Product Overview

Target Details

Gene Functions References

1. Our results suggest that betacellulin induces ovarian cancer migration and Slug-dependent E-cadherin down-regulation PMID: 27129169
2. CXCL8 production from lung cancer cells could be initiated by an autocrine mechanism or external sources of BTC. PMID: 24629040
3. Data suggest that BTC (betacellulin), AREG (amphiregulin), and EREG (epiregulin) induced prostaglandin E2 production by induction of COX-2 (prostaglandin-endoperoxide synthase 2) through MAP kinase signaling in granulosa cells. PMID: 24092824
4. BTC has properties of increasing retinal vascular leakage that could contribute to the development of diabetic retinopathy. PMID: 22183345
5. Data suggest a novel receptor-independent role for betacellulin intracellular-domain fragment signaling due to its ability to inhibit cell growth in vitro. PMID: 20530572
6. These are the first data that demonstrate an influence of betacellulin upon mesenchymal stem cells and the first to implicate HIF-alpha in betacellulin-mediated proliferation. PMID: 20165885
7. The solution structure of the EGF-like domain of betacellulin has been determined using two-dimensional nuclear magnetic resonance spectroscopy PMID: 12074582
8. The main structural properties of the model and the templates are compared and the hBTC conformation is closely similar to that of hTGFalpha. PMID: 12111392
9. Betacellulin and heregulin/NDF-alpha are involved in epidermal morphogenesis and/or in maintenance of the differentiated phenotype. PMID: 12768307
10. although BTC and EGF share overlapping signaling properties, the ability of BTC to enhance Erk activation occurs independent of Ras. PMID: 15192046
11. BTC may play a pivotal role as a local growth factor in promoting the differentiated villous trophoblastic function via ErbB-1 in early placentas and in contributing to placental growth through EVT cell function via ErbB-4 in term placentas. PMID: 15248827
12. Betacellulin is expressed in malignant fibrous histiocytoma and is a regulator of tumor growth. PMID: 15274392
13. shedding of precursor is mediated by ADAM10 PMID: 15507448
14. To determine if mutations in the betacellulin gene play a role in the development of type 2 diabetes, we screened subjects with type 2 diabetes for the presence of mutations. PMID: 15793259
15. Genetic variations in the protein-coding region of the human BTC gene are unlikely to be a major contributor to development of type 2 diabetes. PMID: 15936459
16. -226A/G polymorphism of the BTC gene may contribute to the development of diabetes. PMID: 16306376
17. intron 4 T-4 allele in the betacellulin gene is associated with lower risk of type 1 diabetes mellitus and may interact with human leukocyte antigen PMID: 16683131
18. Failure to confirm a role for nonsynonymous coding variants of betacellulin in the propensity to type 2 diabetes or to impaired insulin secretion in African American subjects. PMID: 16869959
19. Variants in the betacellulin gene do not play a major role in the development of type 2 diabetes in an Amish Caucasian populations PMID: 17479438
20. the ADAM10 prodomain inhibits betacellulin shedding, demonstrating that it could be of potential use as a therapeutic agent to treat cancer. PMID: 17895248
21. 1st report of BTC expression in breast cancer. Its expression was lower in lobular breast cancers than in ductal carcinomas. PMID: 17962208
22. These results indicate the possibility of designing BTC mutants, which have an activity of inducing differentiation only, without facilitating growth promotion. PMID: 18508082
23. In vivo, EGFR signaling is hyperactive in tumor cells of skin SCC but not of BCC, and in nearby asymptomatic epidermis of both tumor types. Hyperactivation is due to upregulation of EGFR ligands AREG, HBEGF and TGFA, and downregulation of BTC PMID: 17525275