Proteolytic activation of human-specific Olduvai domains by the furin protease.

Ashley Pacheco, Aaron Issaian, Jonathan Davis, Nathan Anderson, Travis Nemkov, Natasia Paukovich, Morkos A Henen, Beat Vögeli, James M Sikela, Kirk Hansen

International journal of biological macromolecules 2023 Apr 15

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Olduvai protein domains (formerly DUF1220) show the greatest human-specific increase in copy number of any coding region in the genome and are highly correlated with human brain evolution and cognitive disease. The majority of human copies are found within four NBPF genes organized in a variable number of a tandemly arranged three-domain blocks called Olduvai triplets. Here we show that these human-specific Olduvai domains are posttranslationally processed by the furin protease, with a cleavage site occurring once at each triplet. These findings suggest that all expanded human-specific NBPF genes encode proproteins consisting of many independent Olduvai triplet proteins which are activated by furin processing. The exceptional correlation of Olduvai copy number and brain size taken together with our new furin data, indicates the ultimate target of selection was a rapid increase in dosage of autonomously functioning Olduvai triplet proteins, and that these proteins are the primary active agent underlying Olduvai's role in human brain expansion. Copyright © 2022 Elsevier B.V. All rights reserved.

Citation

Ashley Pacheco, Aaron Issaian, Jonathan Davis, Nathan Anderson, Travis Nemkov, Natasia Paukovich, Morkos A Henen, Beat Vögeli, James M Sikela, Kirk Hansen. Proteolytic activation of human-specific Olduvai domains by the furin protease. International journal of biological macromolecules. 2023 Apr 15;234:123041