Your search keyword '"Luana Cristina Farnesi"' showing total 1 results

1. Darker eggs of mosquitoes resist more to dry conditions: Melanin enhances serosal cuticle contribution in egg resistance to desiccation in Aedes, Anopheles and Culex vectors

Author

Luana Cristina Farnesi, Helena Carolina Martins Vargas, Denise Valle, and Gustavo Lazzaro Rezende

Subjects

Pigments, 0301 basic medicine, Water flow, Insect, Disease Vectors, Mosquitoes, 0302 clinical medicine, Filter Paper, Aedes, Melanin, Medicine and Health Sciences, Eggshell, media_common, Larva, lcsh:Public aspects of medicine, Eukaryota, Insects, Laboratory Equipment, Culex, Infectious Diseases, Embryogenesis, Physical Sciences, Engineering and Technology, Female, Research Article, lcsh:Arctic medicine. Tropical medicine, Arthropoda, lcsh:RC955-962, media_common.quotation_subject, Cuticle, Materials Science, 030231 tropical medicine, Equipment, Color, Aedes aegypti, Aedes Aegypti, Biology, 03 medical and health sciences, Anopheles, Botany, Animals, Cuticle pigmentation, Desiccation, Materials by Attribute, Ovum, Melanins, Organic Pigments, fungi, Organisms, Public Health, Environmental and Occupational Health, Biology and Life Sciences, Water, lcsh:RA1-1270, biology.organism_classification, Invertebrates, Insect Vectors, Species Interactions, 030104 developmental biology, Developmental Biology

Abstract

Mosquito vectors lay their white eggs in the aquatic milieu. During early embryogenesis water passes freely through the transparent eggshell, which at this moment is composed of exochorion and endochorion. Within two hours the endochorion darkens via melanization but even so eggs shrink and perish if removed from moisture. However, during mid-embryogenesis, cells of the extraembryonic serosa secrete the serosal cuticle, localized right below the endochorion, becoming the third and innermost eggshell layer. Serosal cuticle formation greatly reduces water flow and allows egg survival outside the water. The degree of egg resistance to desiccation (ERD) at late embryogenesis varies among different species: Aedes aegypti, Anopheles aquasalis and Culex quinquefasciatus eggs can survive in a dry environment for ≥ 72, 24 and 5 hours, respectively. In some adult insects, darker-body individuals show greater resistance to desiccation than lighter ones. We asked if egg melanization enhances mosquito serosal cuticle-dependent ERD. Species with higher ERD at late embryogenesis exhibit more melanized eggshells. The melanization-ERD hypothesis was confirmed employing two Anopheles quadrimaculatus strains, the wild type and the mutant GORO, with a dark-brown and a golden eggshell, respectively. In all cases, serosal cuticle formation is fundamental for the establishment of an efficient ERD but egg viability outside the water is much higher in mosquitoes with darker eggshells than in those with lighter ones. The finding that pigmentation influences egg water balance is relevant to understand the evolutionary history of insect egg coloration. Since eggshell and adult cuticle pigmentation ensure insect survivorship in some cases, they should be considered regarding species fitness and novel approaches for vector or pest insects control., Author summary Mosquitoes transmit various causative agents of diseases and the blockage of vector life cycle is an effective way to hamper disease transmission. The egg is the least known life stage and understanding it can contribute with novel strategies for mosquito control. Mosquitoes lay eggs in water collections, some of which are temporary. At early embryogenesis eggs are prone to lose water, leading to dehydration and death. During embryogenesis the serosal cuticle is produced, it wraps the embryo and contributes to the egg protection, allowing it to survive outside the water. Curiously, this resistance varies among mosquitoes: Aedes, Anopheles and Culex eggs can survive outside the water for long, intermediate and short periods, respectively. Here, we show that these differences are related to the degree of eggshell melanization (melanin is a dark pigment): darker eggs resists more against water loss. We confirmed that melanin increases survival outside the water employing a mosquito mutant that does not melanize properly. The protection conferred by melanin is dependent on the formation of the serosal cuticle. Our results contribute to the study of the evolution of egg coloration in insects and we identified one of the reasons why Aedes aegypti eggs survive for several months outside water.

Published

2017