Marinella Messina

Molecular genetics of thyroid tumors and surgical decision-making.

The study of thyroid tumor genetics has great relevance to surgeons and facilitates understanding tumor pathogenesis, prediction of tumor behavior, and management decisions. The genes implicated can be broadly categorized as oncogenes or tumor-suppressor genes. The RET oncogene has well established roles in the development of both papillary (PTC) and medullary (MTC) thyroid carcinoma. Genetic screening for germline RET mutations in members of multiple endocrine neoplasia type II (MEN-II) families is now widely performed, and prophylactic thyroidectomy in gene carriers is advisable at an early age. Patients with apparently sporadic MTC can also be screened to rule out familial disease. The demonstration of a RET rearrangement in a patients PTC may have prognostic significance, but as yet there are no management implications. The thyrotropin receptor (TSH-R) and Gsα become oncogenic through point mutation and are associated with the development of toxic thyroid adenomas. The ras oncogene is implicated in the early stages of development of several thyroid tumor types. Tumor-suppressor genes also have a role in thyroid tumor formation. The p53 gene appears to be involved in the process of transformation to the anaplastic phenotype and the PTEN gene in the development of follicular adenomas but not carcinomas. There is still limited evidence for the so called adenoma–carcinoma sequence of the thyroid follicular cell. Loss of heterozygosity studies have enabled identification of tumor-suppressor genes, and their findings suggests differences in the pathogenesis of PTCs compared with follicular cancers. Surgical decision-making will benefit from these basic molecular advances, which rapidly translates into improved patient management.

Effective gene therapy for medullary thyroid carcinoma using recombinant adenovirus inducing tumor-specific expression of interleukin-12

No satisfactory treatment of metastatic medullary thyroid carcinoma (MTC) is available. Cell-specific gene therapy offers a new approach. We have constructed a recombinant replication-defective adenoviral vector expressing murine interleukin-12 (mIL-12), driven by a modified CALC-I promoter (TCP). This vector (AdTCPmIL-12) includes two separate cassettes encoding mIL-12 p35 or p40 subunit controlled by TCP inserted in the E1 region of adenovirus type 5. In vitro and in vivo reporter gene expression using TCP revealed its cell-specific activity. AdTCPmIL-12-infected rat MTC (rMTC) cells produced high amounts of functional mIL-12 cells in vitro, while other cell lines infected with AdTCPmIL-12 did not. AdTCPmIL-12-transduced rMTC cells completely lost their tumorigenicity in syngenic WAG/Rij rats. Direct injection of 1 × 109 plaque forming units of AdTCPmIL-12 into subcutaneous rMTC tumors in WAG/Rij rats caused tumor regression in over 60% of animals within 20 days. Rats cured of tumors did not develop tumors after re-injection of naive rMTC cells, demonstrating lasting immunity. Treatment with AdTCPmIL-12 of one tumor resulted in regression of an established tumor at a distant site. Moreover, intratumoral or intravenous injection of AdTCPmIL-12 did not induce evident toxicity. These results indicate AdTCPmIL-12 can contribute to effective and less toxic gene therapy of MTC.

Adenovirus-mediated tumor-specific combined gene therapy using Herpes simplex virus thymidine/ganciclovir system and murine interleukin-12 induces effective antitumor activity against medullary thyroid carcinoma

The present treatment of advanced and metastatic medullary thyroid carcinoma (MTC) is unsatisfactory. Tissue-specific cancer gene therapy is a novel alternative approach. We developed a recombinant adenovirus expressing Herpes simplex type 1 thymidine kinase (HSVtk) driven by a modified CALC-I promoter TCP (AdTCPtk). Infection with this virus showed efficient cytotoxic effect on MTC cell lines (rMTC and TT cells) after treatment with ganciclovir (GCV) in vitro. In a syngenic WAG/Rij rat model, the combination of AdTCPtk/GCV treatment with administration of murine interleukin-12 (mIL-12) expressing adenovirus under control of TCP (AdTCPmIL-12) resulted in effective growth suppression of tumor at the treated site and also at a distant untreated site, in comparison to treatment with AdTCPtk/GCV or AdTCPmIL-12 alone. Moreover, intravenous injection of AdTCPtk, or AdTCPtk+AdTCPmIL-12, followed by administration of GCV, did not cause evident toxicity after administration of GCV. These results indicate that this combined system can provide an effective therapy for metastatic MTC with minimal toxicity.

High level, tissue-specific expression of a modified calcitonin/calcitonin gene-related peptide promoter in a human medullary thyroid carcinoma cell line.

The efficient and high level expression of therapeutic genes in target cells is critical for effective gene therapy. We have developed a novel promoter by utilizing tandem repeats of a tissue-specific regulatory element from the calcitonin/calcitonin gene-related peptide (CT/CGRP) gene placed in close proximity to a basal promoter, thereby removing interstitial sequences. This promoter drives expression of reporter genes at much higher levels than the natural promoter while significantly improving specificity in thyroid C cells.

Technology Insight: gene therapy and its potential role in the treatment of medullary thyroid carcinoma

Metastatic medullary thyroid cancer (MTC) responds poorly to conventional treatments with chemotherapy and radiotherapy. Gene therapy—the transfer of genetic material for therapeutic purposes—might have therapeutic potential for patients with progressive metastatic MTC that is incurable by conventional treatments. To date, a number of gene-therapy strategies have been explored, primarily those that use replication-deficient adenovirus vectors to transfer therapeutic genes to tumor cells. Tissue-specific expression of the promoter for calcitonin and calcitonin-related polypeptide α has allowed therapeutic genes to be specifically expressed in calcitonin-secreting cells and in the MTC tumors derived from them; such tissue-specific expression contributes to improved safety of gene therapies and has the potential to increase their therapeutic index. In addition, the identification of an MTC-specific peptide ligand raises the possibility of developing an MTC-selective vector. In this article, we have described the exciting area of gene therapy in the management of MTC with a focus on preclinical in vitro and in vivo MTC models.

Loss of prostaglandin D2 synthase: a key molecular event in the transition of a low-grade astrocytoma to an anaplastic astrocytoma

Reduction in the mRNA and protein expression of lipocalin-like prostaglandin D2 (PGD2) synthase (PGDS), the main arachidonic acid metabolite produced in neurons and glial cells of the central nervous system, is a significant biological event involved in the malignant progression of astrocytomas and is predictive of poor survival. In vitro, the addition of the main PGDS metabolite, PGD2, to A172 glioblastoma cells devoid of PGDS resulted in antiproliferative activity and cell death. In vitro PGD2 substitution also enhanced the efficacy of cyclo-oxygenase-2 inhibitors. This finding has exciting implications for early interventional efforts for the grade 2 and 3 astrocytomas. [Mol Cancer Ther 2008;7(10):3420–8]

Medullary thyroid carcinoma presenting with an initial CEA elevation

Background:  Carcinoembryonic antigen (CEA) is a tumour marker commonly associated with gastrointestinal malignancy. Patients presenting with an elevated CEA will therefore often undergo extensive investigations in order to elucidate an underlying gastrointestinal malignancy that may not be clinically apparent. However the GI tract is not the only source of CEA elevation.

Gene therapy for endocrine tumors: strategies and progress

Malignant endocrine tumors are relatively rare, but they may cause significant morbidity and mortality. Metastatic disease is not generally amenable to surgery, chemotherapy, or radiotherapy. There is therefore great interest in developing gene therapy as a treatment for metastases and for some primary endocrine tumors. Current gene therapy strategies largely involve the use of gene-directed enzyme pro-drug therapy (GDEPT) and using recombinant adenovirus vectors. In this review the authors examine the basic strategies used in GDEPT, progress in this area, and future directions of this work.