Karen Wang – Giger Lab

Welcome to the lab, Ayo and Fanny!

Karen Wang — Thu, 25 Aug 2022 20:44:24 +0000

The Giger Lab welcomes two postdoctoral scholars, Ayobami (Ayo) and Qian (Fanny) starting summer of 2022. Welcome to the lab, Ayo and Fanny! We look forward to working with you.

New Publication! Click here for more info.

Karen Wang — Tue, 21 Jun 2022 19:49:02 +0000

Abstract

During mammalian neocortex development, nascent pyramidal neurons migrate along radial glial cells and overtake earlier-born neurons to terminate at the front of the developing cortical plate (CP), leading to the outward expansion of the CP border. While much has been learned about the cellular and molecular mechanisms that underlie the migration of pyramidal neurons, how migrating neurons bypass the preceding neurons at the end of migration to reach their final positions remains poorly understood. Here, we report that Down syndrome cell adhesion molecule (DSCAM) is required for migrating neurons to bypass their post-migratory predecessors during the expansion of the upper cortical layers. DSCAM is a type I transmembrane cell adhesion molecule. It has been linked to Down syndrome through its location in the Down syndrome critical region of Chromosome 21 trisomy and to autism spectrum disorders through loss-of-function mutations. Ex vivo time-lapse imaging demonstrates that DSCAM is required for migrating neurons to bypass their post-migratory predecessors, crossing the CP border to expand the upper cortical layers. In DSCAM-deficient cortices, migrating neurons stop prematurely under the CP border, leading to thinner and denser upper cortical layers. We further show that DSCAM weakens cell adhesion mediated by N-cadherin in the upper cortical plate, allowing migrating neurons to traverse the CP border and expand the CP. These findings suggest that DSCAM is required for proper migratory termination and final positioning of nascent pyramidal neurons, which may provide insight into brain disorders that exhibit thinner upper layers of the cerebral cortex without neuronal loss.

Link to the full article here!

New Publication!

Karen Wang — Sat, 05 Jun 2021 16:02:00 +0000

Neuronal injury can cause mitochondrial damage, leading to reduced energy production, decreased Ca²⁺ storage capacity, and increased reactive oxygen species. A new study reveals a mechanism to trigger the axonal transport of previously anchored mitochondria and promote neuroprotection and axon regeneration by replacing damaged with functional mitochondria. Check out the full article to learn more by clicking the link below!

LINK: Neurobiology: Resetting the axon’s batteries – PubMed (nih.gov)

Welcome to the Giger Lab, Mitre!

Karen Wang — Thu, 03 Jun 2021 15:56:33 +0000

Mitre is a first-year graduate student in the Neuroscience Program who will be completing his thesis work in the Giger Lab. Looking forward to working with you!

Welcome to the lab, Karen!

Karen Wang — Thu, 18 Mar 2021 19:38:55 +0000

The Giger lab is thrilled to announce Karen Wang will be joining us in completing her thesis! We look forward to working with you!

Lucas Huffman Awarded 2020 Sarah Winans Newman Graduate Student Teaching Award!

Karen Wang — Tue, 16 Mar 2021 17:42:10 +0000

We congratulate Lucas Huffman on receiving the 2020 Sarah Winans Newman Graduate Student Teaching Award!

The Giger lab welcomes Matt to the group!

Karen Wang — Tue, 16 Mar 2021 17:38:07 +0000

We are excited to announce Matthew Finneran will be joining our lab! Matt had a great rotation, and has decided to complete his thesis with the Giger lab. We look forward to fun and productive future working together!

The pre-print is out!

Karen Wang — Thu, 29 Oct 2020 16:48:37 +0000

We are so excited to share our pre-print! We thank all the wonderful people who made this possible including Choya Yoon, Lucas Huffman, Ashley Kalinski, Patrick Duncker, and many more!

Check it out!

https://www.biorxiv.org/content/10.1101/2020.10.23.352872v2

Congratulations to Rafi Kohen, PhD!

Karen Wang — Wed, 12 Aug 2020 00:35:04 +0000

Rafi Kohen successfully defended his thesis “Small Hairpin RNA Interference in Neurons: RNA Sequencing Reveals Robust Synaptic Regulation Independent of Primary Target” on March 13 at the University of Michigan. He remained in the Giger lab through the summer to finishing and submitting his manuscript. Rafi is now off to Europe! We wish him the best of luck in all his future endeavors!

Congratulations Tony!

Karen Wang — Wed, 05 Aug 2020 21:08:09 +0000

Tony Robinson was awarded a T32 training grant through the Department of Cellular and Molecular Biology. A job well done!