Differences in codon bias and GC content contribute to the balanced expression of TLR7 and TLR9

ZR Newman, JM Young, NT Ingolia… - Proceedings of the …, 2016 - National Acad Sciences
Proceedings of the National Academy of Sciences, 2016National Acad Sciences
The innate immune system detects diverse microbial species with a limited repertoire of
immune receptors that recognize nucleic acids. The cost of this immune surveillance
strategy is the potential for inappropriate recognition of self-derived nucleic acids and
subsequent autoimmune disease. The relative expression of two closely related receptors,
Toll-like receptor (TLR) 7 and TLR9, is balanced to allow recognition of microbial nucleic
acids while limiting recognition of self-derived nucleic acids. Situations that tilt this balance …
The innate immune system detects diverse microbial species with a limited repertoire of immune receptors that recognize nucleic acids. The cost of this immune surveillance strategy is the potential for inappropriate recognition of self-derived nucleic acids and subsequent autoimmune disease. The relative expression of two closely related receptors, Toll-like receptor (TLR) 7 and TLR9, is balanced to allow recognition of microbial nucleic acids while limiting recognition of self-derived nucleic acids. Situations that tilt this balance toward TLR7 promote inappropriate responses, including autoimmunity; therefore, tight control of expression is critical for proper homeostasis. Here we report that differences in codon bias limit TLR7 expression relative to TLR9. Codon optimization of Tlr7 increases protein levels as well as responses to ligands, but, unexpectedly, these changes only modestly affect translation. Instead, we find that much of the benefit attributed to codon optimization is actually the result of enhanced transcription. Our findings, together with other recent examples, challenge the dogma that codon optimization primarily increases translation. We propose that suboptimal codon bias, which correlates with low guanine-cytosine (GC) content, limits transcription of certain genes. This mechanism may establish low levels of proteins whose overexpression leads to particularly deleterious effects, such as TLR7.
National Acad Sciences