LAUSR

The extracellular matrix (ECM) of tissues is an important mediator of cell function. Moreover, understanding cellular dynamics within their specific tissue context is also important for developmental biology, cancer research, and regenerative medicine. However, robust in vitro models that incorporate tissue-specific microenvironments are lacking. Here we describe a novel mammary-specific culture protocol that combines a self-gelling hydrogel comprised solely of ECM from decellularized rat or human breast tissue with the use of our previously described 3D bioprinting platform. We initially demonstrate that undigested and decellularized mammary tissue can support mammary epithelial and tumor cell growth. We then describe a methodology for generating mammary ECM extracts that can spontaneously gel to form hydrogels. These ECM hydrogels retain unique structural and signaling profiles that elicit differential responses when normal mammary and breast cancer cells are cultured within them. Using our bioprinter, we establish that we can generate large organoids/tumoroids in the all mammary-derived hydrogel. These findings demonstrate that our system allows for growth of organoids/tumoroids in a tissue-specific matrix with unique properties, thus providing a suitable platform for ECM and epithelial/cancer cell studies.