Abstract
TRAIL is a pro-apoptotic cytokine believed to selectively kill cancer cells without harming normal ones. However, we found that in normal human prostate epithelial cells (PrEC) TRAIL is capable of inducing apoptosis as efficiently as in some tumor cell lines. At the same time, TRAIL did not cause apoptosis in several other human primary cell lines: aorta smooth muscle cells, foreskin fibroblasts, and umbilical vein endothelial cells. Compared to these primary cells, PrEC were found to contain significantly fewer TRAIL receptors DcR1 and DcR2 which are not capable of conducting the apoptotic signal. This result suggests that the unusual sensitivity of PrEC to TRAIL may result from their deficiency in anti-apoptotic decoy receptors. The protein synthesis inhibitor cycloheximide significantly enhanced TRAIL toxicity toward PrEC as measured by tetrazolium conversion but had little or no effect on other TRAIL-induced apoptotic responses. Although cycloheximide did not further accelerate the processing of caspases 3 and 8, it significantly enhanced cleavage of the caspase 3 substrate gelsolin, indicating that in PrEC a protein(s) with a short half-life may inhibit the activity of the executioner caspases toward specific substrates. As the majority of prostate cancers are derived from epithelial cells, our data suggest the possibility that TRAIL could be a useful treatment for the early stages of prostate cancer.
This is a preview of subscription content, access via your institution
Access options
Subscribe to this journal
Receive 50 print issues and online access
$259.00 per year
only $5.18 per issue
Buy this article
- Purchase on Springer Link
- Instant access to full article PDF
Prices may be subject to local taxes which are calculated during checkout
Similar content being viewed by others
References
Ashkenazi A, Pai RC, Fong S, Leung S, Lawrence DA, Marsters SA, Blackie C, Chang L, McMurtrey AE, Hebert A, DeForge L, Koumenis IL, Lewis D, Harris L, Bussiere J, Koeppen H, Shahrokh Z, Schwall RH . 1999 J. Clin. Invest. 104: 155–162
Cory AH, Owen TC, Barltrop JA, Cory JG . 1991 Cancer Commun. 3: 207–212
Cryns V, Yuan J . 1998 Genes Dev. 12: 1551–1570
Griffith TS, Chin WA, Jackson GC, Lynch DH, Kubin MZ . 1998 J. Immunol. 161: 2833–2840
Griffith TS, Rauch CT, Smolak PJ, Waugh JY, Boiani N, Lynch DH, Smith CA, Goodwin RG, Kubin MZ . 1999 J. Immunol. 162: 2597–2605
Jo M, Kim TH, Seol DW, Esplen JE, Dorko K, Billiar TR, Strom SC . 2000 Nat. Med. 6: 564–567
Kothakota S, Azuma T, Reinhard C, Klippel A, Tang J, Chu K, McGarry TJ, Kirschner MW, Koths K, Kwiatkowski DJ, Williams LT . 1997 Science 278: 294–298
Kreuz S, Siegmund D, Scheurich P, Wajant H . 2001 Mol. Cell. Biol. 21: 3964–3973
Lawrence D, Shahrokh Z, Marsters S, Achilles K, Shih D, Mounho B, Hillan K, Totpal K, DeForge L, Schow P, Hooley J, Sherwood S, Pai R, Leung S, Khan L, Gliniak B, Bussiere J, Smith CA, Strom SS, Kelley S, Fox JA, Thomas D, Ashkenazi A . 2001 Nat. Med. 7: 383–385
Leverkus M, Neumann M, Mengling T, Rauch CT, Brocker EB, Krammer PH, Walczak H . 2000 Cancer Res. 60: 553–559
Loo DT, Rillema JR . 1998 Methods Cell. Biol. 57: 251–264
Nagata S . 1997 Cell. 88: 355–365
Nesterov A, Lu X, Johnson M, Miller GJ, Ivashchenko Y, Kraft AS . 2001 J. Biol. Chem. 276: 10767–10774
Pitti RM, Marsters SA, Ruppert S, Donahue CJ, Moore A, Ashkenazi A . 1996 J. Biol. Chem. 271: 12687–12690
Schulze-Osthoff K, Ferrari D, Los M, Wesselborg S, Peter ME . 1998 Eur. J. Biochem. 254: 439–459
Stamey TA, McNeal JA . 1992 Campbell's urology ed 6 Walsh et al. (eds) W.B. Sanders: Philadelphia 1159
Tschopp J, Irmler M, Thome M . 1998 Curr. Opin. Immunol. 10: 552–558
Vassalli P . 1992 Annu. Rev. Immunol. 10: 411–452
Wajant H, Haas E, Schwenzer R, Muhlenbeck F, Kreuz S, Schubert G, Grell M, Smith C, Scheurich P . 2000 J. Biol. Chem. 275: 24357–24366
Walczak H, Bouchon A, Stahl H, Krammer PH . 2000 Cancer Res. 60: 3051–3057
Walczak H, Miller RE, Ariail K, Gliniak B, Griffith TS, Kubin M, Chin W, Jones J, Woodward A, Le T, Smith C, Smolak P, Goodwin RG, Rauch CT, Schuh JC, Lynch DH . 1999 Nat. Med. 5: 157–163
Warner HR, Hodes RJ, Pocinki K . 1997 J. Am. Geriatr. Soc. 45: 1140–1146
Wiley SR, Schooley K, Smolak PJ, Din WS, Huang CP, Nicholl JK, Sutherland GR, Smith TD, Rauch C, Smith CA, Goodwin RG . 1995 Immunity 3: 673–682
Acknowledgements
We acknowledge Fr Elke Kessler for her help with the primary cultures of HUVECs, Human aortic smooth muscle cells and experiments performed with these cells; Dr Pearly Lee with Real Time PCR experiments. This work was supported by NIH grant CA 78631 to AS Kraft.
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Nesterov, A., Ivashchenko, Y. & Kraft, A. Tumor necrosis factor-related apoptosis-inducing ligand (TRAIL) triggers apoptosis in normal prostate epithelial cells. Oncogene 21, 1135–1140 (2002). https://doi.org/10.1038/sj.onc.1205151
Received:
Revised:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1038/sj.onc.1205151
Keywords
This article is cited by
-
The apoptotic mechanisms of MT-6, a mitotic arrest inducer, in human ovarian cancer cells
Scientific Reports (2017)
-
Regulating the expression of therapeutic transgenes by controlled intake of dietary essential amino acids
Nature Biotechnology (2016)
-
A novel adenoviral vector carrying an all-in-one Tet-On system with an autoregulatory loop for tight, inducible transgene expression
BMC Biotechnology (2015)
-
Tyrosine Kinase Inhibitor Tyrphostin AG490 Retards Chronic Joint Inflammation in Mice
Inflammation (2014)
-
Adeno-associated virus-mediated doxycycline-regulatable TRAIL expression suppresses growth of human breast carcinoma in nude mice
BMC Cancer (2012)
