Egf Receptor and HPV-Induced Human Carcinogenesis - Lucia Pirisi-Creek

Abstract

Funding Agency

Agency: National Institute of Health (NIH)
Institute: National Cancer Institute (NCI)
Type: Research Project (R01)
Project #: 1R01CA062094-01A3
Application #: 2103097
Study Section: Virology Study Section (VR)

Project Start: 1996-04-01
Project End: 2001-01-31
Budget Start: 1996-04-01
Budget End: 1997-01-31
Support Year: 1
Fiscal Year: 1996
Total Cost
Indirect Cost

Institution

Name: University of South Carolina at Columbia
Department: Pathology
Type: Schools of Medicine
DUNS #: 111310249

City: Columbia
State: SC
Country: United States
Zip Code: 29208

Related projects


NIH 2000 R01 CA	Role of Egf Receptor in HPV-Induced Human Carcinogenesis Pirisi-Creek, Lucia Amelia / University of South Carolina at Columbia	$231,555
NIH 1999 R01 CA	Role of Egf Receptor in HPV-Induced Human Carcinogenesis Pirisi-Creek, Lucia Amelia / University of South Carolina at Columbia
NIH 1998 R01 CA	Role of Egf Receptor in HPV-Induced Human Carcinogenesis Pirisi-Creek, Lucia Amelia / University of South Carolina at Columbia
NIH 1997 R01 CA	Role of Egf Receptor in HPV-Induced Human Carcinogenesis Pirisi-Creek, Lucia Amelia / University of South Carolina at Columbia
NIH 1996 R01 CA	Egf Receptor and HPV-Induced Human Carcinogenesis Pirisi-Creek, Lucia Amelia / University of South Carolina at Columbia

Publications

Akerman, G S; Tolleson, W H; Brown, K L et al. (2001) Human papillomavirus type 16 E6 and E7 cooperate to increase epidermal growth factor receptor (EGFR) mRNA levels, overcoming mechanisms by which excessive EGFR signaling shortens the life span of normal human keratinocytes. Cancer Res 61:3837-43

Xu, X; Kelleher, K F; Liao, J et al. (2000) Unique carboxyl-terminal sequences of wild type and alternatively spliced variant forms of transforming growth factor-alpha precursors mediate specific interactions with ErbB4 and ErbB2. Oncogene 19:3172-81

Borger, D R; Mi, Y; Geslani, G et al. (2000) Retinoic acid resistance at late stages of human papillomavirus type 16-mediated transformation of human keratinocytes arises despite intact retinoid signaling and is due to a loss of sensitivity to transforming growth factor-beta. Virology 270:397-407

Mi, Y; Borger, D R; Fernandes, P R et al. (2000) Loss of transforming growth factor-beta (TGF-beta) receptor type I mediates TGF-beta resistance in human papillomavirus type 16-transformed human keratinocytes at late stages of in vitro progression. Virology 270:408-16

Xu, X; Liao, J; Creek, K E et al. (1999) Human keratinocytes and tumor-derived cell lines express alternatively spliced forms of transforming growth factor-alpha mRNA, encoding precursors lacking carboxyl-terminal valine residues. Oncogene 18:5554-62

Khan, M A; Canhoto, A J; Housley, P R et al. (1997) Glucocorticoids stimulate growth of human papillomavirus type 16 (HPV16)-immortalized human keratinocytes and support HPV16-mediated immortalization without affecting the levels of HPV16 E6/E7 mRNA. Exp Cell Res 236:304-10

Comments

Be the first to comment on Lucia Pirisi-Creek's grant