Non-autonomy of age-related morphological changes in the C. elegans germline stem cell niche

A decline in tissue renewal and repair due to changes in tissue stem cells is a hallmark of aging. Many stem cell pools are maintained by interaction with morphologically complex local niches. Using the C. elegans hermaphrodite germline stem cell system, we analyzed age-related changes in the morphology of the niche, the distal tip cell (DTC), and identified a molecular mechanism that promotes a subset of these changes. We found that a long-lived daf-2 mutant exhibits a daf-16 -dependent decline in number and length of long DTC processes. Surprisingly, the tissue requirement for daf-16(+) is non-autonomous and is independent of the longevity requirement: daf-16(+) in body wall muscle is both necessary and sufficient. We also determined that pre-formed DTC processes deteriorate prematurely when the underlying germline differentiates. We propose a reciprocal DTC-germline interaction model and speculate a mechanism by which reducing daf-2 activity prevents stem cell exhaustion. These studies establish the C. elegans DTC as a powerful in vivo model for understanding age-related changes in cellular morphology and their consequences in stem cell systems.