The deposition of collagen-rich desmoplastic tissue is a well-documented feature of the solid tumor microenvironment (TME). However, efforts to target the desmoplastic extracellular matrix (ECM) en masse, or collagen molecules more specifically, have been met with mixed and sometimes paradoxical results. In this review, we posit that these discrepancies are due-at least in part-to the incredible diversity of the collagen superfamily. Specifically, whereas studies of "collagen-targeting" approaches frequently refer to "collagen" as a single molecule or relatively homogeneous molecular family, 28 individual collagens have been identified in mammalian tissues, each with a unique structure, supramolecular assembly pattern, tissue distribution, and/or function. Moreover, some collagen species have been shown to exert both pro- and anti-neoplastic effects in the desmoplastic TME, even within the same cancer type. Therefore, herein, we describe the diversity of the collagen family in normal tissues and highlight the context-specific roles of individual collagen molecules in desmoplastic tumors. We further discuss how this heterogeneity relates to the variable efficacy of "collagen-targeting" strategies in this setting and provide guidance for future directions in the field.
Keywords: cancer-associated fibroblast; collagen biosynthesis; desmoplasia; extracellular matrix; stromal depletion; tumor microenvironment.