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BTG1 mutation yields supercompetitive B cells primed for malignant transformation.
- Mlynarczyk, Coraline;
- Teater, Matt;
- Pae, Juhee;
- Chin, Christopher;
- Wang, Ling;
- Arulraj, Theinmozhi;
- Barisic, Darko;
- Papin, Antonin;
- Hoehn, Kenneth;
- Kots, Ekaterina;
- Ersching, Jonatan;
- Bandyopadhyay, Arnab;
- Barin, Ersilia;
- Poh, Hui;
- Evans, Chiara;
- Chadburn, Amy;
- Chen, Zhengming;
- Shen, Hao;
- Isles, Hannah;
- Pelzer, Benedikt;
- Tsialta, Ioanna;
- Doane, Ashley;
- Rehman, Muhammad;
- Melnick, Jonah;
- Morgan, Wyatt;
- Nguyen, Diu;
- Elemento, Olivier;
- Kharas, Michael;
- Jaffrey, Samie;
- Scott, David;
- Khelashvili, George;
- Meyer-Hermann, Michael;
- Victora, Gabriel;
- Melnick, Ari;
- Geng, Huimin
- et al.
Published Web Location
https://doi.org/10.1126/science.abj7412Abstract
Multicellular life requires altruistic cooperation between cells. The adaptive immune system is a notable exception, wherein germinal center B cells compete vigorously for limiting positive selection signals. Studying primary human lymphomas and developing new mouse models, we found that mutations affecting BTG1 disrupt a critical immune gatekeeper mechanism that strictly limits B cell fitness during antibody affinity maturation. This mechanism converted germinal center B cells into supercompetitors that rapidly outstrip their normal counterparts. This effect was conferred by a small shift in MYC protein induction kinetics but resulted in aggressive invasive lymphomas, which in humans are linked to dire clinical outcomes. Our findings reveal a delicate evolutionary trade-off between natural selection of B cells to provide immunity and potentially dangerous features that recall the more competitive nature of unicellular organisms.
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