BACKGROUND: In cancer cells, telomerase induction helps maintain telomere length and thereby bypasses senescence and provides enhanced replicative potential. Chemical inhibitors of telomerase have been shown to reactivate telomere shortening and cause replicative senescence and apoptotic cell death of tumor cells while having little or no effect on normal diploid cells. RESULTS: We designed siRNAs against two different regions of telomerase gene and evaluated their effect on telomere length, proliferative potential, and gene expression in Barrett's adenocarcinoma SEG-1 cells. The mixture of siRNAs in nanomolar concentrations caused a loss of telomerase activity that appeared as early as day 1 and was essentially complete at day 3. Inhibition of telomerase activity was associated with marked reduction in median telomere length and complete loss of detectable telomeres in more than 50% of the treated cells. Telomere loss caused senescence in 40% and apoptosis in 86% of the treated cells. These responses appeared to be associated with activation of DNA sensor HR23B and subsequent activation of p53 homolog p73 and p63 and E2F1. Changes in these gene regulators were probably the source of observed up-regulation of cell cycle inhibitors, p16 and GADD45. Elevated transcript levels of FasL, Fas and caspase 8 that activate death receptors and CARD 9 that interacts with Bcl10 and NFKB to enhance mitochondrial translocation and activation of caspase 9 were also observed. CONCLUSION: These studies show that telomerase siRNAs can cause effective suppression of telomerase and telomere shortening leading to both cell cycle arrest and apoptosis via mechanisms that include up-regulation of several genes involved in cell cycle arrest and apoptosis. Telomerase siRNAs may therefore be strong candidates for highly selective therapy for chemoprevention and treatment of Barrett's adenocarcinoma

Batchu, Ramesh B

Bertheau, Robert C

Goyal, Raj K

Koley, Hemanta

Munshi, Nikhil C

Protopopov, Alexei

Shammas, Masood A

English

PubMed

Masood A Shammas

Hemanta Koley

Ramesh B Batchu

Robert C Bertheau

Alexei Protopopov

Nikhil C Munshi

Raj K Goyal

Springer - Publisher Connector

Abstract Background In cancer cells, telomerase induction helps maintain telomere length and thereby bypasses senescence and provides enhanced replicative potential. Chemical inhibitors of telomerase have been shown to reactivate telomere shortening and cause replicative senescence and apoptotic cell death of tumor cells while having little or no effect on normal diploid cells. Results We designed siRNAs against two different regions of telomerase gene and evaluated their effect on telomere length, proliferative potential, and gene expression in Barrett's adenocarcinoma SEG-1 cells. The mixture of siRNAs in nanomolar concentrations caused a loss of telomerase activity that appeared as early as day 1 and was essentially complete at day 3. Inhibition of telomerase activity was associated with marked reduction in median telomere length and complete loss of detectable telomeres in more than 50% of the treated cells. Telomere loss caused senescence in 40% and apoptosis in 86% of the treated cells. These responses appeared to be associated with activation of DNA sensor HR23B and subsequent activation of p53 homolog p73 and p63 and E2F1. Changes in these gene regulators were probably the source of observed up-regulation of cell cycle inhibitors, p16 and GADD45. Elevated transcript levels of FasL, Fas and caspase 8 that activate death receptors and CARD 9 that interacts with Bcl10 and NFKB to enhance mitochondrial translocation and activation of caspase 9 were also observed. Conclusion These studies show that telomerase siRNAs can cause effective suppression of telomerase and telomere shortening leading to both cell cycle arrest and apoptosis via mechanisms that include up-regulation of several genes involved in cell cycle arrest and apoptosis. Telomerase siRNAs may therefore be strong candidates for highly selective therapy for chemoprevention and treatment of Barrett's adenocarcinoma.</p

Batchu Ramesh B

Koley Hemanta

Shammas Masood A

Bertheau Robert C

Protopopov Alexei

Munshi Nikhil C

Goyal Raj K

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Molecular Cancer

Telomerase inhibition by siRNA causes senescence and apoptosis in Barrett's adenocarcinoma cells: mechanism and therapeutic potential

Background: In cancer cells, telomerase induction helps maintain telomere length and thereby bypasses senescence and provides enhanced replicative potential.  Chemical inhibitors of telomerase have been shown to reactivate telomere shortening and cause replicative senescence and apoptotic cell death of tumor cells while having little or no effect on normal diploid cells.
Results: We designed siRNAs against two different regions of telomerase gene and evaluated their effect on telomere length, proliferative potential, and gene expression in Barrett's adenocarcinoma SEG-1 cells.  The mixture of siRNAs in nanomolar concentrations caused a loss of telomerase activity that appeared as early as day 1 and was essentially complete at day 3. Inhibition of telomerase activity wades in more than 50% of the treated cells.  Telomere loss caused senescence in 40% and apoptosis in 86% of the treated cells.  These responses appeared to be associated with activation of DNA sensor HR23B and subsequent activation of p53 homolog p73 and p63 and E2F1.  Changes in these gene regulators were probably the source of observed up-regulation of cell cycle inhibitors, p16 and GADD45.  Elevated transcript levels of FasL, Fas and caspase 8 that activate death receptors and CARD 9 that interacts with Bcl10 and NFKB to enhance mitochondrial translocation and activation of caspase 9 were also observed.  
Conclusion: These studies show that telomerase siRNAs can cause effective suppression of telomerase and telomere shortening leading to both cell cycle arrest and apoptosis via mechanisms that include up-regulation of several genes involved in cell cycle arrest and apoptosis.  Telomerase siRNAs may therefore be strong candidates for highly selective therapy for chemoprevention and treatment of Barrett's adenocarcinoma

Shammas, Masood A.

Batchu, Ramesh B.

Bertheau, Robert C.

Goyal, Raj K.

Harvard University - DASH 

Telomerase Inhibition by siRNA Causes Senescence and Apoptosis in Barrett's Adenocarcinoma Cells: Mechanism and Therapeutic Potential

A biomarker that identifies senescent human cells in culture and in aging skin in vivo.

Alnemri ES: Card9 is a novel caspase recruitment domain-containing protein that interacts with BCL10/CLAP and activates NFkappa B.

Ann Rev Biochem

Changing patterns in the incidence of esophageal and gastric carcinoma in the United States. Cancer

CW: Telomeres shorten during aging of human fibroblasts.

Danenberg PV: Telomerase reverse transcriptase expression is increased early in the Barrett's metaplasia, dysplasia, adenocarcinoma sequence.

DR: Inhibition of telomerase by BIBR1532 and related analogues. Bioorg Med Chem Lett

Goyal RK: Barrett's esophagus.

Hung Wong W: Model-based analysis of oligonucleotide arrays: model validation, design issues and standard error application.

Identification of essential genes in cultured mammalian cells using small interfering RNAs.

JW: Specific association of human telomerase activity with immortal cells and cancer. Science

Leung LL: Senescent human neutrophil binding to thrombospondin (TSP): evidence for a TSP-independent pathway of phagocytosis by macrophages.

Levrero M, wang JY: The tyrosine kinase c-abl regulates p73 in apoptotic response to cisplatin-induced DNA damage. Nature

LM: Vaccination of cancer patients against telomerase induces functional antitumour CD+ T lymphocytes. Clin Cancer Res

Mullenders LHF: Sequential assembly of the nucleotide excision repair factors in vivo. Molec Cell

NC: Growth arrest, apoptosis and telomere shortening of Barrett's associated adenocarcinoma cells by a telomerase inhibitor. Gastroenterology

NC: Telomerase Inhibition and Cell Growth Arrest by G-Quadruplex Interactive Agent in Multiple Myeloma. Mol Cancer Ther

Neidles S: A G-quadruplex telomere targeting agent produces p16-associated senescence and chromosomal fusions in human prostate cancer cells. Mol Cancer Ther

Oligonucleotide N3' -->P5' phosphoramidates as efficient telomerase inhibitors. Oncogene

p73alpha in apoptosis. Apoptosis

Pereira-Smith OM: Genetics of cellular senescence.

RNA interference targeting Fas protects mice from fulminant hepatitis. Nat Med

Roninson IB: Hallmarks of senescence in carcinogenesis and cancer therapy. Oncogene

Senescence, apoptosis and therapy – cutting the lifelines of cancer. Nat Rev Cancer

Shmookler Reis RJ: Recombination and its roles in DNA repair, cellular immortalization and cancer. Age

Shmookler Reis RJ: Telomerase inhibition by peptide nucleic acids reverses 'immortality' of transformed human cells. Oncogene

Shmookler Reis RJ: Telomere length, cell growth potential, and DNA integrity of human immortal cells are all compromised by peptide nucleic acids targeted to the telomere or telomerase. Experimental Cell Research

Tanke HJ: Heterogeneity in telomere length of human chromosomes. Hum Mol Genet

WE: Senescence and immortalization: role of telomeres and telomerase. Carcinogenesis

Wong WH: Model-based analysis of oligonucleotide arrays: expression index computation and outlier detection.

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Telomerase inhibition by siRNA causes senescence and apoptosis in Barrett's adenocarcinoma cells: mechanism and therapeutic potential

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