Michal Mekel scite author profile

Although B-Raf V600E is the most common somatic mutation in papillary thyroid carcinoma (PTC), how it induces tumor aggressiveness is not fully understood. Using gene set enrichment analysis and in vitro and in vivo functional studies, we identified and validated a B-Raf V600E gene set signature associated with tumor progression in PTCs. An independent cohort of B-Raf V600E -positive PTCs showed significantly higher expression levels of many extracellular matrix genes compared with controls. We performed extensive in vitro and in vivo validations on thrombospondin-1 (TSP-1), because it has been previously shown to be important in the regulation of tumor angiogenesis and metastasis and is present in abundance in tumor stroma. Knockdown of B-Raf V600E resulted in TSP-1 downregulation and a reduction of adhesion and migration/invasion of human thyroid cancer cells. Knockdown of TSP-1 resulted in a similar phenotype. B-Raf V600E cells in which either B-Raf V600E or TSP-1 were knocked down were implanted orthotopically into the thyroids of immunocompromised mice, resulting in significant reduction in tumor size and fewer pulmonary metastases from the primary carcinoma as compared with the control cells. Treatment of orthotopic thyroid tumors, initiated 1 week after tumor cell implantation with PLX4720, an orally available selective inhibitor of B-Raf V600E , caused a significant tumor growth delay and decreased distant metastases, without evidence of toxicity. In conclusion, B-Raf V600E plays an important role in PTC progression through genes (i.e., TSP-1) important in tumor invasion and metastasis. Testing of a patient's thyroid cancer for B-Raf V600E will yield important information about potential tumor aggressiveness and also allow for future use of targeted therapies with selective B-Raf V600E inhibitors, such as PLX4720. extracellular matrix | metastasis | papillary thyroid cancer | tumor microenvironment | cell invasion P apillary thyroid cancer (PTC), with its incidence increasing by almost 5% each year, currently ranks as the eighth most common malignancy diagnosed in women (1). Neck recurrences alone are responsible for a third of thyroid cancer-related deaths. There is no effective treatment for radioiodine-resistant metastatic disease; the 10-year survival rate in these cases is only 10% (2). Molecular understanding of the aggressive clinical behavior of this subset of patients is needed to develop new therapeutic options.

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A Novel Orthotopic Mouse Model of Human Anaplastic Thyroid Carcinoma

Nucera

Nehs

Mekel

et al. 2009

Thyroid

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Background: Orthotopic mouse models of human cancer represent an important in vivo tool for drug testing and validation. Most of the human thyroid carcinoma cell lines used in orthotopic or subcutaneous models are likely of melanoma and colon cancer. Here, we report and characterize a novel orthotopic model of human thyroid carcinoma using a unique thyroid cancer cell line. Methods: We used the cell line 8505c, originated from a thyroid tumor histologically characterized by anaplastic carcinoma cell features. We injected 8505c cells engineered using a green fluorescent protein-positive lentiviral vector orthotopically into the thyroid of severe combined immunodeficient mice. Results: Orthotopic implantation with the 8505c cells produced thyroid tumors after 5 weeks, showing large neck masses, with histopathologic features of a high-grade neoplasm (anaplasia, necrosis, high mitotic and proliferative indexes, p53 positivity, extrathyroidal invasion, lymph node and distant metastases) and immunoprofile of follicular thyroid cell origin with positivity for thyroid transcription factor-1 and PAX8, and for cytokeratins. Conclusions: Here we describe a novel orthotopic thyroid carcinoma model using 8505c cells. This model can prove to be a reliable and useful tool to investigate in vivo biological mechanisms determining thyroid cancer aggressiveness, and to test novel therapeutics for the treatment of refractory or advanced thyroid cancers.

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Parathyroid carcinoma

Al-Kurd¹,

Mekel²,

Mazeh³

2014

Surgical Oncology

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Parathyroid carcinoma is a rare form of endocrine malignancy accounting for only a small minority of cancer cases. Due to the rarity of this cancer, there are no generalized guidelines for its management; however, surgery remains to be the mainstay therapy. The purpose of this article is to review and summarize the available literature on parathyroid carcinoma, while discussing proposed staging systems and the role of available adjuvant therapies.

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Michal Mekel

B-Raf^V600Eand thrombospondin-1 promote thyroid cancer progression

A Novel Orthotopic Mouse Model of Human Anaplastic Thyroid Carcinoma

Parathyroid carcinoma

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About

Michal Mekel

B-RafV600Eand thrombospondin-1 promote thyroid cancer progression

A Novel Orthotopic Mouse Model of Human Anaplastic Thyroid Carcinoma

Parathyroid carcinoma

Contact Info

Product

Resources

About

B-Raf^V600Eand thrombospondin-1 promote thyroid cancer progression