Clustering and erratic movement patterns of syringe-injected versus mosquito-inoculated malaria sporozoites underlie decreased infectivity

ABSTRACT Live attenuated malaria sporozoites are promising vaccine candidates, however, their efficacy critically depends on their capability to reach and infect the host liver. Administration via mosquito inoculation is by far the most potent method for inducing immunity, but highly unpractical. He...

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Published in	bioRxiv
Main Authors	De Korne, Cm, Winkel, Bmf, Mn Van Oosterom, Chevalley-Maurel, S, Houwing, Hm, Sijtsma, Jc, Baalbergen, E, Franke-Fayard, Bmd, Fwb Van Leeuwen, Roestenberg, M
Format	Paper
Language	English
Published	Cold Spring Harbor Cold Spring Harbor Laboratory Press 21.10.2020
Subjects	Infectivity Inoculation Liver Malaria Mosquitoes Sporozoites Vaccines
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Abstract	ABSTRACT Live attenuated malaria sporozoites are promising vaccine candidates, however, their efficacy critically depends on their capability to reach and infect the host liver. Administration via mosquito inoculation is by far the most potent method for inducing immunity, but highly unpractical. Here, we observed that intradermal syringe-injected Plasmodium berghei sporozoites (syrSPZ) were three-fold less efficient in migrating to and infecting mouse liver compared to mosquito-inoculated sporozoites (msqSPZ). This was related to a clustered dermal distribution (2-fold decreased median distance between syrSPZ vs msqSPZ) and, more importantly, a 1.4-fold significantly slower and more erratic movement pattern. These erratic movement patterns were likely caused by alteration of dermal tissue morphology (>15 μm intercellular gaps) due to injection pressure and may critically decrease sporozoite infectivity. These results suggest that novel microvolume-based administration technologies hold promise for replicating the success of mosquito-inoculated live attenuated sporozoite vaccines. Competing Interest Statement The authors have declared no competing interest.
AbstractList	ABSTRACT Live attenuated malaria sporozoites are promising vaccine candidates, however, their efficacy critically depends on their capability to reach and infect the host liver. Administration via mosquito inoculation is by far the most potent method for inducing immunity, but highly unpractical. Here, we observed that intradermal syringe-injected Plasmodium berghei sporozoites (syrSPZ) were three-fold less efficient in migrating to and infecting mouse liver compared to mosquito-inoculated sporozoites (msqSPZ). This was related to a clustered dermal distribution (2-fold decreased median distance between syrSPZ vs msqSPZ) and, more importantly, a 1.4-fold significantly slower and more erratic movement pattern. These erratic movement patterns were likely caused by alteration of dermal tissue morphology (>15 μm intercellular gaps) due to injection pressure and may critically decrease sporozoite infectivity. These results suggest that novel microvolume-based administration technologies hold promise for replicating the success of mosquito-inoculated live attenuated sporozoite vaccines. Competing Interest Statement The authors have declared no competing interest.
Author	Chevalley-Maurel, S De Korne, Cm Houwing, Hm Franke-Fayard, Bmd Mn Van Oosterom Winkel, Bmf Fwb Van Leeuwen Roestenberg, M Baalbergen, E Sijtsma, Jc
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Title	Clustering and erratic movement patterns of syringe-injected versus mosquito-inoculated malaria sporozoites underlie decreased infectivity
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