Korean J Nucl Med.  2004 Apr;38(2):152-160.

Molecular Imaging Using Sodium Iodide Symporter (NIS)

Affiliations
  • 1Department of Oral Biochemistry, Kyungpook National University School of Dentistry, Daegu, Korea. jeycho@knu.ac.kr

Abstract

Radioiodide uptake in thyroid follicular epithelial cells, mediated by a plasma membrane transporter, sodium iodide symporter (NIS), provides a first step mechanism for thyroid cancer detection by radioiodide injection and effective radioiodide treatment for patients with invasive, recurrent, and/or metastatic thyroid cancers after total thyroidectomy. NIS gene transfer to tumor cells may significantly and specifically enhance internal radioactive accumulation of tumors following radioiodide administration, and result in better tumor control. NIS gene transfers have been successfully performed in a variety of tumor animal models by either plasmid-mediated transfection or virus (adenovirus or retrovirus) -mediated gene delivery. These animal models include nude mice xenografted with human melanoma, glioma, breast cancer or prostate cancer, rats with subcutaneous thyroid tumor implantation, as well as the rat intracranial glioma model. In these animal models, non-invasive imaging of in vivo tumors by gamma camera scintigraphy after radioiodide or technetium injection has been performed successfully, suggesting that the NIS can serve as an imaging reporter gene for gene therapy trials. In addition, the tumor killing effects of I-131, ReO4-188 and At-211 after NIS gene transfer have been demonstrated in in vitro clonogenic assays and in vivo radioiodide therapy studies, suggesting that NIS gene can also serve as a therapeutic agent when combined with radioiodide injection. Better NIS-mediated imaging and tumor treatment by radioiodide requires a more efficient and specific system of gene delivery with better retention of radioiodide in tumor. Results thus far are, however, promising, and suggest that NIS gene transfer followed by radioiodide treatment will allow non-invasive in vivo imaging to assess the outcome of gene therapy and provide a therapeutic strategy for a variety of human diseases.

Keyword

NIS; Molecular imaging; Gene therapy; Thyroid

MeSH Terms

Animals
Breast Neoplasms
Cell Membrane
Epithelial Cells
Gamma Cameras
Genes, Reporter
Genetic Therapy
Glioma
Heterografts
Homicide
Humans
Ion Transport*
Melanoma
Mice
Mice, Nude
Models, Animal
Molecular Imaging*
Prostatic Neoplasms
Radionuclide Imaging
Rats
Sodium Iodide*
Sodium*
Technetium
Thyroid Gland
Thyroid Neoplasms
Thyroidectomy
Transfection
Sodium
Sodium Iodide
Technetium
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