Capecitabine efficacy after cycline-dependent-kinase 4/6 inhibitor plus endocrine therapy in metastatic hormone receptor-positive breast cancer.

BACKGROUND: The combination of endocrine treatment with cycline-dependent-kinase 4/6 inhibitor is the new standard of treatment in hormone receptor-positive HER2 negative metastatic breast cancer. The optimal subsequent treatment after CDK4/6 inhibitor remain unclear. As recommended by standard guidelines, capecitabine, an oral chemotherapy is a therapeutic option in endocrine resistant metastatic breast cancer. The objective of this study was to evaluate capecitabine efficacy after disease progression under combination of ET and CDK4/6 inhibitor in a hormone receptor positive metastatic breast cancer population. PATIENTS AND METHODS: Patients progressing under CDK 4/6 inhibitor plus ET and treated with capecitabine, between January 2016 and December 2020, were retrospectively included. Primary endpoint was time to treatment failure (TTF) on capecitabine. Logistic regression were used to identify predictive factors: exclusive bone versus visceral metastases, first-line versus ≥ 2 lines of combination therapy, aromatase inhibitor (AI) versus fulvestrant. RESULTS: Fifty-six patients with a 62-year median age (IC95% 42-81) were analyzed. The CDK 4/6 inhibitor and ET combination was prescribed in first-line setting in 26 patients (46%). Twenty-five patients (44%) had exclusive bone metastasis. Median TTF was 6.1 months. Six patients discontinued capecitabine due to toxicity. Outcomes were not significantly different regardless of metastases localization, ET, and treatment line of the combination of CDK 4/6 inhibitor and ET. Median PFS was 7.1 months. Median OS was 41.3 months. CONCLUSION: Compared to other data of capecitabine prescribed in patients with hormonal resistant MBC, this retrospective study suggests that capecitabine remains effective after CDK 4/6 inhibitor plus ET progression, regardless of therapeutic-line setting and metastases localization. MICRO ABSTRACT: Cycline dependant kinase 4/6 inhibitor plus endocrine therapy have become the standard of care in metastatic hormone receptor positive (HR+) breast cancer (BC). Few data reported the optimal subsequent therapy after progression under the combination. Capecitabine is a therapeutic option in endocrine resistant HR+/HER2- metastatic breast cancer. Data evaluating efficacy of capecitabine after disease progression on endocrine therapy plus cycline-dependant kinase 4/6 inhibitor are poor. This study showed a 6.1-month median time to treatment failure on capecitabine. Capecitabine remained effective regardless of therapeutic-line setting and metastases localization.

A propensity score-weighted study comparing a two- versus four-weekly pegylated liposomal doxorubicin regimen in metastatic breast cancer.

PURPOSE: A 4-weekly schedule of pegylated liposomal doxorubicin (PLD) has been approved for the treatment of metastatic breast cancer (MBC). Phase II trials have suggested interest in a 2-weekly regimen. This study aimed to compare the efficacy and safety of these two schedules. METHODS: Data from MBC patients treated with PLD between 2011 and 2021 were retrospectively collected. The objective was to demonstrate the noninferiority of the 2-weekly versus the 4-weekly schedule in terms of 6-month progression-free survival (PFS). The prespecified noninferiority margin was calculated as 1.20. A propensity score to receive either schedule was estimated using a gradient boosting algorithm. Survival analyses using Cox regression models weighted by the propensity score were performed to compare the schedules. RESULTS: Among the 192 patients included, 96 (50%) underwent each schedule. The median number of previous systemic therapies was 4 (IQR, 3 to 6). Anthracyclines were previously given in early breast cancer in 63.9% of patients. The median follow-up was 10.0 months (IQR, 5.0 to 20.1). A comparable distribution of adverse events was observed. The median PFS was 3.2 months (95% CI, 2.9 to 3.9), and the median overall survival was 12.1 months (95% CI, 10.8 to 14.9). The weighted hazard ratio for PFS was 1.12 (90% CI, 0.82 to 1.54), including the noninferiority boundaries. CONCLUSION: PLD appeared to be a well-tolerated drug in this heavily pretreated MBC population. The efficacy and safety of the 2-weekly schedule did not provide any advantage, suggesting no interest in changing the registered regimen.

Adipose progenitor cells increase fibronectin matrix strain and unfolding in breast tumors.

Increased stiffness represents a hallmark of breast cancer that has been attributed to the altered physicochemical properties of the extracellular matrix (ECM). However, the role of fibronectin (Fn) in modulating the composition and mechanical properties of the tumor-associated ECM remains unclear. We have utilized a combination of biochemical and physical science tools to evaluate whether paracrine signaling between breast cancer cells and adipose progenitor cells regulates Fn matrix assembly and stiffness enhancement in the tumor stroma. In particular, we utilized fluorescence resonance energy transfer imaging to map the molecular conformation and stiffness of Fn that has been assembled by 3T3-L1 preadipocytes in response to conditioned media from MDA-MB231 breast cancer cells. Our results reveal that soluble factors secreted by tumor cells promote Fn expression, unfolding, and stiffening by adipose progenitor cells and that transforming growth factor-ß serves as a soluble cue underlying these changes. In vivo experiments using orthotopic co-transplantation of primary human adipose-derived stem cells and MDA-MB231 into SCID mice support the pathological relevance of our results. Insights gained by these studies advance our understanding of the role of Fn in mammary tumorigenesis and may ultimately lead to improved anti-cancer therapies.

Poly(D,L-lactic acid)-poly(ethylene glycol)-monomethyl ether diblock copolymers control adhesion and osteoblastic differentiation of marrow stromal cells.

Biodegradable polymers, such as poly(lactic acid) (PLA) and poly(lactic-coglycolic acid) (PLGA), are attractive materials for tissue engineering because of their degradative and mechanical properties, which permit scaffolds to be tailored to the individual requirements of different tissues. Although these materials support tissue development, their chemical properties offer no control of cell adhesion or function because their surfaces become immediately masked by adsorbing serum proteins when the materials come into contact with body fluids. Furthermore, adhesion proteins undergo conformational changes and a decrease in bioactivity when adsorbed to hydrophobic materials, such as PLA. To overcome these limitations, we modified the properties of PLA by synthesizing a diblock copolymer with poly(ethylene glycol) (PEG), which is known to reduce the amount of adsorbed proteins and to modify their conformation. By altering the PEG content of these diblock copolymers we were able to control the adsorption of adhesion proteins and, because cell adhesion takes place only in the presence of serum proteins, to control cell adhesion and cell shape. Marrow stromal cell differentiation to the osteoblastic phenotype was strongly improved on PEG-PLA compared with PLA, PLGA and tissue culture polystyrene and led to a 2-fold increase in alkaline phosphatase activity and mineralization.