Targeting Src tyrosine kinase to enhance radioiodide uptake in breast cancer
Sodium iodide symporter (NIS) expression in breast cancer renders radioiodide (RAI) a promising treatment modality. However, insufficient functional NIS within the plasma membrane limits RAI uptake (RAIU). We aimed to elucidate NIS regulatory mechanisms that impede RAIU in breast cancer and identify...
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| Published in | Endocrine-related cancer Vol. 32; no. 8; p. 1 |
|---|---|
| Main Authors | , , , , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
England
Society for Endocrinology & BioScientifica Ltd
01.08.2025
Bioscientifica Ltd |
| Subjects | |
| Online Access | Get full text |
| ISSN | 1351-0088 1479-6821 1479-6821 |
| DOI | 10.1530/ERC-24-0312 |
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| Abstract | Sodium iodide symporter (NIS) expression in breast cancer renders radioiodide (RAI) a promising treatment modality. However, insufficient functional NIS within the plasma membrane limits RAI uptake (RAIU). We aimed to elucidate NIS regulatory mechanisms that impede RAIU in breast cancer and identify molecular targets for stimulating RAI-avidity in breast tumours. Mechanistic interaction between pituitary tumor-transforming gene-binding factor (PBF/PTTG1IP) and NIS was investigated through NanoBiT, co-immunoprecipitation, immunofluorescent microscopy, subcellular localisation and RAIU assays utilising wild-type and CRISPR-Cas9 PBF knockout breast cancer cells. In breast cancer cells, NIS:PBF interaction resulted in diminished RAIU, reversible through reduced PBF phosphorylation by the Src inhibitor dasatinib. Src overexpression diminished RAIU in a PBF-dependent manner that was mediated by Src myristoylation by N-myristoyltransferase 1 (NMT1). NMT1 inhibition significantly enhanced RAIU via Src and PBF in breast and thyroid cancer cells. Bioinformatic analyses revealed clinical associations between high Src and NMT1 expression and increased tumour recurrence in RAI-treated thyroid cancers indicating RAI-resistance. In breast cancer, high PBF and Src expression was associated with the more aggressive tumours that are most likely to benefit from targeted RAI therapy. We describe a new NIS regulatory pathway in breast cancer cells via Src myristoylation and PBF phosphorylation and show that the same pathway exists in thyroid cells, the canonical setting for the exploitation of NIS function. These findings reveal that PBF interaction with NIS may be modulated by Src, which in turn is susceptible to NMT inhibition, and suggest that targeting NMT1 may represent an innovative approach for augmenting RAI-avidity in breast cancer. |
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| AbstractList | Sodium iodide symporter (NIS) expression in breast cancer renders radioiodide (RAI) a promising treatment modality. However, insufficient functional NIS within the plasma membrane limits RAI uptake (RAIU). We aimed to elucidate NIS regulatory mechanisms that impede RAIU in breast cancer and identify molecular targets for stimulating RAI-avidity in breast tumours. Mechanistic interaction between pituitary tumor-transforming gene-binding factor (PBF/PTTG1IP) and NIS was investigated through NanoBiT, co-immunoprecipitation, immunofluorescent microscopy, subcellular localisation and RAIU assays utilising wild-type and CRISPR-Cas9 PBF knockout breast cancer cells. In breast cancer cells, NIS:PBF interaction resulted in diminished RAIU, reversible through reduced PBF phosphorylation by the Src inhibitor dasatinib. Src overexpression diminished RAIU in a PBF-dependent manner that was mediated by Src myristoylation by N-myristoyltransferase 1 (NMT1). NMT1 inhibition significantly enhanced RAIU via Src and PBF in breast and thyroid cancer cells. Bioinformatic analyses revealed clinical associations between high Src and NMT1 expression and increased tumour recurrence in RAI-treated thyroid cancers indicating RAI-resistance. In breast cancer, high PBF and Src expression was associated with the more aggressive tumours that are most likely to benefit from targeted RAI therapy. We describe a new NIS regulatory pathway in breast cancer cells via Src myristoylation and PBF phosphorylation and show that the same pathway exists in thyroid cells, the canonical setting for the exploitation of NIS function. These findings reveal that PBF interaction with NIS may be modulated by Src, which in turn is susceptible to NMT inhibition, and suggest that targeting NMT1 may represent an innovative approach for augmenting RAI-avidity in breast cancer. Sodium iodide symporter (NIS) expression in breast cancer renders radioiodide (RAI) a promising treatment modality. However, insufficient functional NIS within the plasma membrane limits RAI uptake (RAIU). We aimed to elucidate NIS regulatory mechanisms that impede RAIU in breast cancer and identify molecular targets for stimulating RAI-avidity in breast tumours. Mechanistic interaction between pituitary tumor-transforming gene-binding factor (PBF/PTTG1IP) and NIS was investigated through NanoBiT, co-immunoprecipitation, immunofluorescent microscopy, subcellular localisation and RAIU assays utilising wild-type and CRISPR-Cas9 PBF knockout breast cancer cells. In breast cancer cells, NIS:PBF interaction resulted in diminished RAIU, reversable through reduced PBF phosphorylation by the Src inhibitor dasatinib. Src overexpression diminished RAIU in a PBF-dependent manner that was mediated by Src myristoylation by N-Myristoyltransferase 1 (NMT1). NMT1 inhibition significantly enhanced RAIU via Src and PBF in breast and thyroid cancer cells. Bioinformatic analyses revealed clinical associations between high Src and NMT1 expression and increased tumour recurrence in RAI-treated thyroid cancers indicating RAI-resistance. In breast cancer, high PBF and Src expression was associated with the more aggressive tumours that are most likely to benefit from targeted RAI therapy. We describe a new NIS regulatory pathway in breast cancer cells via Src myristoylation and PBF phosphorylation and show that the same pathway exists in thyroid cells, the canonical setting for the exploitation of NIS function. These findings reveal that PBF interaction with NIS may be modulated by Src, which in turn is susceptible to NMT inhibition, and suggest that targeting NMT1 may represent an innovative approach for augmenting RAI-avidity in breast cancer.Sodium iodide symporter (NIS) expression in breast cancer renders radioiodide (RAI) a promising treatment modality. However, insufficient functional NIS within the plasma membrane limits RAI uptake (RAIU). We aimed to elucidate NIS regulatory mechanisms that impede RAIU in breast cancer and identify molecular targets for stimulating RAI-avidity in breast tumours. Mechanistic interaction between pituitary tumor-transforming gene-binding factor (PBF/PTTG1IP) and NIS was investigated through NanoBiT, co-immunoprecipitation, immunofluorescent microscopy, subcellular localisation and RAIU assays utilising wild-type and CRISPR-Cas9 PBF knockout breast cancer cells. In breast cancer cells, NIS:PBF interaction resulted in diminished RAIU, reversable through reduced PBF phosphorylation by the Src inhibitor dasatinib. Src overexpression diminished RAIU in a PBF-dependent manner that was mediated by Src myristoylation by N-Myristoyltransferase 1 (NMT1). NMT1 inhibition significantly enhanced RAIU via Src and PBF in breast and thyroid cancer cells. Bioinformatic analyses revealed clinical associations between high Src and NMT1 expression and increased tumour recurrence in RAI-treated thyroid cancers indicating RAI-resistance. In breast cancer, high PBF and Src expression was associated with the more aggressive tumours that are most likely to benefit from targeted RAI therapy. We describe a new NIS regulatory pathway in breast cancer cells via Src myristoylation and PBF phosphorylation and show that the same pathway exists in thyroid cells, the canonical setting for the exploitation of NIS function. These findings reveal that PBF interaction with NIS may be modulated by Src, which in turn is susceptible to NMT inhibition, and suggest that targeting NMT1 may represent an innovative approach for augmenting RAI-avidity in breast cancer. |
| Author | Boelaert, Kristien Hariharan, Aditi Fletcher, Alice Smith, Vicki E Kocbiyik, Merve Thornton, Caitlin E M Brookes, Katie McCabe, Christopher J Read, Martin L Manivannan, Selvambigai Alshahrani, Mohammed M Poole, Vikki L Thompson, Rebecca J Landa, Iñigo |
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| Keywords | PBF/PTTG1IP NIS Src myristoylation breast cancer radioiodide |
| Language | English |
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| Notes | ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 14 content type line 23 C J McCabe and V E Smith contributed equally as senior authors V L Poole, M M Alshahrani and M L Read contributed equally to this work |
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| SubjectTerms | Avidity Brain tumors Breast cancer Breast Neoplasms - metabolism Breast Neoplasms - pathology Breast Neoplasms - radiotherapy Cell Line, Tumor CRISPR Dasatinib - pharmacology Female Humans Immunoprecipitation Iodine Radioisotopes - metabolism Iodine Radioisotopes - therapeutic use Kinases Myristoylation N-Myristoyltransferase Phosphorylation Pituitary Securin Sodium iodide Sodium iodide symporter src-Family Kinases - antagonists & inhibitors src-Family Kinases - metabolism Symporters - metabolism Thyroid cancer Thyroid gland Tumors |
| Title | Targeting Src tyrosine kinase to enhance radioiodide uptake in breast cancer |
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