News

How do we prepare early-career scientists for today’s wide range of paths in and beyond the lab? Jelena Patrnogić shares a new flexible competency framework she developed with Xiuqi Li and David Van Vactor that makes expectations clearer for trainees, mentors, and programs, and supports growth across both research and professional skills.

iPSC-derived sensory neurons provide an accessible platform for scientists to study sensory biology and disease; however, these cells are similar to embryonic neurons. Chelsey Derderian-LeBlang and Rosalind Segal present a protocol to accelerate the maturation of iPSC-derived sensory neurons, by providing external signals from satellite glial cells. They show that satellite glia, while previously described as a support cell, play a major role in both sensory neuron development and degeneration.

New experiences trigger rapid changes in gene activity and DNA accessibility in the brain’s memory-center, the hippocampus. Lisa Traunmüller and Erin Duffy describe new research from the Greenberg lab that uses advanced sequencing to map how different hippocampal regions respond at the molecular level to a novel environment — revealing how experiences shape brain circuits that underlie learning and memory.

Results of a new clinical trial conducted by Kai W. Wucherpfennig and colleagues, co-first authors Maxim Meylan, Ye Tian, and Lijian Wu, finds that a single injection of an oncolytic virus — a virus that has been genetically modified to selectively infect and destroy cancer cells — can recruit immune cells to penetrate and persist deep within brain tumors.

New research from Robert C. Malenka, Neir Eshel (Stanford) and colleagues, co-first authors Daniel F. Cardozo Pinto (now at Harvard) and Michaela Y. Guo (Stanford) uncovers a neural circuit mechanism explaining how two key brain chemicals—dopamine and serotonin—work in opposition to regulate reward learning.

Round up of awards and honors earned by the HBI community.