What happens to collagen when mechanical loading and increased tension are applied?

• A. It breaks down easily
• B. It becomes less flexible
• C. It increases in synthesis and strength
• D. It loses its structural integrity

Answer: (C)

When mechanical loading and increased tension are applied to collagen, it responds by undergoing a process of increased synthesis and strength. Collagen, which is a key structural protein in connective tissues, adapts to the demands placed on it. When subjected to tensile forces, the fibroblasts (cells that produce collagen) increase the production of collagen fibers. This results in a denser and stiffer collagen matrix, which enhances the tensile strength of the tissue. This adaptation helps to ensure that the tissues can withstand greater loads and strains without injury, indicating resilience and increased functional capacity.

The other options fall short because they do not accurately reflect the positive adaptive responses of collagen under mechanical stress. While risks of breakdown, decreased flexibility, or loss of structural integrity exist under abnormal conditions or excessive loading, none of these reflect the typical physiological response to controlled mechanical loading. Instead, collagen typically strengthens and becomes more robust through appropriate levels of tension and mechanical loading.