Discovery of sporogeny in the malaria transmission-blocking symbiont of Anopheles mosquitoes
Publication Type
Journal Article
Journal Name
Msphere
Publication Date
9-30-2025
Abstract
In recent work, Parry et al. provide a detailed visualization of Microsporidia MB sporogeny (E. R. S. Parry, R. Pevsner, B. C. Poulton, D.-K. Purusothaman, et al., mSphere 10:e00851-24, 2025, https://doi.org/10.1128/msphere.00851-24). Their findings reveal that Microsporidia MB is localized to mosquito germline tissues and undergoes octosporogony within developing oocytes, suggesting both vertical and potential horizontal transmission routes. The identification of spores with hallmark microsporidian structures strengthens the case for environmental dissemination via egg deposition. These results fill key biological knowledge gaps and set new methodological standards for in vivo symbiont imaging. This work advances Microsporidia MB's feasibility as a transmission-blocking symbiont and supports its development as a novel, sustainable malaria control tool.
Keywords
Anopheles coluzzii, host–symbiont interactions, malaria control, Microsporidia, octosporogony, symbiont, vertical transmission
Recommended Citation
Herren, J. (2025). Discovery of sporogeny in the malaria transmission-blocking symbiont of Anopheles mosquitoes. Msphere, 10, e0032525. https://doi.org/10.1128/msphere.00325-25