exons and 5 more exons in the 5'UTR (Figure 1). The coding sequence of RHOBTB1 is 2091 nucleotides long (Ramos et al., 2002). The promoter region has a high GC content with numerous CpG islands. The RHOBTB1 locus has binding sites for retinoid X receptor and PPARA (peroxisome proliferator-activated receptor- α, as demonstrated by chromatin immunoprecipitation (Pelham et al., 2012).
Transcription Based on EST sequence analyses there are transcription variants that arise from the use of alternative promoters and alternative splicing, but none of the transcripts affects the coding region.


Note RhoBTB1 is one of the three members of the RhoBTB family in vertebrates. The RhoBTB family was identified during the study of the genes encoding Rho-related proteins in the lower eukaryote Dictyostelium discoideum (Rivero et al., 2002). All three RhoBTB proteins may be implicated in tumorigenesis.
  Architecture of RhoBTB proteins. The figure shows the three human (Hs) RhoBTB subfamily members as well as the Drosophila (Dm) and Dictyostelium (Dd) orthologues. The simplified phylogenetic tree on the left illustrates the relationship among the proteins (overall percentage similarity between branches). The different domains are indicated with colours.
Description RhoBTB1 is 696 amino acids long. All RhoBTB proteins share the same domain architecture: a GTPase domain is followed by a proline-rich region, a tandem of two BTB domains and a C-terminal region (Figure 2). The GTPase domain is Rho-related and contains a Rho insert that is longer than usual, two insertions and one deletion, as well as a few deviations from the GTPase consensus of most Rho GTPases. In analogy to RhoBTB2, the GTPase domain of RhoBTB1 is likely to bind GTP (Manjarrez et al., 2014).
The proline-rich region links the GTPase to the first BTB domain. This region could act as a SH3 domain-binding site.
The BTB domain (broad complex, tramtract and bric-a-brac) is an evolutionary conserved protein-protein interaction domain that participates in homomeric and heteromeric associations with other BTB domains. The BTB domain was also identified as a component of multimeric cullin3-dependent ubiquitin ligase complexes. The first BTB domain is bipartite, being interrupted by an insertion of unknown function. The BTB domains of RhoBTB allow the formation of homodimers and of heterodimers with other proteins of the RhoBTB family (Berthold et al., 2008).
The C-terminus is a region conserved in all members of the RhoBTB subfamily. It predictably folds as 4 consecutive alpha-helices and one beta-strand and may constitute a RING finger domain (Manjarrez et al., 2014). Many RING finger domains function as ubiquitin ligases. RhoBTB1 does not bear a CAAX motif that is typical for classical Rho GTPases and serves for localization of the protein to membranes.
Expression RHOBTB1 is ubiquitously expressed, with high levels detected in skeletal muscle, placenta, stomach, kidney, testis, ovary, uterus and adrenal gland. The gene is also expressed in foetal tissues (Ramos et al., 2002; Nagase et al., 1998).
Expression of RHOBTB1 has been found decreased in kidney, breast and stomach tumors in a cancer profiling array (Berthold et al., 2008), in 37% of 46 head and neck squamous cell carcinomas (Beder et al., 2006) and in colon cancer tissues (Xu et al., 2013).
RHOBTB1 is a target of the microRNA MIR31- (Alder et al., 2012; Xu et al., 2013).
Localisation The localisation of endogenous RhoBTB1 has not been investigated. In cells expressing RhoBTB1 ectopically the protein tends to form aggregates in the cytoplasm (Aspenström et al., 2004).
Function RHOBTB1 has been proposed as a candidate tumour suppressor gene (Beder et al., 2006). The mechanisms by which RhoBTB proteins in general exert this and other roles remain speculative. Much of what we know about RhoBTB2 may be made extensive to RhoBTB1 because of their similarity.
RhoBTB1 binds to cullin3 and by analogy to RhoBTB2 and RhoBTB3 may constitute ubiquitin ligase complexes. RhoBTB proteins appear to exist in an inactive state through an intramolecular interaction of the BTB domain region with the GTPase domain (Berthold et al., 2008). This model has been refined recently for RhoBTB2 to show that the HSP90AA1 (Hsp90) chaperone machinery unlocks RhoBTB, enabling GTP binding and interaction with Cullin 3 and the COPS8 (COP9) signalosome. COP9 deneddylates Cullin 3 and stabilizes the complex (Manjarrez et al. 2014). Considering the high degree of similarity between RhoBTB2 and RhoBTB1, this mechanism is very likely to apply to RhoBTB1 too.
RHOBTB1 has been identified as a target gene of the nuclear hormone receptor PPARG. RhoBTB1 mRNA and protein levels are decreased in the aorta of mice expressing a dominant negative PPARG. These mice also present a concomitant decrease in Cullin 3, and it has been proposed that RhoBTB1 regulates Cullin 3 levels or activity, which in turn regulates RHOA. turnover in smooth muscle. RhoBTB1 emerges as a component of a signaling mechanism that regulates vascular function and blood pressure (Pelham et al., 2012).
RhoBTB1, like RhoBTB2, is required for expression of the chemokine CXCL14 in keratinocytes independently of Cullin3-mediated protein degradation (McKinnon et al., 2008).
RhoBTB1 displays only a moderate influence on the morphology and actin organisation of porcine aortic endothelial cells upon ectopic expression. It does not interact with the GTPase-binding domain of WASP, PAK1 or RTKN (Rhotekin), which are well-known effectors of many typical Rho GTPases (Aspenstrom et al., 2004).
RhoBTB1, like RhoBTB2 and RhoBTB3, interacts with LLRC41 (leucine rich repeat containing 41, MUF1). MUF-1 is a nuclear protein and carries a BC-box that functions as a linker in multicomponent Cullin 5-dependent ubiquitin ligase complexes (Schenková et al., 2012). MUF1 may be a substrate for RhoBTB-Cullin 3 ubiquitin ligase complexes. The function of MUF1 is unknown, but it is suspected to be involved in the DNA damage response
Homology There are three RhoBTB proteins in vertebrates: RhoBTB1, RhoBTB2 and RhoBTB3 (Figure 2). RhoBTB1 is very similar to RhoBTB2, while RhoBTB3 displays very low similarity to these. Orthologues have been found in amoebae and in insects but they are absent in plants and fungi.


Note No pathogenic mutations have been identified to date.

Implicated in

Entity Head and neck squamous cell carcinoma
Note RHOBTB1 resides in a hotspot region with high frequency of allelic loss in HNSCCs. Loss of heterozygosity at the RHOBTB1 locus was identified in 12 of 52 tumour samples. RHOBTB1 showed decreased expression levels in 37% of 46 tumour samples and all informative low-expression samples displayed loss of heterozygosity. Three silent nucleotide changes were found in a mutation analysis (Beder et al., 2006).
Oncogenesis RhoBTB1, along with RhoBTB2, seems to be required for expression of the chemokine CXCL14 (McKinnon et al., 2008). CXCL14 controls leukocyte migration and angiogenesis and its expression is frequently lost in diverse epithelial tumours, including most HNSCCs.
Entity Colon cancer
Note RhoBTB1 levels were found decreased in colon cancer specimens using immunohistochemistry and Western blot. RHOBTB1 was identified as a target of miR-31 using bioinformatics tools, and the effect of miR-31 was verified experimentally. Downregulation of RHOBTB1 is responsible for the tumor promoting effects of miR-31. Silencing of RHOBTB1 in the colon cancer cell line HT29 increases cell proliferation and promotes cell clonal growth, mimicking the effects of increased miR-31 expression (Xu et al., 2013).
Entity Esophageal cancer
Note Overexpression of miR-31 in esophagus caused by zinc deficiency was found associated to down-regulation of RHOBTB1, which was identified as a target gene of miR-31. Zinc deficiency is a risk factor for the development of esophageal squamous cell carcinoma (Alder et al., 2012).
Entity Various cancers including breast, kidney and stomach
Note Expression of RHOBTB1 was found moderately but significantly decreased in kidney, breast and stomach tumour samples in a cancer profiling array. The decrease affected to 80% of kidney and to 58% of breast cancer samples. The expression changes correlated with those of CUL3 in the same samples (Berthold et al., 2008)


Dysregulation of miR-31 and miR-21 induced by zinc deficiency promotes esophageal cancer.
Alder H, Taccioli C, Chen H, Jiang Y, Smalley K, Fadda P, Ozer HG, Huebner K, Farber JL, Croce CM, Fong LYY.
Carcinogenesis 2012; 33: 1736-1744.
PMID 22689922
Rho GTPases have diverse effects on the organization of the actin filament system.
Aspenströ P, Fransson A, Saras J.
Biochem J 2004? 377: 327-337.
PMID 14521508
Identification of a candidate tumor supressor gene RHOBTB1 located at a novel allelic loss region 10q21 in head and neck cancer.
Beder LB, Gunduz M, Ouchida M, Gunduz E, Sakai A, Fukushima K, Nagatsuka H, Ito S, Honjo N, Nishizaki K, Shimizu K.
J Cancer Res Clin Oncol 2006? 132: 19-27.
PMID 16170569
Rho GTPases of the RhoBTB subfamily and tumorigenesis.
Berthold J, Schenková K, Rivero F.
Acta Pharmacol Sin 2008; 29: 285-295. (Review)
PMID 18298893
Hsp90-dependent assembly of the DBC2/RhoBTB2-Cullin3 E3-ligase complex.
Manjarrez JR, Sun L, Prince T, Matts RL.
PLoS One 2014; 9: e90054
PMID 24608665
The atypical Rho GTPase RhoBTB2 is required for expression of the chemokine CXCL14 in normal and cancerous epithelial cells.
McKinnon CM, Lygoe KA, Skelton L, Mitter R, Mellor H.
Oncogene 2008; 27: 6856-6865.
PMID 18762809
Prediction of the coding sequences of unidentified human genes. XI. The complete sequences of 100 new cDNA clones from brain which code for large proteins in vitro.
Nagase T, Ishikawa K, Suyama M, Kikuno R, Miyajima N, Tanaka A, Kotani H, Nomura N, Ohara O.
DNA Res 1999; 5: 277-286.
PMID 9872452
Cullin-3 regulates vascular smooth muscle function and arterial blood pressure via PPAR? and RhoA/Rho-kinase.
Pelham CJ, Ketsawatsomkron P, Groh S, Grobe JL, de Lange WJ, Ibeawuchi S-RC, Keen HL, Weatherford ET, Faraci FM, Sigmund CD.
Cell Metab 2012; 16: 462-472.
PMID 23040068
Genomic organization and expression profile of the small GTPases of the RhoBTB family in human and mouse.
Ramos S, Khademi F, Somesh BP, Rivero F.
Gene 2002? 298: 147-157.
PMID 12426103
The Dictyostelium discoideum family of Rho-related proteins.
Rivero F, Dislich H, Glöckner G, Noegel AA.
Nucleic Acids Res 2001; 29: 1068-1079.
PMID 11222756
MUF1/Leucine-rich repeat containing 41 (LRRC41), a substrate of RhoBTB-dependent Cullin 3 ubiquitin ligase complexes, is a predominantly nuclear dimeric protein.
Schenková K, Lutz J, Kopp M, Ramos S, Rivero F.
J Mol Biol 2012; 422: 659 - 673.
PMID 22709582
The tumor suppressor gene RhoBTB1 is a novel target of miR-31 in human colon cancer.
Xu RS, Wu XD, Zhang SQ, Li CF, Yang L, Li DD, Zhang BG, Zhang Y, Jin JP, Zhang B.
Int J Oncol 2013; 42: 676-682.
PMID 23258531


This paper should be referenced as such :
Kristina Schenkova, Shuo Cai, Francisco Rivero
RHOBTB1 (Rho-related BTB domain containing 1)
Atlas Genet Cytogenet Oncol Haematol. 2016;20(10):512-515.
Free journal version : [ pdf ]   [ DOI ]
History of this paper:
Schenkova, K ; Rivero, F. RHOBTB1 (Rho-related BTB domain containing 1). Atlas Genet Cytogenet Oncol Haematol. 2009;13(11):865-867.

External links


HGNC (Hugo)RHOBTB1   18738
Entrez_Gene (NCBI)RHOBTB1    Rho related BTB domain containing 1
GeneCards (Weizmann)RHOBTB1
Ensembl hg19 (Hinxton)ENSG00000072422 [Gene_View]
Ensembl hg38 (Hinxton)ENSG00000072422 [Gene_View]  ENSG00000072422 [Sequence]  chr10:60869440-60944185 [Contig_View]  RHOBTB1 [Vega]
ICGC DataPortalENSG00000072422
Genatlas (Paris)RHOBTB1
Genetics Home Reference (NIH)RHOBTB1
Genomic and cartography
GoldenPath hg38 (UCSC)RHOBTB1  -     chr10:60869440-60944185 -  10q21.2   [Description]    (hg38-Dec_2013)
GoldenPath hg19 (UCSC)RHOBTB1  -     10q21.2   [Description]    (hg19-Feb_2009)
GoldenPathRHOBTB1 - 10q21.2 [CytoView hg19]  RHOBTB1 - 10q21.2 [CytoView hg38]
Genome Data Viewer NCBIRHOBTB1 [Mapview hg19]  
Gene and transcription
Genbank (Entrez)AB018283 AI935070 AK075129 AK307630 AK309440
RefSeq transcript (Entrez)NM_001242359 NM_001350902 NM_001350903 NM_001350904 NM_001350905 NM_001350906 NM_001350907 NM_001350908 NM_001350909 NM_001350910 NM_001350911 NM_014836
Consensus coding sequences : CCDS (NCBI)RHOBTB1
Gene Expression Viewer (FireBrowse)RHOBTB1 [ Firebrowse - Broad ]
GenevisibleExpression of RHOBTB1 in : [tissues]  [cell-lines]  [cancer]  [perturbations]  
BioGPS (Tissue expression)9886
GTEX Portal (Tissue expression)RHOBTB1
Human Protein AtlasENSG00000072422-RHOBTB1 [pathology]   [cell]   [tissue]
Protein : pattern, domain, 3D structure
UniProt/SwissProtO94844   [function]  [subcellular_location]  [family_and_domains]  [pathology_and_biotech]  [ptm_processing]  [expression]  [interaction]
NextProtO94844  [Sequence]  [Exons]  [Medical]  [Publications]
With graphics : InterProO94844
Domaine pattern : Prosite (Expaxy)BTB (PS50097)    RHO (PS51420)   
Domains : Interpro (EBI)BTB/POZ_dom    P-loop_NTPase    SKP1/BTB/POZ_sf    Small_GTPase    Small_GTPase_Rho   
Domain families : Pfam (Sanger)BTB (PF00651)    Ras (PF00071)   
Domain families : Pfam (NCBI)pfam00651    pfam00071   
Domain families : Smart (EMBL)BTB (SM00225)  
Conserved Domain (NCBI)RHOBTB1
AlphaFold pdb e-kbO94844   
Human Protein Atlas [tissue]ENSG00000072422-RHOBTB1 [tissue]
Protein Interaction databases
IntAct (EBI)O94844
Ontologies - Pathways
Ontology : AmiGOGTPase activity  protein binding  GTP binding  cytoskeleton  plasma membrane  cell cortex  actin filament organization  establishment or maintenance of cell polarity  small GTPase mediated signal transduction  regulation of cell shape  endosome membrane  protein kinase binding  cortical cytoskeleton organization  cytoplasmic vesicle  regulation of actin cytoskeleton organization  cell projection  intracellular membrane-bounded organelle  engulfment of apoptotic cell  
Ontology : EGO-EBIGTPase activity  protein binding  GTP binding  cytoskeleton  plasma membrane  cell cortex  actin filament organization  establishment or maintenance of cell polarity  small GTPase mediated signal transduction  regulation of cell shape  endosome membrane  protein kinase binding  cortical cytoskeleton organization  cytoplasmic vesicle  regulation of actin cytoskeleton organization  cell projection  intracellular membrane-bounded organelle  engulfment of apoptotic cell  
Pathways : KEGGUbiquitin mediated proteolysis   
REACTOMEO94844 [protein]
REACTOME PathwaysR-HSA-194840 [pathway]   
Atlas of Cancer Signalling NetworkRHOBTB1
Wikipedia pathwaysRHOBTB1
Orthology - Evolution
GeneTree (enSembl)ENSG00000072422
Phylogenetic Trees/Animal Genes : TreeFamRHOBTB1
Homologs : HomoloGeneRHOBTB1
Homology/Alignments : Family Browser (UCSC)RHOBTB1
Gene fusions - Rearrangements
Fusion : MitelmanANK3::RHOBTB1 [10q21.2/10q21.2]  
Fusion : MitelmanRHOBTB1::ATP6V1C2 [10q21.2/2p25.1]  
Fusion : QuiverRHOBTB1
Polymorphisms : SNP and Copy number variants
NCBI Variation ViewerRHOBTB1 [hg38]
dbSNP Single Nucleotide Polymorphism (NCBI)RHOBTB1
Exome Variant ServerRHOBTB1
GNOMAD BrowserENSG00000072422
Varsome BrowserRHOBTB1
ACMGRHOBTB1 variants
Genomic Variants (DGV)RHOBTB1 [DGVbeta]
DECIPHERRHOBTB1 [patients]   [syndromes]   [variants]   [genes]  
CONAN: Copy Number AnalysisRHOBTB1 
ICGC Data PortalRHOBTB1 
TCGA Data PortalRHOBTB1 
Broad Tumor PortalRHOBTB1
OASIS PortalRHOBTB1 [ Somatic mutations - Copy number]
Somatic Mutations in Cancer : COSMICRHOBTB1  [overview]  [genome browser]  [tissue]  [distribution]  
Somatic Mutations in Cancer : COSMIC3DRHOBTB1
Mutations and Diseases : HGMDRHOBTB1
LOVD (Leiden Open Variation Database)[gene] [transcripts] [variants]
DgiDB (Drug Gene Interaction Database)RHOBTB1
DoCM (Curated mutations)RHOBTB1
CIViC (Clinical Interpretations of Variants in Cancer)RHOBTB1
Impact of mutations[PolyPhen2] [Provean] [Buck Institute : MutDB] [Mutation Assessor] [Mutanalyser]
Genetic Testing Registry RHOBTB1
NextProtO94844 [Medical]
Target ValidationRHOBTB1
Huge Navigator RHOBTB1 [HugePedia]
Clinical trials, drugs, therapy
Protein Interactions : CTDRHOBTB1
Pharm GKB GenePA38664
Clinical trialRHOBTB1
DataMed IndexRHOBTB1
PubMed31 Pubmed reference(s) in Entrez
GeneRIFsGene References Into Functions (Entrez)
REVIEW articlesautomatic search in PubMed
Last year publicationsautomatic search in PubMed

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