Speaker: Alejandro Sanchez Alvarado

• Priscilla Wood Neaves Chair in the Biomedical Sciences
• President and Chief Scientific Officer - Stowers Institute for Medical Research in Kansas City
• Investigator Emeritus - Howard Hughes Medical Institute (HHMI)

Title: "Understanding the sources of regenerative capacity in animals"

Abstract: It is paradoxical that for many organisms (including humans), the apparent anatomical stability of their adult bodies is maintained by constant change. Despite the importance of tissue homeostasis and regeneration to human biology and health, relatively little is known about how these processes are regulated. As such, numerous questions remain unanswered, including: How do organ systems maintain their order and function while in a state of cell flux? How do animals control and coordinate the size and cell number of multiple organ systems? Does regeneration of body parts lost to injury invoke embryonic processes, generic patterning mechanisms, or unique circuitry comprised of well-established patterning genes? Answering any of these questions would set a baseline from which to try to enhance regenerative properties in multicellular organisms such as humans, particularly after injury.

One way to solve a complex problem is to reduce it to a simpler, easier to answer problem. Therefore, reducing the complexities of regeneration and tissue homeostasis to the study of comparatively simpler systems would allow for a systematic dissection and mechanistic understanding of these processes. Here, I will discuss how the use of single-cell and spatial transcriptomics is helping define the cellular and molecular environments that support pluripotency in the highly regenerative freshwater planarian Schmidtea mediterranea and regeneration of missing organs in the hemichordate Ptychodera flava. Our studies are beginning to shed light on the way adult animals regulate tissue homeostasis and the replacement of body parts lost to injury.

Host: Anurag Das, graduate student in the Bai Lab