Tissue‐ and cell‐specific expression of a splice variant in the II‐III cytoplasmic loop of
            Cacna1b

In this study, we describe the identification of a novel splice variant of TERF1/PIN2, one of the main components of the telomeric shelterin complex. This new splice variant is identical to TERF1, apart from a 30 amino acid internal insertion near to the C-terminus of TERF1. Based on genome comparison analyses and RNA expression data, we show that this splice variant is conserved among hominidae but absent from all other species. RNA expression and histological analyses show specific expression in human spermatogonial and hematopoietic stem cells (HSCs), while all other analyzed tissues lack the expression of this TERF1-isoform, hence the name TERF1-tsi (TERF1-tissue-specific-isoform). In addition, we could not detect any expression in primary human cells and established cancer cell lines. Immunohistochemistry results involving two new rabbit polyclonal antibodies, generated against TERF1-tsi specific peptides, indicate nuclear localization of TERF1-tsi in a subset of spermatogonial stem cells. In line with this observation, immunofluorescence analyzes in various cell lines consistently revealed that ectopic TERF1-tsi localizes to the cell nucleus, mainly but not exclusively at telomeres. In a first attempt to evaluate the impact of TERF1-tsi in the testis, we have tested its expression in normal testis samples versus matched tumor samples from the same patients. Both RT-PCR and IHC show a specific downregulation of TERF1-tsi in tumor samples while the expression of TERF1 and PIN2 remains unchanged.

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Skin-Specific Expression of ank-393, a Novel Ankyrin-3 Splice Variant

Journal of Investigative Dermatology ◽

10.1046/j.1523-1747.2001.01210.x ◽

2001 ◽

Vol 116 (2) ◽

pp. 216-223 ◽

Cited By ~ 4

Author(s):

Bettina Peters ◽

Thomas M. Magin ◽

Hans Wilhelm Kaiser

Keyword(s):

Splice Variant ◽

Specific Expression

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Photoperiod-Specific Expression of Eyes Absent 3 Splice Variant in the Pars Tuberalis of the Japanese Quail

The Journal of Poultry Science ◽

10.2141/jpsa.0190135 ◽

2020 ◽

Author(s):

Nobuhiro Nakao ◽

Kei Nakagawa ◽

Asuna Sasaki ◽

Arisa Yamaguchi ◽

Nobumichi Tsushima ◽

...

Keyword(s):

Japanese Quail ◽

Splice Variant ◽

Pars Tuberalis ◽

Specific Expression ◽

Eyes Absent

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Intron Retention: A Common Splicing Event within the Human Kallikrein Gene Family

Clinical Chemistry ◽

10.1373/clinchem.2004.042341 ◽

2005 ◽

Vol 51 (3) ◽

pp. 506-515 ◽

Cited By ~ 42

Author(s):

Iacovos P Michael ◽

Lisa Kurlender ◽

Nader Memari ◽

George M Yousef ◽

Daisy Du ◽

...

Keyword(s):

Prostate Cancer ◽

Gene Family ◽

Splice Variant ◽

Hormonal Regulation ◽

Splice Variants ◽

Intron Retention ◽

Expression Profiles ◽

Catalytic Triad ◽

Cancer Diagnostics ◽

Specific Expression

Abstract Background: All human kallikrein (KLK) genes have at least one splice variant, some of which possess clinical utility in cancer diagnostics/prognostics. Given that introns <100 bp in length are retained in 95% of human genes and that splice variants of KLK3 and KLK4 retain intron III, we hypothesized that other proteins in this family, with a small intron III, may also retain it. Methods: Variant-specific reverse transcription-PCRs (RT-PCRs) for KLK1, KLK2, KLK5, and KLK15 were used to identify and clone the full coding sequence of intron III-containing splice variants. In addition, variant-specific RT-PCRs for the cloned KLK3 and KLK4 variants as well as for the “classical” forms of the six genes were used to determine their expression profiles in healthy tissues, their regulation by steroids, and their differential expression in prostate cancer. Results: KLK1, KLK2, KLK3, KLK4, KLK5, and KLK15 showed a common type of splice variant in which intron III is retained. Expression profiling of these splice variants revealed expression profiles similar to those of the classical mRNA forms, although the pattern of hormonal regulation was different. The KLK15 splice variant was up-regulated in 8 of 12 cancerous prostate tissues. All encoded variant proteins were predicted to be truncated and catalytically inactive because of a lack of the serine residue of the catalytic triad. Conclusions: The first six centromeric members of the KLK gene family have splice variants that retain intron III. Some variants show tissue-specific expression. The KLK15 splice variant appears to be a candidate biomarker for prostate cancer.

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SLC14 family of facilitative urea transporters (version 2019.4) in the IUPHAR/BPS Guide to Pharmacology Database

IUPHAR/BPS Guide to Pharmacology CITE ◽

10.2218/gtopdb/f186/2019.4 ◽

2019 ◽

Vol 2019 (4) ◽

Author(s):

Gavin Stewart

Keyword(s):

Experimental Evidence ◽

Concentration Gradient ◽

Splice Variant ◽

Molecular Level ◽

Splice Variants ◽

The Body ◽

Protein Catabolism ◽

Extracellular Loop ◽

Specific Expression ◽

C And N

As a product of protein catabolism, urea is moved around the body and through the kidneys for excretion. Although there is experimental evidence for concentrative urea transporters, these have not been defined at the molecular level. The SLC14 family are facilitative transporters, allowing urea movement down its concentration gradient. Multiple splice variants of these transporters have been identified; for UT-A transporters, in particular, there is evidence for cell-specific expression of these variants with functional impact [3]. Topographical modelling suggests that the majority of the variants of SLC14 transporters have 10 TM domains, with a glycosylated extracellular loop at TM5/6, and intracellular C- and N-termini. The UT-A1 splice variant, exceptionally, has 20 TM domains, equivalent to a combination of the UT-A2 and UT-A3 splice variants.

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Identification of a Novel Splice Variant of C3G Which Shows Tissue-Specific Expression

DNA and Cell Biology ◽

10.1089/104454999314980 ◽

1999 ◽

Vol 18 (9) ◽

pp. 701-708 ◽

Cited By ~ 6

Author(s):

Shivakrupa ◽

Rita Singh ◽

Ghanshyam Swarup

Keyword(s):

Splice Variant ◽

Specific Expression ◽

Tissue Specific ◽

Tissue Specific Expression

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TMOD-30. CHARACTERIZATION OF AN ALTERNATIVELY SPLICED NTRK2 VARIANT IN GLIOMAS

Neuro-Oncology ◽

10.1093/neuonc/noz175.1129 ◽

2019 ◽

Vol 21 (Supplement_6) ◽

pp. vi269-vi269

Author(s):

Siobhan Pattwell ◽

Sonali Arora ◽

P J Cimino ◽

Frank Szulzewsky ◽

Pia Hoellerbauer ◽

...

Keyword(s):

Human Brain ◽

Splice Variant ◽

Clinical Investigation ◽

The Cancer Genome Atlas ◽

Human Gliomas ◽

Specific Expression ◽

Normal Human Brain ◽

Wide Range ◽

Normal Human

Abstract Recent work has uncovered oncogenic TRK fusions in a wide range of cancer types, including adult and pediatric gliomas. With some exceptions, many of these fusions tend to occur at very low frequencies below 1–2%, with unclear clinical significance, yet they highlight a potentially important and rapidly evolving role for NTRK1, NTRK2, NTRK3 in glioma biology. Basic scientific and clinical investigation surrounding TRKs’ role in cancer has often been hindered due to the nonspecific nature of antibodies and kinase inhibitors, combined with a lack of precise exon-specific expression data from patient populations. Tropomyosin receptor B (TrkB), encoded by the NTRK2 gene, is most known for its established roles in neuronal survival, proliferation, differentiation, apoptosis, learning, and memory. TrkB exerts diverse effects on cellular outcomes through interactions with downstream signaling cascades and has been shown to exhibit complex alternative splicing patterns. Here we show a novel role for a TrkB splice variant in human gliomas via NTRK2 transcript analyses in normal human brain and gliomas using The Cancer Genome Atlas (TCGA) and Genotype-Tissue Expression Project (GTEx). Using a novel antibody designed against this splice variant, immunostaining shows altered receptor localization within human gliomas compared to normal human brain. This NTRK2 splice variant enhances PDGF-driven gliomas in vivo in an RCAS-TVA mouse model and augments PDGF-induced signaling in vitro. Through the lens of NTRK2, these results highlight the importance of expanding upon whole gene-level and kinase-fusion analyses to explore TRK splicing in basic and translational research.

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