Establishment and characterization of turtle liver organoids provides a potential model to decode their unique adaptations.
Christopher ZdyrskiVojtech GabrielThea B GesslerAbigail RalstonItzel Sifuentes-RomeroDebosmita KunduSydney HonoldHannah WickhamNicholas E ToppingDipak Kumar SahooBasanta BistaJeffrey TamplinOscar OspinaPablo PiñeyroMarco A ArriagaJacob A GalanDavid K MeyerholzKarin AllenspachJonathan P MochelNicole ValenzuelaPublished in: Communications biology (2024)
Painted turtles are remarkable for their freeze tolerance and supercooling ability along with their associated resilience to hypoxia/anoxia and oxidative stress, rendering them an ideal biomedical model for hypoxia-induced injuries (including strokes), tissue cooling during surgeries, and organ cryopreservation. Yet, such research is hindered by their seasonal reproduction and slow maturation. Here we developed and characterized adult stem cell-derived turtle liver organoids (3D self-assembled in vitro structures) from painted, snapping, and spiny softshell turtles spanning ~175My of evolution, with a subset cryopreserved. This development is, to the best of our knowledge, a first for this vertebrate Order, and complements the only other non-avian reptile organoids from snake venom glands. Preliminary characterization, including morphological, transcriptomic, and proteomic analyses, revealed organoids enriched in cholangiocytes. Deriving organoids from distant turtles and life stages demonstrates that our techniques are broadly applicable to chelonians, permitting the development of functional genomic tools currently lacking in herpetological research. Such platform could potentially support studies including genome-to-phenome mapping, gene function, genome architecture, and adaptive responses to climate change, with implications for ecological, evolutionary, and biomedical research.
Keyphrases
- climate change
- genome wide
- oxidative stress
- induced pluripotent stem cells
- high resolution
- human health
- single cell
- copy number
- dna damage
- lymph node
- endothelial cells
- high throughput
- mass spectrometry
- ischemia reperfusion injury
- social support
- depressive symptoms
- bone marrow
- young adults
- heat shock
- genome wide analysis