Carcinoma, Non-Small-Cell Lung Clinical Trial
The studied materials contains surgically specimens of two groups of patiens with non-small
cell lung cancer who have received two regimens of induction (neoadjuvant) chemotherapy
before tumor resection. Pathological specimens of pre-chemotherapy and post-chemotherapy
whatever retrievable will be collected. The protein ad RNA expression of DNA repair genes
(ERCC1, ERCC2, XRCC1, XRCC3, BRCA1 and RRM1) as well as DNA polymorphisms of these genes
will be studied, and will be correlate with the treatment response and outcome of the
patients. The aims of this study include:
1. To identify the expression status of the above DNA repair genes in Taiwanese NSCLC
patients.
2. To correlate the expression, as well as DNA polymorphism of each DNA repair gene in
treatment response to two differenct chemotherapeutic regimens.
3. To correlate the expression, as well as DNA polymorphism of each DNA repair gene in the
outcome of stage III NSCLC patients.
4. To explore whether platinum based chemotherapy will change the expression status of DNA
repair gene and if indeed changed, whether this would influence the outcome of the
patients
Patients with clinical stage IIIA N2 non-small cell lung cancer (NSCLC) have a 5-year
survival rate of 10% to 15%, much worse than those of earlier stages of disease. The use of
pre-operative (neo-adjuvant) chemotherapy has been shown to be beneficial in several
studies.1 However, the precise chemotherapeutic regimen for neoadjuvant therapy remains an
open question.
The treatment response and toxicity of chemotherapy vary widely among and within
individuals, and races. Recently, molecular predictive markers may help to identify who may
benefit from individual therapy. Many evidence shows that the level of ERCC1 (an excision
nuclease within the nucleotide excision repair pathway) is important for the repair of
platinum-DNA adducts and the response to platinum-based chemotherapy.2-5 Not only by
measuring protein and mRNA expression, studies addressed on the polymorphism of ERCC1(118
C/T and C8092A) had demonstrated impact on survival of chemotherapy-treated NSCLC
patients6,7. XPD/ERCC2 (xeroderma pigmentosum group D/excision repair cross-complementing
group 2) 8, XRCC1 (X-ray repair cross-complementing group 1) and XRCC3 (X-ray repair
cross-complementing group 3) are another three proteins involving NER, serving as prognostic
factor of survival.9 BRCA1 is a protein participating in recombinant repair (RR) and is
stronge predictive marker of chemotherapy response. BRCA1 functions as a differential
modulator of survival with cisplatin and antimicrotubule drugs (paclitaxel, docetaxel and
vinorelbine). Low level of BRCA1 enhance cisplatin activity but lead to resistance to
paclitaxel, docetaxel and vinorelbine, whereas the opposite phenomenon is observed in the
presence of normal or high levels of BRCA1. In contract, BRCA1 levels do not influence the
effect of gemcitabine10. On the contrary, RRM1 (ribonucleotid reductase subunit M1) is
involved in gemcitabine metabolism and DNA repair after chemotherapy damage, and increased
RRM1 mRNA expression has been related to gemcitabine resistance in NSCLC11. All these DNA
repair genes participate the pathogenesis, mechanism of chemotherapeutic resistance and
outcome of lung cancer patients.
Previously, a joint study done by NTUH and VGH Taipei used gemcitabine and cisplatin as
induction chemotherapy to treat 52 patient with stage III NSCLC, 36 were operable and 18
were completely resected.12 From 2004 till now, a prospective study has been performed in
NTUH using docetaxel and cisplatin as neoadjuvant regimen to treat patients with stage IIIA
(N2) non-small cell lung cancer. Up to now, more than 40 patients were enrolled, all of them
have received tumor sampling before chemotherapy and more 90% received operation with their
tumor resected. The tissue specimens are valuable as all these patients had received
protocolized treatment, with filed detailed clinical information collected systematically.
All the peroperative biopsied and operatively resected tumor tissues are available in
paffin-embedded block, some in frozen tissue stock, we plan to study the DNA polymorphism,
protein and RNA expression of the above-mentioned DNA repair genes in these two series of
patients.
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Observational Model: Case Control, Time Perspective: Prospective
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