Research

A novel human ex vivo model for the analysis of molecular events during lung cancer chemotherapy

Dagmar S Lang¹ , Daniel Droemann² , Holger Schultz¹ , Detlev Branscheid³ , Christian Martin⁴ , Anne R Ressmeyer⁴ , Peter Zabel^2,5 , Ekkehard Vollmer¹ and Torsten Goldmann¹

¹  Clinical and Experimental Pathology, Research Center Borstel, D-23845 Borstel, Germany

²  Medical Clinic, Research Center Borstel, D-23845 Borstel, Germany

³  Department of Thoracic Surgery, Hospital Großhansdorf, D-22927 Großhansdorf, Germany

⁴  Division of Pulmonary Pharmacology, Research Center Borstel, D-23845 Borstel, Germany

⁵  Medical Clinic III, University of Schleswig-Holstein, Campus Lübeck, D-23538 Lübeck, Germany

author email corresponding author email

Respiratory Research 2007, 8:43doi:10.1186/1465-9921-8-43

Published:	14 June 2007

Abstract

Background

Non-small cell lung cancer (NSCLC) causes most of cancer related deaths in humans and is characterized by poor prognosis regarding efficiency of chemotherapeutical treatment and long-term survival of the patients. The purpose of the present study was the development of a human ex vivo tissue culture model and the analysis of the effects of conventional chemotherapy, which then can serve as a tool to test new chemotherapeutical regimens in NSCLC.

Methods

In a short-term tissue culture model designated STST (Short-Term Stimulation of Tissues) in combination with the novel *HOPE-fixation and paraffin embedding method we examined the responsiveness of 41 human NSCLC tissue specimens to the individual cytotoxic drugs carboplatin, vinorelbine or gemcitabine. Viability was analyzed by LIFE/DEAD assay, TUNEL-staining and colorimetric MTT assay. Expression of Ki-67 protein and of BrdU (bromodeoxyuridine) uptake as markers for proliferation and of cleaved (activated) effector caspase-3 as indicator of late phase apoptosis were assessed by immunohistochemistry. Transcription of caspase-3 was analyzed by RT-PCR. Flow cytometry was utilized to determine caspase-3 in human cancer cell lines.

Results

Viability, proliferation and apoptosis of the tissues were moderately affected by cultivation. In human breast cancer, small-cell lung cancer (SCLC) and human cell lines (CPC-N, HEK) proliferative capacity was clearly reduced by all 3 chemotherapeutic agents in a very similar manner. Cleavage of caspase-3 was induced in the chemo-sensitive types of cancer (breast cancer, SCLC). Drug-induced effects in human NSCLC tissues were less evident than in the chemo-sensitive tumors with more pronounced effects in adenocarcinomas as compared to squamous cell carcinomas.

Conclusion

Although there was high heterogeneity among the individual tumor tissue responses as expected, we clearly demonstrate specific multiple drug-induced effects simultaneously. Thus, STST provides a useful human model to study numerous aspects of mechanisms underlying tumor responsiveness towards improved anticancer treatment. The results presented here shall serve as a base for multiple functional tests of novel chemotherapeutic approaches to NSCLC in the future.

*Hepes – Glutamic acid buffer mediated Organic solvent Protection Effect