Abstract
BackgroundUse of cyclin D1 (CCND1) gene amplification as a breast cancer biomarker has been hampered by conflicting assessments of the relationship between cyclin D1 protein levels and patient survival. Here, we aimed to clarify its prognostic and treatment predictive potential through comprehensive long-term survival analyses.MethodsCCND1 amplification was assessed using SNP arrays from two cohorts of 1965 and 340 patients with matching gene expression array and clinical follow-up data of over 15 years. Kaplan-Meier and multivariable Cox regression analyses were used to determine survival differences between CCND1 amplified vs. non-amplified tumours in clinically relevant patient sets, within PAM50 subtypes and within treatment-specific subgroups. Boxplots and differential gene expression analyses were performed to assess differences between amplified vs. non-amplified tumours within PAM50 subtypes.ResultsWhen combining both cohorts, worse survival was found for patients with CCND1-amplified tumours in luminal A (HR = 1.68; 95% CI, 1.15–2.46), luminal B (1.37; 1.01–1.86) and ER+/LN−/HER2− (1.66; 1.14–2.41) subgroups. In gene expression analysis, CCND1-amplified luminal A tumours showed increased proliferation (P < 0.001) and decreased progesterone (P = 0.002) levels along with a large overlap in differentially expressed genes when comparing luminal A and B-amplified vs. non-amplified tumours.ConclusionsOur results indicate that CCND1 amplification is associated with worse 15-year survival in ER+/LN−/HER2−, luminal A and luminal B patients. Moreover, luminal A CCND1-amplified tumours display gene expression changes consistent with a more aggressive phenotype. These novel findings highlight the potential of CCND1 to identify patients that could benefit from long-term treatment strategies.
Highlights
Use of cyclin D1 (CCND1) gene amplification as a breast cancer biomarker has been hampered by conflicting assessments of the relationship between cyclin D1 protein levels and patient survival
We focus on clinically relevant patient subgroups including all, Oestrogen receptor alpha (ER)-positive/lymph node negative/ human epidermal growth factor receptor 2 negative (ER +/Lymph node (LN)−/Human epidermal growth factor 2 (HER2)−), ER+/LN+/HER2−, HER2+ and triple negative breast cancers (TNBCs), as well as the PAM50 subtypes and treatment-specific subgroups
CCND1 amplification predicts poor long-term survival in ER+ breast cancer patient subgroups in cohort 1, we examined the relationship between CCND1 amplification and long-term breast cancer-specific survival (BCSS) in clinically relevant patient subgroups defined by IHC/nodal status, PAM50 gene expression subtype or treatment received
Summary
Use of cyclin D1 (CCND1) gene amplification as a breast cancer biomarker has been hampered by conflicting assessments of the relationship between cyclin D1 protein levels and patient survival. Overexpression of its protein has been found in 50–70% of breast cancers [3,4,5,6] whilst amplification of its corresponding gene, CCND1, has been shown in approximately 9–30% of cases [7,8,9,10,11]. Overexpression of cyclin D1 protein has been linked to both better [9, 16,17,18] and worse prognosis [19, 20] in Lundberg et al Breast Cancer Research (2019) 21:34 breast cancer patients These results are in clear contrast to the consistent prognostic message of tumour aggressively and reduced survival provided by CCND1 amplification
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