A multi-trap microfluidic chip enabling longitudinal studies of nerve regeneration in Caenorhabditis elegans.
Sertan Kutal GokceEvan Marley HegartySudip MondalPeisen ZhaoNavid GhorashianMassimo A HilliardAdela Ben-YakarPublished in: Scientific reports (2017)
Several sophisticated microfluidic devices have recently been proposed for femtosecond laser axotomy in the nematode C. elegans for immobilization of the animals for surgery to overcome time-consuming and labor-intensive manual processes. However, nerve regeneration studies require long-term recovery of the animals and multiple imaging sessions to observe the regeneration capabilities of their axons post-injury. Here we present a simple, multi-trap device, consisting of a single PDMS (polydimethylsiloxane) layer, which can immobilize up to 20 animals at the favorable orientation for optical access needed for precise laser surgery and high-resolution imaging. The new device, named "worm hospital" allows us to perform the entire nerve regeneration studies, including on-chip axotomy, post-surgery housing for recovery, and post-recovery imaging all on one microfluidic chip. Utilizing the worm hospital and analysis of mutants, we observed that most but not all neurodevelopmental genes in the Wnt/Frizzled pathway are important for regeneration of the two touch receptor neurons ALM and PLM. Using our new chip, we observed that the cwn-2 and cfz-2 mutations significantly reduced the reconnection possibilities of both neurons without any significant reduction in the regrowth lengths of the severed axons. We observed a similar regeneration phenotype with cwn-1 mutation in ALM neurons only.
Keyphrases
- high resolution
- stem cells
- high throughput
- circulating tumor cells
- minimally invasive
- coronary artery bypass
- single cell
- wound healing
- spinal cord
- healthcare
- mass spectrometry
- surgical site infection
- cell proliferation
- case control
- genome wide
- adverse drug
- percutaneous coronary intervention
- coronary artery disease
- transcription factor
- photodynamic therapy
- bioinformatics analysis