High-throughput phenotyping reveals expansive genetic and structural underpinnings of immune variation
2020
By developing a high-density murine immunophenotyping platform compatible with high-throughput genetic screening, we have established profound contributions of genetics and structure to immune variation (http://www.immunophenotype.org). Specifically, high-throughput phenotyping of 530 unique mouse gene knockouts identified 140 monogenic ‘hits’, of which most had no previous immunologic association. Furthermore, hits were collectively enriched in genes for which humans show poor tolerance to loss of function. The immunophenotyping platform also exposed dense correlation networks linking immune parameters with each other and with specific physiologic traits. Such linkages limit freedom of movement for individual immune parameters, thereby imposing genetically regulated ‘immunologic structures’, the integrity of which was associated with immunocompetence. Hence, we provide an expanded genetic resource and structural perspective for understanding and monitoring immune variation in health and disease. The International Mouse Phenotyping Consortium (IMPC) aims to identify the function of all protein-coding genes in the mouse genome. Hayday and colleagues leverage 530 knockout lines from the IPMC to develop the 3i Project, which immunophenotypes mice and leads to the identification of new and unexpected gene influences on immune function and on the structural organization of the immune system.
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