Janet Germeraad and Jason Patterson honored as July 2023 APAC Advisers of the Month
The Association of Professional Advisers & Counselors (APAC) at UW awarded the Department of Biology's Janet Germeraad and Jason Patterson as the July 2023 APAC Advisers of the Month. Janet is the Director of Academic Services and Jason is a Senior Academic Counselor. They have supported thousands of students over the past 20 years in the Department of Biology; we congratulate them both on their well-deserved recognition!
Zebrafish Cutaneous Injury Models Reveal That Langerhans Cells Engulf Axonal Debris in Adult Epidermis
Somatosensory neurons extend enormous peripheral axons to the skin, where they detect diverse environmental stimuli. Somatosensory peripheral axons are easily damaged due to their small caliber and superficial location. Axonal damage results in Wallerian degeneration, creating vast quantities of cellular debris that phagocytes must remove to maintain organ homeostasis. The cellular mechanisms that ensure efficient clearance of axon debris from stratified adult skin are unknown. Here, we established zebrafish scales as a tractable model to study axon degeneration in the adult epidermis.
Dermal Appendage-Dependent Patterning of Zebrafish Atoh1a+ Merkel Cells
Touch system function requires precise interactions between specialized skin cells and somatosensory axons, as exemplified by the vertebrate mechanosensory Merkel cell-neurite complex. Development and patterning of Merkel cells and associated neurites during skin organogenesis remain poorly understood, partly due to the in utero development of mammalian embryos. Here, we discover Merkel cells in the zebrafish epidermis and identify Atonal homolog 1a (Atoh1a) as a marker of zebrafish Merkel cells.