Variation in Plasmodium falciparum sexual commitment rates and responses to environmental modification

Asexual blood stage malaria parasites must produce sexual progeny in order to infect mosquitoes. It is therefore important to understand the scope of variation in sexual commitment rates of the most important human parasite Plasmodium falciparum , and to assess responses to conditions that may affect this commitment. First, using a genetically modified line with inducible elevated sexual commitment we compared two different methods of measuring the rates, either staining the Pfs16 marker in very early gametocytes or counting gametocytes after further development. The methods showed correlated estimates in evaluation across multiple independent replicate assays, with higher sensitivity and precision being achieved by Pfs16 marker detection in early gametocytes, so this method was used to survey a wide range of P. falciparum lines. A panel of six recently culture-established clinical isolates from Ghana showed mean sexual commitment rates per cycle ranging from 3.3% to 12.2%, with some significant differences among isolates as well as variation among biological replicates of each. Comparing 13 long-term laboratory-adapted lines of diverse origins, eight had sexual commitment rates similar to those of the recent clinical isolates, with means across multiple biological replicates for each line ranging from 4.7% to 14.5%, while four lines had significantly lower rates with means ranging from 0.3 to 1.6%, and one line with a non-functional ap2-g gene always showed zero sexual commitment. Among a subset of parasite lines, adding choline to suppress commitment had quantitatively variable effects, although these were significant in most assays of lines that had relatively high rates. This study indicates the importance of multiple assay replicates and comparisons of diverse isolates to understand natural and culture-induced variation in this key reproductive trait, relevant to investigating potential effects of parasite adaptation on transmission. Author Summary Only sexual malaria parasites are transmitted from humans to mosquitoes, so it is vital to understand variation in sexual commitment rates of blood stage malaria parasites, and responses to conditions that affect this. We compared two different methods of measuring the rates in a Plasmodium falciparum line with engineered sexual commitment variation, demonstrating higher sensitivity and precision by detection of an early differentiation marker, and this method was then used to survey diverse P. falciparum lines in culture with extensive biological replicate measurements. Recent clinical isolates from Ghana showed mean sexual commitment rates per cycle ranging from 3% to 12%, with significant differences among isolates as well as variation among biological replicates. Long-term laboratory-adapted lines of diverse origins had a wide range, most having rates similar to those of the clinical isolates, while a minority consistently had much lower or zero rates. There was quantitative variation among lines in the effects of adding choline to suppress commitment, although most assays of lines that had relatively high rates showed significant effects. Performing multiple biological replicates and comparisons of recent parasite isolates is vital to understand intra-specific variation in this important reproductive trait, and move towards investigating direct effects on disease transmission. ### Competing Interest Statement The authors have declared no competing interest.