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Health Expect 2011, 15:176–186.PubMedCrossRef 22. de Wijkerslooth TR, de Haan MC, Stoop EM, Bossuyt PM, Thomeer M, van Leerdam ME, Essink-Bot ML, Fockens P, Kuipers EJ, Stoker J, Dekker E: Reasons for participation and nonparticipation in colorectal cancer screening: a randomized trial of colonoscopy and CT colonography. Am J Gastroenterol 2012, 107:1777–1783.PubMedCrossRef 23. Klabunde CN, Vernon SW, Nadel MR, Breen N, Seeff LC, JNK-IN-8 manufacturer Brown ML: Barriers to colorectal cancer screening: a comparison of reports from primary care physicians and average-risk adults. Medical Care 2005,

43:939–944.PubMedCrossRef 24. Vernon SW: Participation in colorectal screening: a review. JNCI 1997, 89:1406–1422.PubMedCrossRef 25. Worthley DL, Cole SR, Esterman A, Mehaffy S, Roosa NM, Smith A, Turnbull D, Young GP: Screening for colorectal cancer by faecal occult blood test: why people choose to refuse. Intern Med J 2006, 36:607–610.PubMedCrossRef 26. Lewis SF, Jensen NM: Screening sigmoidoscopy. Factors associated with utilization. J Gen Intern Med 1996, 11:542–544.PubMedCrossRef 27. Colorectal Association of Canada: Screening and diagnostics. A guide to screening tests. [http://​www.​colorectal-cancer.​ca/​en/​screening/​screening-tests] Pictilisib concentration [] Competing interests Samuel Chao, Gailina Liew and

Choong Chin Liew are all employed by GeneNews Ltd, Ontario, Canada, who funded this study. Gailina Liew is President and COO and Choong Chin Liew is Chief Scientist of GeneNews; Wayne Marshall was CEO of the Wortmannin clinical trial company when the research was carried out. Robert Burakoff has no competing interests to declare. Authors’ contributions CCL, WM and RB conceived and designed the study; SC and JY provided data analysis; GL and SC drafted the manuscript. All authors read and approved the final

manuscript.”
“Background Lung cancer continues to be the most frequent cancer-related cause of death throughout the world with a poor 5-year survival rate (< 15%) [1]. New approaches to the treatment and prevention of lung carcinoma depend on a better understanding of the cellular and molecular mechanisms Reverse transcriptase that control tumor growth in the lung. N-Acetyl-Cysteine (NAC), a natural sulfur-containing amino acid derivative and a powerful antioxidant, has been shown to inhibit inflammatory responses, tumor progression [2, 3]. However, the mechanisms by which NAC inhibits growth of human lung cancer cells have not been well characterized. In an effort to explore the anti-tumor effects of NAC on potential targets, we turned our attention to 3-phosphoinositide-dependent protein kinase 1 (PDK1), a master regulator of signal cascades that are involved in suppression of apoptosis and promotion of tumor growth including lung cancer [4]. High expression of PDK1 has been detected in various invasive cancers [5]. Reduction of PDK1 by small interfering RNA (siRNA) in several cancer cells results in significant cell growth inhibition [6].

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