Abstract
BackgroundIn contrast to rat and mouse databases, the NCBI gene database lists the human dual-endothelin1/VEGFsp receptor (DEspR, formerly Dear) as a unitary transcribed pseudogene due to a stop [TGA]-codon at codon#14 in automated DNA and RNA sequences. However, re-analysis is needed given prior single gene studies detected a tryptophan [TGG]-codon#14 by manual Sanger sequencing, demonstrated DEspR translatability and functionality, and since the demonstration of actual non-translatability through expression studies, the standard-of-excellence for pseudogene designation, has not been performed. Re-analysis must meet UNIPROT criteria for demonstration of a protein’s existence at the highest (protein) level, which a priori, would override DNA- or RNA-based deductions.MethodsTo dissect the nucleotide sequence discrepancy, we performed Maxam–Gilbert sequencing and reviewed 727 RNA-seq entries. To comply with the highest level multiple UNIPROT criteria for determining DEspR’s existence, we performed various experiments using multiple anti-DEspR monoclonal antibodies (mAbs) targeting distinct DEspR epitopes with one spanning the contested tryptophan [TGG]-codon#14, assessing: (a) DEspR protein expression, (b) predicted full-length protein size, (c) sequence-predicted protein-specific properties beyond codon#14: receptor glycosylation and internalization, (d) protein-partner interactions, and (e) DEspR functionality via DEspR-inhibition effects.ResultsMaxam–Gilbert sequencing and some RNA-seq entries demonstrate two guanines, hence a tryptophan [TGG]-codon#14 within a compression site spanning an error-prone compression sequence motif. Western blot analysis using anti-DEspR mAbs targeting distinct DEspR epitopes detect the identical glycosylated 17.5 kDa pull-down protein. Decrease in DEspR-protein size after PNGase-F digest demonstrates post-translational glycosylation, concordant with the consensus-glycosylation site beyond codon#14. Like other small single-transmembrane proteins, mass spectrometry analysis of anti-DEspR mAb pull-down proteins do not detect DEspR, but detect DEspR-protein interactions with proteins implicated in intracellular trafficking and cancer. FACS analyses also detect DEspR-protein in different human cancer stem-like cells (CSCs). DEspR-inhibition studies identify DEspR-roles in CSC survival and growth. Live cell imaging detects fluorescently-labeled anti-DEspR mAb targeted-receptor internalization, concordant with the single internalization-recognition sequence also located beyond codon#14.ConclusionsData confirm translatability of DEspR, the full-length DEspR protein beyond codon#14, and elucidate DEspR-specific functionality. Along with detection of the tryptophan [TGG]-codon#14 within an error-prone compression site, cumulative data demonstrating DEspR protein existence fulfill multiple UNIPROT criteria, thus refuting its pseudogene designation.Electronic supplementary materialThe online version of this article (doi:10.1186/s12867-016-0066-8) contains supplementary material, which is available to authorized users.
Highlights
In contrast to rat and mouse databases, the NCBI gene database lists the human dual-endothelin1/ vascular endothelial growth factor signal peptide (VEGFsp) receptor (DEspR, formerly Dear) as a unitary transcribed pseudogene due to a stop [TGA]-codon at codon#14 in automated DNA and RNA sequences
The current NCBI pseudogene annotation updated in May 2016 and referenced in other sites is discrepant with the single research group single-gene studies of human dual-endothelin1/VEGFsp receptor (DEspR) showing expression in human kidney via immunohistochemistry using a polyclonal anti-DEspR antibody, and functional studies of human DEspR expressed in permanent Cos1 cell transfectants detecting the predicted protein size by Western blot analysis as well as binding to DEspR-ligands [2]
The NCBI pseudogene annotation is discrepant with the single gene study demonstrating DEspR-specific functional roles in cancer and putative regulation at the splicing level with detection of both unspliced and spliced DEspR RNA in human tumor cells by allele-specific amplification-refractory mutation system (ARMS) methodology [3]
Summary
In contrast to rat and mouse databases, the NCBI gene database lists the human dual-endothelin1/ VEGFsp receptor (DEspR, formerly Dear) as a unitary transcribed pseudogene due to a stop [TGA]-codon at codon#14 in automated DNA and RNA sequences. In contrast to rat and mouse databases listing Dear as a gene, DNA and RNA sequence databases list the human Dear gene or the dual-endothelin1/VEGFsp receptor (DEspR) as a pseudogene [1] (Additional file 1: Figure S1). The NCBI pseudogene annotation is discrepant with the single gene study demonstrating DEspR-specific functional roles in cancer and putative regulation at the splicing level with detection of both unspliced and spliced DEspR RNA in human tumor cells by allele-specific amplification-refractory mutation system (ARMS) methodology [3]. Given discrepancies among methodologies, the Sanger sequencing is the final determinant of sequence discrepancy since “any difference from the Sanger sequence is defined as a sequencing error” [5]
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