Epidermal growth factor receptor inhibition in cancer therapy: biology, rationale and preliminary clinical results

[Epidermal growth factor receptors (EGFR): a new target for anticancer therapy]

Epidermal Growth Factor receptor (EGFR) are a key factor for the tumoral proliferation and its tumoral over expression appears to be a powerful prognosis factor. Currently, 2 types of treatments are targeting EGFR: a monoclonal antibodies anti-EGFR and a specific inhibitors of the EGFR tyrosine kinase. The administration of these compound alone or in combination with chemotherapy gives some promising results. These targets as anti-cancer therapy had emerged to be a new perspective for oncology.

Clinical significance of the epidermal growth factor receptor and HER2 receptor in resectable gastric cancer

BACKGROUND

Epidermal growth factor receptor (EGFR or HER1) and its homolog c-erbB-2 (HER2) are membrane receptors. Both EGFR and HER2 genes are overexpressed in a variety of solid human cancers and are related to poor prognosis of the patients. The objective of this work was to evaluate the EGFR and HER2 contents in resectable gastric cancer, their possible relationship with clinicopathologic parameters of tumors, and their prognostic significance.

METHODS

This was a prospective analysis of 63 patients with resectable gastric carcinomas, with a mean follow-up period of 40.7 months. Membranous EGFR levels were examined by radioligand binding assays, and cytosolic HER2 levels were examined by means of an immunoenzymatic assay.

RESULTS

There was a wide variability of EGFR (1-1,239 fmol/mg of protein) and HER2 (7-20,863 NHU/mg of protein) levels in tumors. There was no significant correlation between these levels and patient or tumor characteristics. However, high levels of EGFR and HER2 were significantly associated with a shorter overall survival period (P =.03 and P =.02, respectively).

CONCLUSIONS

There is a wide variability in membranous EGFR levels and in cytosolic HER2 levels in gastric cancer, which seems to be related to the biological heterogeneity of these tumors. In addition, high tumor EGFR and HER2 levels were associated with an unfavorable outcome in patients with resectable gastric cancer.

Vascular endothelial growth factor, CD68, and epidermal growth factor receptor expression and survival in patients with Stage II and Stage III colon carcinoma: a role for the host response in prognosis

BACKGROUND

The elucidation of new therapeutic targets of prognostic significance in colon carcinoma is necessary to improve outcomes. In the current study, the authors examined the expression of epidermal growth factor receptor (EGFR) and vascular endothelial growth factor (VEGF) in primary colon carcinoma cases and VEGF in tumor-associated macrophages (TAM)/stroma, and their correlation with survival.

METHODS

The authors identified 131 consecutive American Joint Committee on Cancer Stage II and Stage III colon carcinoma patients seen at the University of Rochester between 1990-1995. Expression of VEGF, EGFR, and CD68 were examined by immunohistochemistry in paraffin-embedded primary colon tumors and graded as the percentage of cells stained. Data were analyzed using a multivariate Cox proportional hazards model.

RESULTS

VEGF expression in tumor was not found to be significantly associated with survival. However, 42% of the patients expressed VEGF in TAM/stroma. The median survival in this group was 9.7 years versus 4.3 years in the VEGF-negative (TAM/stroma) group (hazards ratio of 0.57, 95% confidence interval [95% CI], 0.34-0.95; P = 0.03). Although TAM infiltration alone was not found to be significant in multivariate analysis, the presence of both CD68 and VEGF (TAM/stroma) was predictive of improved survival (hazards ratio of 0.48, 95% CI, 0.28-0.83; P = 0.006). High grades of EGFR expression (> or = Grade 2) were found to be associated with a trend toward worsened survival.

CONCLUSIONS

The greater than twofold increase in median survival associated with VEGF-expressing TAM suggests a hitherto unknown role for this subset of cells in the host response to colon carcinoma and requires further investigation. Overexpression of EGFR may be associated with worsened survival, providing a rationale for trials of anti-EGFR agents as adjuvant therapy.

Nuclear medicine imaging to predict response to radiotherapy: a review

PURPOSE

To review available literature on positron emission tomography (PET) and single photon emission computerized tomography (SPECT) for the measurement of tumor metabolism, hypoxia, growth factor receptor expression, and apoptosis as predictors of response to radiotherapy.

METHODS AND MATERIALS

Medical literature databases (Pubmed, Medline) were screened for available literature and critically analyzed as to their scientific relevance.

RESULTS

Studies on 18F-fluorodeoxyglucose PET as a predictor of response to radiotherapy in head-and-neck carcinoma are promising but need confirmation in larger series. 18F-fluorothymine is stable in human plasma, and preliminary clinical data obtained with this marker of tumor cell proliferation are promising. For imaging tumor hypoxia, novel, more widely available radiopharmaceuticals with faster pharmacokinetics are mandatory. Imaging of ongoing apoptosis and growth factor expression is at a very early stage, but results obtained in other domains with radiolabeled peptides appear promising. Finally, for most of the tracers discussed, validation against a gold standard is needed.

CONCLUSION

Optimization of the pharmacokinetics of relevant radiopharmaceuticals as well as validation against gold-standard tests in large patient series are mandatory if PET and SPECT are to be implemented in routine clinical practice for the purpose of predicting response to radiotherapy.

Radioiodinated (I-125) monoclonal antibody 425 in the treatment of high grade glioma patients: ten-year synopsis of a novel treatment

The present report is the follow-up of patients enrolled in a phase II clinical trial using I-MAb 425 as an adjuvant treatment for high grade gliomas. Patient median survivals support published data from an earlier preliminary report. From January 29, 1987 to January 25, 1997, 180 patients diagnosed with astrocytoma with anaplastic foci (AAF) and glioblastoma multiforme (GBM) were treated as outpatients with an average of three weekly intravenous or intraarterial injections of radiolabeled MAb 425. The mean dose was 140 mCi (5.2 GBq). Only one patient who received a single dose of more than 60 mCi (2.2 GBq) experienced acute toxicity. Patients received prior surgery and radiation therapy, with and without chemotherapy. Overall median survival for patients with GBM and AAF was 13.4 and 50.9 months, respectively, with Karnofsky Performance Status (KPS) ranging from 40 to 100 and age ranging from 11 to 75 years. Prognostic factors (KPS and age) correlated positively with increased survival, with KPS the most important determinant of median survival. Data analysis was performed on patients followed 5 years or longer. We conclude that the administration of I-MAb 425 with intensive medical management demonstrates a significant increase in median survival and should be considered a therapeutic regimen for the management of patients with high grade gliomas.

Rationale for the epidermal growth factor receptor as a target for cancer therapy

OBJECTIVES

To provide information regarding tumor-specific molecules and signaling pathways responsible for regulation of tumor growth, and review the development of novel targeted therapies that can block the epidermal growth factor receptor (EGFR) at biologically active and less toxic doses compared with standard chemotherapy.

DATA SOURCES

Research articles.

CONCLUSIONS

The identification and understanding of novel molecular targets has led to the development of therapeutic agents specific to these targets. Clinical investigations involving EGFR inhibitory agents are being completed. Studies have shown single-agent efficacy and efficacy in combination with chemotherapy and/or radiation therapy.

IMPLICATIONS FOR NURSING PRACTICE

Nurses are involved in the administration of targeted therapies. They serve to ensure effective patient education, compliance, and early intervention for toxicities. Knowledge regarding the impact of signaling pathways and the goals of targeted therapy will maximize treatment outcomes for cancer patients.

Activity of anti-epidermal growth factor receptor monoclonal antibody C225 against glioblastoma multiforme

OBJECTIVE

Overexpression of epidermal growth factor receptor (EGFR) in glioblastoma multiforme (GBM) secondary to EGFR gene amplification is associated with a more aggressive tumor phenotype and a worse clinical outcome. The purpose of this study was to analyze whether blocking this receptor with the anti-EGFR chimeric monoclonal antibody C225 would decrease proliferation and increase apoptosis in GBM cells.

METHODS

EGFR expression and amplification were analyzed for seven human GBM cell lines. These lines were then exposed to different concentrations of C225 for 48 hours, 72 hours, and 7 days, after which time cytotoxicity, apoptosis, and vascular endothelial growth factor expression were assessed in vitro. Two EGFR-amplified human GBM were implanted in the flanks of nude mice, and the animals received C225 twice per week intraperitoneally for 5 weeks. Tumor volumes and survival times were compared with those of sham-treated mice.

RESULTS

EGFR gene amplification was demonstrated in three of the primary GBM lines. C225 treatment produced significant cytotoxicity in all three EGFR-amplified GBM lines, but not in unamplified lines. Flow cytometry demonstrated increased apoptosis in C225-treated, EGFR-amplified GBM lines, but not in unamplified lines. There was a decrease in vascular endothelial growth factor expression in all GBM lines with exposure to C225. Tumor-bearing mice treated with C225 experienced significant inhibition of tumor growth as well as a 200% increase in median survival.

CONCLUSION

Blocking EGFR in GBM cells that overexpress this receptor significantly changes tumor cell biology by promoting apoptosis while decreasing proliferation and vascular endothelial growth factor expression. This approach holds great promise for the treatment of patients with GBMs.

Chlorotoxin, a scorpion-derived peptide, specifically binds to gliomas and tumors of neuroectodermal origin

Highly migratory neuroectodermal cells share a common embryonic origin with cells of the central nervous system (CNS). They include enteric, parasympathetic, sympathoadrenal, and sensory neurons of the peripheral nervous system, Schwann cells, melanocytes, endocrine cells, and cells forming connective tissue of the face and neck. Because of their common embryologic origin, these cells and the tumors that derive from them can share genetic and antigenic phenotypes with gliomas, tumors derived from CNS glia. We recently discovered that chlorotoxin (ClTx), a 4-kD peptide purified from Leiurus quinquestriatus scorpion, is a highly specific marker for glioma cells in biopsy tissues (Soroceanu et al. Cancer Res 58:4871-4879, 1998) that can target tumors in animal models. We report on the specificity of ClTx as a marker for tumors of neuroectodermal origin that include peripheral neuroectodermal tumors (PNET) and gliomas. Specifically, we histochemically stained frozen and paraffin tissue sections of human biopsy tissues from 262 patients with a synthetically manufactured and biologically active ClTx bearing an N-terminal biotin. The vast majority (74 of 79) of primary human brain tumors investigated showed abundant binding of ClTx with greater than 90% ClTx-positive cells in each section. By comparison, 32 biopsies of uninvolved brain used for comparison were largely ClTx-negative, with only a few isolated reactive astrocytes showing some ClTx binding. However, as with gliomas, the vast majority of PNETs examined showed specific ClTx binding (31 of 34). These include medulloblastomas (4 of 4), neuroblastomas (6 of 7), ganglioneuromas (4 of 4), melanomas (7 of 7), adrenal pheochromocytomas (5 of 6), primitive PNET (1), small cell lung carcinoma (2 of 3), and Ewing's sarcoma (2 of 2). Under identical staining conditions, normal tissues from brain, skin, kidney, and lung were consistently negative for ClTx. These results suggest that chlorotoxin is a reliable and specific histopathological marker for tumors of neuroectodermal origin and that chlorotoxin derivatives with cytolytic activity may have therapeutic potential for these cancers.

Epidermal growth factor receptor modulation of radiation response: preclinical and clinical development

Approximately two thirds of all human solid tumors derive from epithelial tissues. The epidermal growth factor receptor (EGFR) serves as an important regulator of cellular growth in epithelial tumors. A spectrum of new anticancer agents have been specifically designed to target the EGFR in an effort to inhibit malignant growth. Although several of these new drugs show single-agent activity in early clinical trials, the predominant growth effect of EGFR signaling inhibition is cytostatic. However, the interaction of EGFR inhibition combined with conventional cytotoxic therapies (radiation and chemotherapy) is more potent, and shows great promise in the treatment of a variety of solid tumors that overexpress this receptor. This report focuses primarily on the capacity of EGFR inhibitors to modulate cellular and overall tumor response to ionizing radiation.

The role of the epidermal growth factor receptor in the treatment of colorectal carcinoma

OBJECTIVES

To review the implications of epidermal growth factor receptor (EGFR) blockade and become familiar with the clinical experience in colorectal carcinoma to date.

DATA SOURCES

Research articles and textbooks.

CONCLUSIONS

Blockade of the EGFR results in clinically significant antitumor activities in a variety of tumors, including colorectal carcinoma. There are a variety of mechanisms by which to block the EGFR pathway. Those that have undergone extensive clinical testing include tyrosine kinase inhibitors and anti-EGFR monoclonal antibodies. In addition, biological agents have shown promise when combined with traditional cytotoxic approaches.

IMPLICATIONS FOR NURSING PRACTICE

With many targeted biological agents undergoing evaluation, it is important that nurses become familiar with early clinical experience to understand their role in the treatment of cancer.

Gemcitabine doublets in advanced urothelial cancer

Gemcitabine was identified as an active agent in the treatment of urothelial cancer early in its clinical development. A gemcitabine/cisplatin regimen has been shown to lead to comparable survival in a phase III comparison to methotrexate/vinblastine/doxorubicin/cisplatin in the metastatic setting with less toxicity. Nonetheless, cisplatin-related toxicity is not inconsequential. Renal insufficiency limits wide applicability and long-term survival remains poor. A number of additional doublet combinations have thus been investigated. Substitution of carboplatin for cisplatin is feasible but leads to an apparent lower complete response rate. Likewise, combinations of gemcitabine and a taxane are feasible, but with somewhat discouraging response rates. A combination of doxorubicin and gemcitabine has been reported to lead to a 36% complete response rate, but this has not been confirmed. Combinations with targeted therapeutic agents such as the epidermal growth factor receptor inhibitors and trastuzumab have great potential, but the clinical studies have not yet been completed.

Biological basis for chemo-radiotherapy interactions

For over 10 years, chemo-radiotherapeutic combinations have been used to treat locally advanced epithelial tumours. The rationale for these combinations relies on spatial cooperation or interaction between modalities. Interactions may take place (i) at the molecular level, with altered DNA repair or modification of the lesions induced by drugs or radiation, (ii) at the cellular level, notably through cytokinetic cooperation arising from differential sensitivity of the various compartments of the cell cycle to the drug or radiation, and (iii) at the tissue level, including reoxygenation, increased drug uptake or inhibition of repopulation or angiogenesis. Some mechanisms underlying interaction of radiation with cis-diammino-platinum (II) (cis-Pt), 5-fluoro-2'-deoxyuridine (5-FU), taxanes and gemcitabine are described. It is shown how various mechanisms including cell synchronisation and reoxygenation concur to paclitaxel-induced radiosensitisation. In the future, specific targeting of tumours, for example, with the epidermal growth factor receptor (EGFR) or angiogenesis inhibitors, should be achieved in order to increase the therapeutic index.

An update on epidermal growth factor receptor inhibitors

The epidermal growth factor receptor (EGFR) is part of a family of plasma membrane receptor tyrosine kinases that control many important cellular functions, from cell growth and proliferation to cell death. Dysregulation of the EGFR signal transduction pathway has been implicated in tumorigenesis and cancer progression, making it a clinically relevant target for novel anticancer treatments. This paper reviews recent progress in the development of cancer therapies that are directed toward particular aspects of the extracellular and intracellular domains of EGFR. Promising new compounds in the advanced stages of clinical testing are emphasized.

Suppression of tumor-related glycosylation of cell surface receptors by the 16-kDa membrane subunit of vacuolar H+-ATPase

The glycosylation of integrins and other cell surface receptors is altered in many transformed cells. Notably, an increase in the number of beta1,6-branched N-linked oligosaccharides correlates strongly with invasive growth of cells. An ectopic expression of the Golgi enzyme N-acetylglucosaminyltransferase V (GlcNAc-TV), which forms beta1,6 linkages, promotes metastasis of a number of cell types. It is shown here that the 16-kDa transmembrane subunit (16K) of vacuolar H(+)-ATPase suppresses beta1,6 branching of beta(1) integrin and the epidermal growth factor receptor. Overexpression of 16K inhibits cell adhesion and invasion. 16K contains four hydrophobic membrane-spanning alpha-helices, and its ability to influence glycosylation is localized primarily within the second and fourth membrane-spanning alpha-helices. 16K also interacts directly with the transmembrane domain of beta(1) integrin, but its effects on glycosylation were independent of its binding to beta(1) integrin. These data link cell surface tumor-related glycosylation to a component of the enzyme responsible for acidification of the exocytic pathway.

Radiation response modification following molecular inhibition of epidermal growth factor receptor signaling

The epidermal growth factor receptor (EGFR) has emerged as a central molecular target for modulation in cancer therapeutics. The correlation between overexpression of EGFR and clinically aggressive malignant disease renders EGFR a promising therapy target for many epithelial tumors, which represent approximately two thirds of all human cancers. Although the initial impetus for examining EGFR signal interruption as an anticancer strategy involved proliferative growth inhibition, more recent studies now confirm the capacity of EGFR down-regulation to modify apoptosis, invasion capacity, angiogenesis, DNA damage repair, and cellular response to radiation and selected chemotherapy agents. The favorable interaction profile for EGFR blocking agents combined with radiation and/or chemotherapy has stimulated clinical trials in diverse anatomic sites including head and neck, colorectal, pancreas, and lung. Among the most well studied and promising current agents for EGFR signal modulation are C225 and ZD1839. C225 is a chimeric monoclonal antibody to the EGFR (extracellular domain), whereas ZD1839 is a selective inhibitor of the EGFR-tyrosine kinase (cytoplasmic domain). The spectrum of cellular and biological effects that follow molecular blockade of the EGFR is enlarging and reflect the central role of this receptor in regulating epithelial cell behavior. Molecular inhibition of EGFR signaling in combination with radiation represents a highly promising investigational arena. A preview of current translational research efforts and early clinical trials focused primarily on radiation interaction is provided herein.

Society of Urologic Oncology Biotechnology Forum: new approaches and targets for advanced prostate cancer

PURPOSE

We provide an overview of advances in molecular based therapeutic strategies for prostate cancer and summarize the studies presented at the Society of Urologic Oncology Biotechnology Forum in 2000.

MATERIALS AND METHODS

Three promising new treatment strategies are presented, and a critique of the advantages and limitations of each is offered by a leading expert in the field.

RESULTS

Treatment results and the current state of dendritic cell based immunotherapy, monoclonal antibody therapy and anti-apoptotic treatment approaches are presented.

CONCLUSIONS

Currently patients with advanced prostate carcinoma have expanded therapeutic options available in the form of molecular based phases II and III clinical trials.

EGFR and cancer prognosis

Elevated levels of the epidermal growth factor receptor (EGFR), a growth-factor-receptor tyrosine kinase, and/or its cognate ligands have been identified as a common component of multiple cancer types and appear to promote solid tumour growth. This article examines the relationship between EGFR expression and cancer prognosis based on literature compiled on PubMed between 1985 and September 2000. More than 200 studies were identified that analysed relapse-free-interval or survival data directly in relation to EGFR levels in over 20000 patients. Analysis of the data showed that 10 cancer types both express elevated levels of EGFR relative to normal tissues and have been studied in sufficient depth to allow sound judgements to be made concerning the association between EGFR and patient outlook. The EGFR was found to act as a strong prognostic indicator in head and neck, ovarian, cervical, bladder and oesophageal cancers. In these cancers, increased EGFR expression was associated with reduced recurrence-free or overall survival rates in 70% (52/74) of studies. In gastric, breast, endometrial and colorectal cancers, the EGFR provided more modest prognostic information, correlating to poor survival rates in 52% (13/25) of studies, while in non-small cell lung cancer (NSCLC), EGFR expression only rarely (3/10 studies) related to patient outlook. However, it is likely that the true prognostic significance of the EGFR has been underestimated as the published studies only assessed total cellular EGFR levels, rather than the activated form of the receptor, and were not standardised with regard to patient populations or assay methods. Finally, it is important to stress that failure to detect a prognostic significance for EGFR in any one cancer type does not necessarily preclude patients from benefiting from anti-EGFR therapies.

The EGFR as a target for anticancer therapy--focus on cetuximab

The anti-epidermal-growth-factor-receptor (EGFR) monoclonal antibody cetuximab specifically binds to the EGFR with high affinity, blocking growth-factor binding, receptor activation and subsequent signal-transduction events leading to cell proliferation. Preclinical studies, both in vitro and in vivo, have shown that cetuximab enhances the antitumour effects of chemotherapy as well as radiotherapy by inhibiting cell proliferation, angiogenesis and metastasis and by promoting apoptosis. As of June 2000, 526 patients with advanced solid tumours were treated with cetuximab in phase I/II clinical trials. Analysis of the results of three phase I trials showed that cetuximab has non-linear pharmacokinetics, with saturation of drug-elimination pathways occurring at doses between 200 and 400 mg/m(2). Adverse-event data for 239 patients across most of the completed or ongoing phase I-III trials indicated that the antibody was generally well tolerated. Cetuximab has been evaluated both alone and in combination with radiotherapy and various cytotoxic chemotherapeutic agents in a series of phase I/II studies that primarily treated patients with either head and neck or colorectal cancer. Although not a primary objective of these studies, clinical responses to cetuximab were observed in many patients who had previously failed chemotherapy and/or radiotherapy or were otherwise unlikely to achieve a therapeutic outcome. Based on these promising results, additional phase II and phase III trials are currently underway in head and neck and colorectal cancer.

Growth factors and their receptors: new targets for prostate cancer therapy

Stimulation of the signal transduction pathway of the epidermal growth-factor receptor (EGFR) tyrosine kinase family of receptors in tumor cells enhances cellular proliferation, prevents apoptosis, and promotes tumor-cell mobility, adhesion, and invasion. Therapeutic approaches used to target the EGFR and its signal transduction cascade include (1) monoclonal antibodies (eg, cetuximab [IMC-C225]) directed against the extracellular binding domain of the receptor; and (2) trastuzumab, a monoclonal antibody binding to the HER2 receptor; immunotoxin conjugates use an antibody directed against EGFR joined to a cell toxin. All are in clinical trials for a number of cancers, including prostate cancer. Antisense strategies are in preclinical development. Low-molecular-weight inhibitors of the EGFR tyrosine kinase also in clinical development include OSI-774, PD182905, PKI-166, CI-1033, and ZD1839. ZD1839 has shown encouraging results in patients with prostate cancer in phase 1 trials. mn

IMC-C225, an anti-epidermal growth factor receptor monoclonal antibody, for treatment of head and neck cancer

Squamous cell carcinoma (SCC) of the head and neck (H&N) remains a clinical challenge due to its high rate of locoregional disease recurrence. The importance of the epidermal growth factor receptor (EGFR) in the development and progression of many solid tumours (including SCC of the H&N) is well understood; increased expression is associated with enhanced tumour invasion, resistance to chemotherapy and decreased patient survival. Several approaches have been developed to achieve EGFR blockade as an anticancer treatment strategy, including an anti-EGFR monoclonal antibody (mAb), IMC-C225, which competitively binds to the extracellular receptor site to prevent binding by natural EGFR ligands (EGF and TGF-alpha). Preclinical studies evaluating this chimeric mAb in human cancer cell lines in vitro and human tumour xenografts in vivo have demonstrated its potent antitumour activity. The clinical efficacy of IMC-C225 appears to involve multiple anticancer mechanisms, including inhibition of cell cycle progression, induction of apoptosis, anti-angiogenesis, inhibition of metastasis and its ability to enhance the response to chemotherapy and radiation therapy. Phase I studies of IMC-C225 combined with chemotherapy or radiation for SCC of the H&N demonstrate excellent response rates in patients with recurrent or refractory disease. Phase II and III trials examining the efficacy and safety of these combinations are currently underway. To date, IMC-C225 has been well-tolerated, with skin rashes and allergic reactions being the most clinically important adverse events reported. IMC-C225 displays dose-dependent elimination characteristics and a half-life of approximately 7 days. Current recommendations for dosing include a 400 mg/m2 loading dose, followed by weekly infusions of 250 mg/m2.

Immunotherapy of prostate cancer

The realization that prostate cancer is an immunogenic tumor, in conjunction with the discovery of novel methods for priming the immune system to generate an antitumor response, has resulted in several new approaches for prostate cancer immunotherapy. Based on these various approaches, several human clinical trials have begun using immune-based therapies for prostate cancer. These approaches can be divided into cytokine-based therapies, tumor-associated antigen-based therapies, tumor vaccines, and dendritic cell-based therapies. This review summarizes the latest findings from each of these approaches and gives results from the few completed human clinical trials.

Differential expression of growth factors in irradiated mouse testes

PURPOSE

By using as an experimental model the male mouse gonad, which contains both radiosensitive (germ) and radioresistant (somatic) cells, we have studied the growth factor (and/or receptor) expression of transforming growth factor-beta receptor (TGFbeta RI), stem cell factor (SCF), c-kit, Fas-L, Fas, tumor necrosis factor receptor (TNF R55), and leukemia inhibiting factor receptor (LIF-R) after local irradiation.

METHODS AND MATERIALS

Adult male mice were locally irradiated on the testes. Induction of apoptosis in the different testicular cell types following X-ray radiation was identified by the TdT-mediated dUTP Nick End Labeling (TUNEL) approach. Growth factor expression was evidenced by semiquantitative RT-PCR and Western blot analyses.

RESULTS

Apoptosis, identified through the TUNEL approach, occurred in radiosensitive testicular (premeotic) germ cells with the following kinetics: the number of apoptotic cells increased after 24 h (p < 0.001) and was maximal 48 h after a 2-Gy ionizing radiation (p < 0.001). Apoptotic cells were no longer observed 72 h after a 2-Gy irradiation. The number of apoptotic cells increased with the dose of irradiation (1-4 Gy). In the seminiferous tubules, the growth factor expression in premeiotic radiosensitive germ cells was modulated by irradiation. Indeed Fas, c-kit, and LIF-R expression, which occurs in (radiosensitive) germ cells, decreased 24 h after a 2-Gy irradiation, and the maximal decrease was observed with a 4-Gy irradiation. The decrease in Stra8 expression occurred earlier, at 4 h after a 2-Gy irradiation. In addition, a significant (p < 0.03) decrease in Stra8 mRNA levels was observed at the lowest dose used (0.5 Gy, 48 h). Moreover, concerning a growth factor receptor, such as TGFbeta RI, which is expressed both in radiosensitive and radioresistant cells, we observed a differential expression depending on the cell radiosensitivity after irradiation. Indeed, TGFbeta RI expression was increased after irradiation in interstitial radioresistant testicular cells in a dose- and time-dependent manner, while it decreased in seminiferous radiosensitive (germ cells) testicular cells. Such a differential expression between radioresistant and radiosensitive cells in TGFbeta RI levels was observed in terms of both mRNA and protein. In contrast, the growth factors specifically expressed in the somatic radioresistant (Sertoli) cells in the seminiferous tubules (SCF, Fas-L, TNF R55) were not affected by ionizing radiation (up to 4 Gy, 72 h).

CONCLUSION

Growth factor expression decreased in the radiosensitive testicular cells after irradiation. Such a decrease occurred before the detection of apoptosis using the TUNEL approach. TGFbeta RI mRNA levels decreased in the radiosensitive cells, whereas it increased in the radioresistant cells, suggesting that TGFbeta RI may represent a biomarker of the intrinsic radiosensitivity of cells.

Head and neck cancer as a clinical model for molecular targeting of therapy: combining EGFR blockade with radiation

PURPOSE/OBJECTIVE

The primary purpose of this presentation is to develop the concept that molecular blockade of specific growth factor receptors and signal transduction pathways in combination with radiation will prove a valuable cancer therapeutic strategy. More specifically, the rationale for molecular blockade of the epidermal growth factor receptor (EGFR) system in combination with ionizing radiation for epithelial tumors, such as squamous cell carcinomas (SCCs) of the head and neck (H&N), is described.

METHODS AND MATERIALS

Preclinical experimentation with in vitro and in vivo model systems regarding the capacity of EGFR blockade, using the monoclonal antibody C225, to modulate SCC tumor growth behavior and response to radiation is presented. The rationale for new clinical trials that are currently exploring this concept are presented.

RESULTS

Blockade of the EGFR system in SCC cell lines with C225 induces G1 cell cycle arrest with an associated decrease in the S-phase fraction. Inhibition of tumor cell proliferation is readily measured following C225 exposure and the corresponding alterations in expression of key regulators of the G1-S cell cycle phase transition are identified. Exposure of SCCs to C225 in culture enhances radiosensitivity following single-dose radiation exposure. Profound augmentation of the in vivo radiation response of SCC tumor xenografts in athymic mice is similarly demonstrated following systemic administration of C225. Preliminary studies are presented regarding potential underlying mechanisms of action for this enhanced tumor response to the combination of C225 and radiation including: (a) proliferative growth inhibition, (b) enhancement of radiation-induced apoptosis, (c) inhibition of damage repair, and (d) downregulation of tumor angiogenic response. Preliminary observations from the Phase III multicenter clinical trial examining C225 plus radiation therapy for advanced H&N cancer patients are provided.

CONCLUSION

Molecular inhibition of the EGFR signal transduction system in combination with radiation represents a promising investigational area in cancer therapeutics. Epithelial tumors that are rich in their expression of EGFR (e.g., SCC of the H&N) hold special promise for receptor blockade approaches. More broadly, the ultimate therapeutic effect of selected molecular agents which block specific growth factor receptors and signaling pathways may be enhanced when delivered in combination with radiation.

Therapeutic targets in radiotherapy

BACKGROUND

Enormous progress has been made in the past 5 years in our understanding of the gene products governing the response of mammalian cells to ionizing radiation. Many of these are potential targets for enhancing the effectiveness of radiotherapy. However, a major barrier to such efforts is the requirement for a preferential effect on tumor vs. normal cells. Such a requirement can only come about by exploiting a known difference between tumor and normal cells.

METHODS

This review highlights three differences between tumor and normal cells that are being exploited with fractionated radiotherapy.

RESULTS

The three strategies to enhance preferentially tumor response to radiotherapy are inhibition of ras activity using farnesyltransferase inhibitors (FTIs), inhibition of epidermal growth factor receptors (EGFRs), and the use of drugs that preferentially kill hypoxic cells. Each of these strategies exploits a known difference between at least some tumors and their surrounding normal tissues, and each has shown encouraging results when combined with fractionated radiation in preclinical studies.

CONCLUSIONS

For each of the three strategies to enhance preferentially the sensitivity of cancers, the preclinical and early clinical data are promising for their successful application in radiotherapy.