Publications by authors named "L Buluwela"

Resistance to endocrine therapies (ET) is common in estrogen receptor (ER)-positive breast cancer, and most relapsed patients die with ET-resistant disease. Although genetic mutations provide explanations for some relapses, mechanisms of resistance remain undefined in many cases. Drug-induced epigenetic reprogramming has been shown to provide possible routes to resistance.

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Three quarters of all breast cancers express the estrogen receptor (ER, ESR1 gene), which promotes tumor growth and constitutes a direct target for endocrine therapies. ESR1 mutations have been implicated in therapy resistance in metastatic breast cancer, in particular to aromatase inhibitors. ESR1 mutations promote constitutive ER activity and affect other signaling pathways, allowing cancer cells to proliferate by employing mechanisms within and without direct regulation by the ER.

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Mutations in the estrogen receptor (ESR1) gene are common in ER-positive breast cancer patients who progress on endocrine therapies. Most mutations localise to just three residues at, or near, the C-terminal helix 12 of the hormone binding domain, at leucine-536, tyrosine-537 and aspartate-538. To investigate these mutations, we have used CRISPR-Cas9 mediated genome engineering to generate a comprehensive set of isogenic mutant breast cancer cell lines.

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Estrogen receptor alpha (ER/ESR1) is frequently mutated in endocrine resistant ER-positive (ER+) breast cancer and linked to ligand-independent growth and metastasis. Despite the distinct clinical features of ESR1 mutations, their role in intrinsic subtype switching remains largely unknown. Here we find that ESR1 mutant cells and clinical samples show a significant enrichment of basal subtype markers, and six basal cytokeratins (BCKs) are the most enriched genes.

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Article Synopsis
  • About one-third of ER+ metastatic breast cancers have mutations in the estrogen receptor α (ESR1), primarily linked to resistance to treatments.
  • This study found that ESR1 mutations were present in distant recurrences of breast cancer, not in local ones, indicating a specific role for these mutations in metastasis.
  • Further research showed that these mutations alter cell adhesion properties, leading to more compact circulating tumor cell (CTC) clusters in patients, suggesting that targeting these mutations could be a potential therapeutic strategy for advanced breast cancer.
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