Abstract
Comparative “omics” studies have revealed unique aspects of human neurobiology, yet an evolutionary perspective of the brain N-glycome is lacking. Here, we performed multi-regional characterization of rat, macaque, chimpanzee, and human brain N-glycomes using chromatography and mass spectrometry, then integrated these data with complementary glycotranscriptomic data. We found that in primates the brain N-glycome has evolved more rapidly than the underlying transcriptomic framework, providing a mechanism for generating additional diversity. We show that brain N-glycome evolution in hominids has been characterized by an increase in complexity and α(2-6)-linked N-acetylneuraminic acid along with human-specific cell-type expression of key glycogenes. Finally, by comparing the prenatal and adult human brain N-glycome, we identify region-specific neurodevelopmental pathways that lead to distinct spatial N-glycosylation profiles in the mature brain.
One-Sentence Summary Evolution of the human brain N-glycome has been marked by an increase in complexity and a shift in sialic acid linkage.
Competing Interest Statement
The authors declare the following competing interests: GL is the founder and owner of Genos Ltd, a private research organization that specializes in high-throughput glycomic analysis and has several patents in this field. TSK, IG, MN, FV, and IB are currently or were employees of Genos Ltd while participating in this research project.
Footnotes
https://glycopost.glycosmos.org/preview/147448939063be87e374677
https://glycopost.glycosmos.org/preview/177034662263be880336f81
https://glycopost.glycosmos.org/preview/2287612363be880f371a3
https://glycopost.glycosmos.org/preview/85042159663be885021654
https://glycopost.glycosmos.org/preview/145978037763be885e86a85