PT - JOURNAL ARTICLE AU - Timothy J Satchwell AU - Katherine E Wright AU - Katy L Haydn-Smith AU - Fernando Sánchez-Román Terán AU - Joseph Hawksworth AU - Jan Frayne AU - Ashley M Toye AU - Jake Baum TI - Stable knockout and complementation of receptor expression using <em>in vitro</em> cell line derived reticulocytes for dissection of host malaria invasion requirements AID - 10.1101/495853 DP - 2018 Jan 01 TA - bioRxiv PG - 495853 4099 - http://biorxiv.org/content/early/2018/12/13/495853.short 4100 - http://biorxiv.org/content/early/2018/12/13/495853.full AB - Invasion of and intracellular development within the red blood cell by malaria parasites requires interaction with a multitude of host proteins expressed at the surface of or inside the cell. Perhaps the biggest obstacle to dissection of specific functions of host proteins during invasion is the inability to manipulate protein expression in the genetically intractable anucleate red blood cell. Whilst genetic manipulation and subsequent in vitro differentiation of nucleated erythroid precursors have facilitated progress in this area, such approaches are limited by the finite proliferative capacity of primary hematopoietic stem cells, and a failure of erythroleukemic cell lines to enucleate, respectively. Here, we report that reticulocytes derived through in vitro differentiation of an enucleation competent immortalized erythroblast cell line (BEL-A) support both successful invasion and growth by Plasmodium falciparum. Using CRISPR-mediated gene knockout and lentiviral expression of open reading frames, we validate an essential role for the erythrocyte receptor basigin in P. falciparum invasion and, for the first time, demonstrate that this can be rescued by re-expression of the receptor or of a mutant thereof. Specifically, using sustainable edited clones derived from this line, we exclude a functional role for the cytoplasmic domain of basigin during invasion, and challenge the reported requirement of its associated receptor cyclophilin B. These data establish the use of reticulocytes derived from immortalized erythroblasts as a crucial model system to explore specific hypotheses regarding host receptor requirements and involvement in P. falciparum invasion.