Methods and biomarkers for the diagnosis and prognosis of cancer and other diseases: Towards personalized medicine

Anderson, Judy E.; Hansen, Lise Lotte; Mooren, Frank C.; Post, Markus; Hug, Hubert; Zuse, Anne; Łos, Marek

doi:10.1016/j.drup.2006.08.001

Cited by 59 publications

(28 citation statements)

References 127 publications

(139 reference statements)

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“…Finally, as noted above, genetic aberrations are faithfully represented in cell lines, allowing for hypotheses to be generated and tested in vitro. Limitations of arraybased copy number analysis include the requirement of sufficient tissue material, the relative expense of the technique, and the lack of availability of array equipment in the clinical setting (17,57,58). In addition, copy number analyses will obviously not discover specific mutations (e.g., EGFR and KRAS) relevant to drug responsiveness.…”

Section: Discussionmentioning

confidence: 99%

“…Although genomewide expression profiling is currently the most widespread platform for pharmacogenomic studies, the mapping of specific DNA copy number alterations to multiple pathways is also effective in delineating markers associated with the responsiveness to targeted therapy (reviewed in ref. 17). Fixed genetic alterations such as DNA copy number gains and losses are appealing for clinical study because (a) they are relatively stable in vivo over time, and (b) they are faithfully modeled in cell lines in vitro (18,19).…”

Section: Introductionmentioning

confidence: 99%

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Genome-wide DNA copy number predictors of lapatinib sensitivity in tumor-derived cell lines

Greshock

Cheng

Rusnak

et al. 2008

Molecular Cancer Therapeutics

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A common aim of pharmacogenomic studies that use genome-wide assays on panels of cancers is the unbiased discovery of genomic alterations that are associated with clinical outcome and drug response. Previous studies of lapatinib, a selective dual-kinase inhibitor of epidermal growth factor receptor (EGFR) and HER2 tyrosine kinases, have shown predictable relationships between the activity of these target genes and response. Under the hypothesis that additional genes may play a role in drug sensitivity, a predictive model for lapatinib response was constructed from genome-wide DNA copy number data from 24 cancer cell lines. An optimal predictive model which consists of aberrations at nine distinct genetic loci, includes gains of HER2, EGFR, and loss of CDKN2A. This model achieved an area under the receiver operating characteristic curve of f0.85 (80% confidence interval, 0.70 -0.98; P < 0.01), and correctly classified the sensitivity status of 8 of 10 head and neck cancer cell lines. This study shows that biomarkers predictive for lapatinib sensitivity, including the previously described copy number gains of EGFR and HER2, can be discovered using novel genomic assays in an unbiased manner. Furthermore, these results show the utility of DNA copy number profiles in pharmacogenomic studies. [Mol Cancer Ther 2008;7(4):935 -43]

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Genome-wide DNA copy number predictors of lapatinib sensitivity in tumor-derived cell lines

Greshock

Cheng

Rusnak

et al. 2008

Molecular Cancer Therapeutics

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“…Many novel small molecule approaches integrating peptides or peptidomimetics are being constructed to mimic the proapoptotic function of the BH3 domain, a fundamental target model whose function, in excess, can overcome the molecular roadblocks impeding the success of conventional chemotherapy (Mendoza et al, 2005). Pharmacological optimization of BH3-peptides and derived mimics using "hydrocarbon stapling" to produce stable, protease-resistant ␣-helices (Anderson et al, 2006;Kroczak et al, 2006;Walensky et al, 2004) or conjugation to cell penetrating peptides, such as the membrane translocation domain of the Antennapedia (Ant) protein to enhance membrane permeability (Hauff et al, 2005;Mendoza et al, 2005;Vieira et al, 2002), are proving to be efficacious methods in the design of potential drug candidates both in vitro and in vivo. The sophisticated dual role of the Bcl2 family members in the intricate regulation of apoptosis and the cell cycle makes them ideal therapeutic targets in diseases characterized by deregulated apoptotic pathways.…”

Section: Discussionmentioning

confidence: 99%

Cell survival, cell death and cell cycle pathways are interconnected: Implications for cancer therapy

Maddika¹,

Ande²,

Panigrahi³

et al. 2007

Drug Resistance Updates

403

301

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The partial cross-utilization of molecules and pathways involved in opposing processes like cell survival, proliferation and cell death, assures that mutations within one signaling cascade will also affect the other opposite process at least to some extent, thus contributing to homeostatic regulatory circuits. This review highlights some of the connections between opposite-acting pathways. Thus, we discuss the role of cyclins in the apoptotic process, and in the regulation of cell proliferation. CDKs and their inhibitors like the INK4-family (p16 Ink4a , p15 Ink4b , p18 Ink4c , p19 Ink4d ), and the Cip1/Waf1/Kip1-2-family (p21 Cip1/Waf1 , p27 Kip1 , p57 Kip2 ) are shown both in the context of proliferation regulators and as contributors to the apoptotic machinery. Bcl2-family members (i.e. Bcl2, Bcl-X L Mcl-1 L ; Bax, Bok/Mtd, Bak, and Bcl-X S ; Bad, Bid, Bim EL , Bmf, Mcl-1 S ) are highlighted both for their apoptosis-regulating capacity and also for their effect on the cell cycle progression. The PI3-K/Akt cell survival pathway is shown as regulator of cell metabolism and cell survival, but examples are also provided where aberrant activity of the pathway may contribute to the induction of apoptosis. Myc/Mad/Max proteins are shown both as a powerful S-phase driving complex and as apoptosis-sensitizers. We also discuss multifunctional proteins like p53 and Rb (RBL1/p107, RBL2/p130) both in the context of G 1 -S transition and as apoptotic triggers. Finally, we reflect on novel therapeutic approaches that would involve redirecting over-active survival and proliferation pathways towards induction of apoptosis in cancer cells.

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“…that influence TRAIL sensitivity and which might be useful to select patients who are most likely to benefit from treatment. The practical issue, that will need to be determined in the case of TRAIL-receptor targeted therapeutics is similar to those for other current classes of (targeted) agents (Anderson et al, 2006), namely whether one or two of these markers will provide sufficient information to make informed treatment decisions or whether we will need to assess a large panel of such markers to optimize patient selection. Another question to be answered is, whether these markers will be associated with resistance or sensitivity to the various different drugs that could be used.…”

Section: Conclusion and Future Perspectivesmentioning

confidence: 99%

TRAIL receptor-targeted therapeutics: Resistance mechanisms and strategies to avoid them

Thorburn

Behbakht

Ford

2008

Drug Resistance Updates

141

134

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Tumor Necrosis factor-Related Apoptosis-Inducing Ligand (TRAIL) receptors are attractive therapeutic targets in cancer because agents that activate these receptors directly induce tumor cell apoptosis and have low toxicity to normal tissues. Consequently, several different drugs that target these receptors (recombinant TRAIL and various agonistic antibodies that activate one of the two TRAIL receptors) have been developed and are being tested in human clinical trials. However, in vitro and in vivo data suggest that resistance to these agents may limit their clinical effectiveness. In this review, we discuss recent findings about some of the ways these resistance mechanisms arise, potential biomarkers to identify TRAIL resistance in patients (Six1, GALNT14, XIAP, certain microRNAs) and potential ways to circumvent resistance and resensitize tumors.

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Methods and biomarkers for the diagnosis and prognosis of cancer and other diseases: Towards personalized medicine

Cited by 59 publications

References 127 publications

Genome-wide DNA copy number predictors of lapatinib sensitivity in tumor-derived cell lines

Genome-wide DNA copy number predictors of lapatinib sensitivity in tumor-derived cell lines

Cell survival, cell death and cell cycle pathways are interconnected: Implications for cancer therapy

TRAIL receptor-targeted therapeutics: Resistance mechanisms and strategies to avoid them

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