Wheat Bran Polymer Scaffolds: Supporting Triple-Negative Breast Cancer Cell Growth and Development Article Swipe

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Triple-negative breast cancer Bran Breast cancer Chemistry Cancer research Cancer Biology Internal medicine Medicine Organic chemistry Raw material

Arman Hossain , Md Ashiq Mahmud , Kaydee Koistinen , George Davisson , Brooke Roeges , Hayle Boechler , Md Abdur Rahim Badsha , Rasel Ahmed Khan , Michael E. Kjelland , Dorsa Fereydoonpour , Mohiuddin Quadir , Sanku Mallik , Khwaja Hossain ·

YOU? · · 2025 · Open Access · · DOI: https://doi.org/10.20944/preprints202505.1194.v1 · OA: W4410454636

Arabinoxylans (AX) are functional biopolymers, the main non-starch polysaccharides in cereals and other plants. AX is composed of xylose and arabinose, and the ester-linkage of ferulic acid to arabinose confers its bioactive properties. The backbone of AX resembles that of glycosaminoglycans, a major component of the human extracellular matrix. This study explores the potential of wheat bran AX-based scaffolds as a novel platform for the growth and development of triple-negative breast cancer (TNBC) cells, an aggressive form of breast cancer. Importantly, patients face the worst prognosis due to the stemness of the TNBC cells and the formation of hypoxic cell clumps. Wheat bran constitutes 15%- 25% of the byproducts after milling and adds limited economic value. We have extracted AX from wheat bran (WBAX) and developed soft scaffolds with Na-alginate. The scaffolds were seeded with the triple-negative breast cancer cell line MDA-MB-231. Over 21 days, cell growth and development, cell migration within the hydrogels, maintenance of cell stemness, and the formation of hypoxic regions within cell clumps were observed. These findings suggest that WBAX-based scaffolds provide a conducive environment for TNBC cell proliferation and development, offering a promising avenue for further research into cancer cell biology and potential therapeutic applications.