Secondary screening system for preclinical testing of human lung cancer therapies

Animal models for studying lung cancer and evaluating novel intervention strategies

The pathogenesis of lung cancer progression, invasion and metastasis remains undefined. Clinically relevant laboratory models of the disease could greatly facilitate its clarification. Model systems of lung cancer that accurately reflect different biologic properties and disease stages are necessary to ensure proper experimental design of studies aimed at increasing our understanding of the disease. Such models are also essential tools to accelerate development of new therapies for lung cancer. In this review we summarize the available lung cancer model systems in use today and define both their utility and limitations.

Validation of an orthotopic model of human lung cancer with regional and systemic metastases

BACKGROUND

We developed an orthotopic model of human lung cancer that exhibits highly predictable regional and systemic metastases. This study examines the response of the model when treated with conventional and experimental chemotherapy.

METHODS

NCI-H460 tumor fragments were implanted into the right caudal lung lobe of a nude rat. Treatment commenced 2 weeks later. We assessed response by comparing primary tumor and mediastinal lymph node weights, total body weight, and length of survival with untreated, tumor-bearing control animals. We also calculated the incidence of metastasis to kidney, bone, brain, and contralateral lung in treated versus untreated animals.

RESULTS

Mitomycin and cisplatin showed broad activity against primary and metastatic disease. The matrix metalloproteinase inhibitor batimastat, low-dose cisplatin, and mitomycin significantly prolonged survival. High-dose cisplatin caused renal toxicity that shortened survival. Brain metastases did not respond to mitomycin, consistent with its poor blood-brain barrier penetration.

CONCLUSIONS

Responses were similar to NCI-H460 in vitro data and consistent with clinical experience for these drugs. Drug-related toxicities similar to those seen in clinical practice were detected.

Spontaneous lung metastases in a human lung tumor xenograft: a new experimental model

The cell line NIH-H460, derived from a human large-cell carcinoma of the lung, because metastatic in the lung of athymic mice after S.C. injection. Using serial S.C. passages of the lung metastasis, a cell line was selected, H460M, which was characterized by an increased metastatic potential compared to the parental cells after s.c. (Spontaneous metastases) or i.v. injection (experimental metastases). For the high frequency of lung metastases in the mouse and the short time required to develop metastatic foci, the H460M cells transplanted in nude mice represent a unique preclinical model for biological and therapeutic studies. The paper describes the growth and some biological properties (invasion and migration capability, membrane profile) of this experimental in vivo model.