Northwestern Events Calendar

Oct
23
2025

BMG Seminar: Hagen Tilgner, PhD, Weill Cornell

When: Thursday, October 23, 2025
10:00 AM - 11:00 AM CT

Where: Robert H Lurie Medical Research Center, Searle Seminar Room, 303 E. Superior, Chicago, IL 60611 map it

Audience: Faculty/Staff - Student - Post Docs/Docs - Graduate Students

Contact: Linda Mekhitarian Jackson   (312) 503-5229

Group: Biochemistry & Molecular Genetics Seminar Series

Category: Lectures & Meetings

Description:

The Department of Biochemistry & Molecular Genetics presents:

Hagen Tilgner, PhD
Associate Professor
Brain and Mind Institute
Weill Cornell Medical College

Presentation: 

A single-cell view of splicing (dys)regulation across in development and the diseases of the brain

Abstract:

Complex tissue includes diverse cell types employing distinct RNA isoforms. To untangle full-length cell-type specific brain isoforms, we developed single-cell long-read technology for many thousands of cells (from previous approaches for 10-100 cells) in fresh tissues and in frozen tissues. These approaches revealed the rules of combination of TSSs, alternative exons and poly(A) sites and their cell-type specificity. Autism-associated exons (as previously described) but also FTD-associated exons are highly variably-used across cell types. For spatial resolution, we developed spatially-barcoded isoform sequencing with 60um, 10um and 220nm spots, showing that often isoform switches correlate with precise boundaries of brain structures (e.g., choroid plexus to hippocampus). However, genes including Snap25, use a gradient of exon inclusion through the brain. Choroid plexus epithelial cells show a dramatically distinct isoform profile, which originates most strongly from TSS usage. During human puberty, layer4-excitatory splicing is more regulated than in other cortical layers – probably influenced by retroviral sequences. More generally, we can now detect isoform-expression variability that does not correspond to known brain structures.

For the NIH Brain Initiative, we have mapped single-cell isoforms across development, brain regions and species. Neurotransmitter release and reuptake as well as synapse turnover genes harbor variability in the same cell type across anatomical regions but the same cell type traced across development shows more isoform variability than across adult anatomical regions. Moreover, most cell-type-specific exons in adult mouse hippocampus behave similarly in human hippocampi. However, human brains have evolved additional cell-type specificity in splicing. Additionally, the concurrent measurement of chromatin and splicing patterns in post-mortem human brain shows broadly-speaking convergent dysregulation of both modalities in similar cell types in Alzheimer’s disease but more divergence between both modalities in evolution. Finally, we have advanced our understanding of error sources of PacBio and ONT and implemented highly accurate long-read software. 

Host: Dr. Ruli Gao, Assistant Professor, Biochemistry and Molecular Genetics

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