Abstract
Extracellular matrix dynamics are key to tissue morphogenesis, homeostasis, injury, and repair. The spatiotemporal organization of this matrix has profound biological implications, but is challenging to monitor using standard techniques. Here, we address these challenges by using noncanonical amino acid tagging to fluorescently label extracellular matrix synthesized in the presence of bio-orthogonal methionine analogs. This strategy labels matrix proteins with high resolution, without compromising their distribution or mechanical function. We demonstrate that the organization and temporal dynamics of the proteinaceous matrix depend on the biophysical features of the microenvironment, including the biomaterial scaffold and the niche constructed by cells themselves. Pulse labeling experiments reveal that, in immature constructs, nascent matrix is highly fibrous and interdigitates with pre-existing matrix, while in more developed constructs, nascent matrix lacks fibrous organization and is retained in the immediate pericellular space. Inhibition of collagen crosslinking increases matrix synthesis, but compromises matrix organization. Finally, these data demonstrate marked cell-to-cell heterogeneity amongst both chondrocytes and mesenchymal stem cells undergoing chondrogenesis. Collectively, these results introduce fluorescent noncanonical amino acid tagging as a strategy to investigate spatiotemporal matrix organization, and demonstrate its ability to identify differences in phenotype, microenvironment, and matrix assembly at the single cell level.
Highlights
Information regarding the spatial organization of the matrix
We introduce the use of a metabolic labeling approach, functional noncanonical amino acid tagging (FUNCAT), to enable high fidelity fluorescent observation of nascent extracellular matrix protein accumulation and assembly
While many non-canonical amino acids (ncAA) exist and collectively offer a diverse suite of functions, the ncAAs utilized in FUNCAT are restricted to those that contain bio-orthogonal functional groups that can be detected by highly selective fluorescent tags following ncAA incorporation
Summary
Autoradiography with radiolabeled sulfate and proline can provide insight into the localization of proteoglycans and collagens around individual cells, and has demonstrated temporal changes in the rate and spatial distribution of secreted matrix[6,7,8] This approach is inherently complicated by its use of radioisotopes. The punctate pattern of autoradiographic grains offers limited information regarding the structure and organization of this nascent extracellular matrix To overcome these limitations, we introduce the use of a metabolic labeling approach, functional noncanonical amino acid tagging (FUNCAT), to enable high fidelity fluorescent observation of nascent extracellular matrix protein accumulation and assembly. We use this labeling approach to query cell-to-cell heterogeneity in matrix formation and to determine how the density of the microenvironment, crosslinking of nascent ECM proteins, and the pre-established ECM influence matrix protein distribution and assembly on a single cell basis using both primary chondrocytes and mesenchymal stem cells undergoing chondrogenic differentiation
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