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BLCAP

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BLCAP
Identifiers
AliasesBLCAP, BC10, bladder cancer associated protein, apoptosis inducing factor, BLCAP apoptosis inducing factor
External IDsOMIM: 613110; MGI: 1858907; HomoloGene: 38217; GeneCards: BLCAP; OMA:BLCAP - orthologs
Orthologs
SpeciesHumanMouse
Entrez
Ensembl
UniProt
RefSeq (mRNA)

NM_016916
NM_001355426

RefSeq (protein)

NP_058612
NP_001342355

Location (UCSC)Chr 20: 37.49 – 37.53 MbChr 2: 157.4 – 157.41 Mb
PubMed search[3][4]
Wikidata
View/Edit HumanView/Edit Mouse

Bladder cancer-associated protein is a protein that in humans is encoded by the BLCAP gene.[5][6]

Function

BLCAP was identified using a differential display procedure with tumor biopsies obtained from a noninvasive and an invasive bladder transitional cell carcinoma. Although database searches revealed no homology to any human gene at the time of identification, mouse, rat and zebrafish orthologs have since been identified. The protein appears to be down-regulated during bladder cancer progression.[6]

The protein also known as BC10 is an 87-amino-acid-long protein, but its biological functions are largely unknown. However it is a widely believed that the protein is involved in tumour suppression by decreasing cell growth through initiating apoptosis.[7] It is widely expressed protein but expression is particularly high in brain and B lymphocytes.[8] Alternative promoters and alternative splicing allow the protein to exist as several different transcript variants. This number is further increased as the pre-mRNA of this protein is subject to several RNA editing events.[9]

Structure

The structure of the protein is predicted to be a globular protein with 2 transmembrane (TM) domains.[10]

RNA editing

The human BLCAP gene is composed of two exons which are separated by an intron. Exon 1 of the gene encodes a 5′ sequence of the 5′UTR while exon 2 includes the remaining sequence of the 5′UTR, the coding region and the 3′UTR. The coding sequence of the BLCAP gene is therefore intronless.[9]

Type

A to I RNA editing is catalyzed by a family of adenosine deaminases acting on RNA (ADARs) that specifically recognize adenosines within double-stranded regions of pre-mRNAs and deaminate them to inosine. Inosines are recognised as guanosine by the cells translational machinery. There are three members of the ADAR family ADARs 1-3 with ADAR 1 and ADAR 2 being the only enzymatically active members.ADAR3 is thought to have a regulatory role in the brain. ADAR1 and ADAR 2 are widely expressed in tissues while ADAR 3 is restricted to the brain. The double stranded regions of RNA are formed by base-pairing between residues in the close to region of the editing site with residues usually in a neighboring intron but can be an exonic sequence. The region that base pairs with the editing region is known as an Editing Complementary Sequence (ECS).

Location

The editing sites are all concentrated together between the last 150 nucleotides of intron 1 and the beginning of exon 2. There are 17 identified editing sites in total in the pre-mRNA of this protein. Of these, 11 are found within the intronic sequence (1-11), 3 are in the 5'UTR region (5a,5b,5c) while 3 are found within the coding sequence(Y/C site, Q/R site, K/R site). Some of these editing sites occur in the highly conserved amino terminal of the protein.[11]

The Y/C editing site is located at amino acid 2 of the final protein. The codon change introduces a tyrosine (UAU) to a (UGU) cysteine substitution.[12]

The Q/R site is a second coding region found at amino acid 5 of the final protein. Here the glutamine (Q_) is codon is converted to an arginine (R).[11]

The third K/R editing site within the coding sequence is found at amino acid position 15 of the final protein where a Lysine is converted to an Arginine.[11]

The ECS is predicted to be found in the intron with the double stranded structure formed containing all 17 of the editing sites. It is likely since all the editing sites fall within the duplex region that editing occurs in exonic and intronic sequences at the same time. There is a high level of conservation of the last 150 nucleotides of the intronic region and the start of exon 2.[11]

Regulation

The BLCAP protein is expressed in a wide range of tissues not just those associated with the nervous system.This indicates that editing may involve ADAR 1 enzyme.[9] However ADAR1 and ADAR2 have been demonstrated to cooperate to edit BLCAP transcript. The pre-mRNA of this protein is edited in many tissues( heart, bladder, lymphocytes, fibroblast, epithelial cells and brain) but the frequency of editing varies in different tissues. There is an overall decrease in BLCAP-editing level in Astrocytomas, Bladder cancer and Colorectal cancer when compared with the relevant normal tissues. HEK 293t cells transfected with either EGFP-ADAR1, EGFP-ADAR2 or untransfected HEK293 cells were used to determine which ADAR enzyme is involved in editing at specific sites in 5'UTR and coding region. The editing level at the Y/C site was 16% while in tumour cells was an average of 21% in brain.It has been shown that ADAR1 does not edit the sites in 5' UTR but ADAR2 edits 5b and 5c sites.Y/c is edited by both and edits the Q/R and K/R sites at higher levels than ADAR1. Low levels of editing are also detected in untransfected vectors. These results indicate that ADAR1 and ADAR2 can edited all sites with ADAR2 being more efficient at the majority of sites.[11]

Effects

Editing at the Q/R and K/R sites result in positively charge amino acids being placed in the conserved amino terminal of the protein. The three possible editing sites in the coding sequence can result in the translation of up to 8 different protein isoforms.[11] The possible changes to protein function caused by editing is unknown at the current time.

References

  1. ^ a b c GRCh38: Ensembl release 89: ENSG00000166619Ensembl, May 2017
  2. ^ a b c GRCm38: Ensembl release 89: ENSMUSG00000067787Ensembl, 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. ^ Gromova I, Gromov P, Celis JE (February 1999). "Identification of true differentially expressed mRNAs in a pair of human bladder transitional cell carcinomas using an improved differential display procedure". Electrophoresis. 20 (2): 241–8. doi:10.1002/(SICI)1522-2683(19990201)20:2<241::AID-ELPS241>3.0.CO;2-A. PMID 10197429.
  6. ^ a b "Entrez Gene: BLCAP bladder cancer associated protein".
  7. ^ Misono H, Togawa H, Yamamoto T, Soda K (September 1976). "Occurrence of meso-alpha, epsilon-diaminopimelate dehydrogenase in Bacillus sphaericus". Biochemical and Biophysical Research Communications. 72 (1): 89–93. doi:10.1016/0006-291x(76)90964-5. PMID 10904.
  8. ^ Su AI, Wiltshire T, Batalov S, Lapp H, Ching KA, Block D, Zhang J, Soden R, Hayakawa M, Kreiman G, Cooke MP, Walker JR, Hogenesch JB (April 2004). "A gene atlas of the mouse and human protein-encoding transcriptomes". Proceedings of the National Academy of Sciences of the United States of America. 101 (16): 6062–7. Bibcode:2004PNAS..101.6062S. doi:10.1073/pnas.0400782101. PMC 395923. PMID 15075390.
  9. ^ a b c Riedmann EM, Schopoff S, Hartner JC, Jantsch MF (June 2008). "Specificity of ADAR-mediated RNA editing in newly identified targets". RNA. 14 (6): 1110–8. doi:10.1261/rna.923308. PMC 2390793. PMID 18430892.
  10. ^ Clutterbuck DR, Leroy A, O'Connell MA, Semple CA (June 2005). "A bioinformatic screen for novel A-I RNA editing sites reveals recoding editing in BC10". Bioinformatics. 21 (11): 2590–5. doi:10.1093/bioinformatics/bti411. PMID 15797904.
  11. ^ a b c d e f Galeano F, Leroy A, Rossetti C, Gromova I, Gautier P, Keegan LP, Massimi L, Di Rocco C, O'Connell MA, Gallo A (July 2010). "Human BLCAP transcript: new editing events in normal and cancerous tissues". International Journal of Cancer. 127 (1): 127–37. doi:10.1002/ijc.25022. PMC 2958456. PMID 19908260.
  12. ^ Levanon EY, Hallegger M, Kinar Y, Shemesh R, Djinovic-Carugo K, Rechavi G, Jantsch MF, Eisenberg E (2005). "Evolutionarily conserved human targets of adenosine to inosine RNA editing". Nucleic Acids Research. 33 (4): 1162–8. Bibcode:2005q.bio.....2045L. doi:10.1093/nar/gki239. PMC 549564. PMID 15731336.

Further reading