Detailed Briefing Document: Zika Virus Modulation of Human Fibroblasts Enhances Transmission Success
Source: Mozūraitis, R., Cirksena, K., Raftari, M., et al. (2025). Zika virus modulates human fibroblasts to enhance transmission success in a controlled lab-setting. Communications Biology, 8(1), 754. https://doi.org/10.1038/s42003-025-07543-9
Date of Briefing: Received - 02 July 2024 | Accepted - 14 January 2025 | Published - 30 January 2025
1. Executive Summary:
This study investigates how Zika virus (ZIKV) infection of human dermal fibroblasts alters the release of volatile organic compounds (VOCs) and how these changes impact the host-seeking and feeding behavior of its mosquito vector, Aedes aegypti. The researchers demonstrate that ZIKV infection leads to significant alterations in the VOC profile of infected fibroblasts at both the invasion and transmission stages. These altered VOCs enhance the attraction of Ae. aegypti mosquitoes, increase their blood meal size, and even positively influence mosquito fecundity and survival. Furthermore, the study utilizes transcriptomic and proteomic meta-analyses to reveal that ZIKV infection modulates the expression of genes and proteins involved in lipid metabolism and transport in human host cells, potentially driving the observed changes in VOC production. The findings suggest that ZIKV actively manipulates its vertebrate host to promote its transmission by enhancing the attractiveness and feeding efficiency of its mosquito vector.
2. Main Themes and Important Ideas/Facts:
- ZIKV alters the VOC profile of infected human dermal fibroblasts:
- The study found significant differences in the VOCs released by human dermal fibroblasts when infected with ZIKV compared to uninfected cells.
- At the invasion stage of ZIKV infection, fourteen VOCs were significantly increased, with the largest increase observed for 2,4-dimethyl-1-heptane. Five VOCs were significantly decreased.
- At the transmission stage, all eight significantly altered VOCs were increased compared to healthy cells. The largest increases were seen in sulcatone, decanal, dodecanal, and 2-methyl-1-pentene.
- Quote: "We found that ZIKV infection altered the volatome of human dermal fibroblasts (Supplementary Fig. 1a, c, SupplementaryTable 1, and SupplementaryData file 1)."
- ZIKV-induced VOCs enhance Ae. aegypti host-seeking behavior:
- Using a Y-tube olfactometer, the researchers demonstrated that synthetic blends of VOCs mimicking those emitted by ZIKV-infected fibroblasts at both invasion and transmission stages significantly attracted Ae. aegypti females.
- Notably, Anopheles gambiae (a mosquito species that does not transmit ZIKV) did not show a preference for these blends.
- Wind tunnel experiments with individual synthetic VOCs and blends confirmed the increased attractiveness of ZIKV-related odors to Ae. aegypti. Dodecanal, 2-methyl-1-pentene, and 4-methylheptane showed the highest single-compound efficiency.
- Quote: "Using a Y-tube olfactometer, we demonstrated that olfactory active volatiles tested in the blends representing emissions from fibroblasts infected with ZIKV at invasive (invasion blend) and transmission (transmission blend) stages significantly attracted Ae. aegypti females."
- ZIKV-induced VOCs increase Ae. aegypti blood-feeding behavior:
- Mosquitoes exposed to ZIKV-related odor blends (both invasion and transmission) took significantly larger blood meals compared to those exposed to blood alone. Blood meal size was more than doubled with the invasion blend and tripled with the transmission blend.
- A higher proportion of mosquitoes exhibited persistent feeding behavior (landing and feeding) when ZIKV-related odors were present near the blood source.
- Quote: "The invasion and transmission blends modified the blood-feeding behaviour of mated five to sevendays old Ae. aegypti females, as the amount of blood meal obtained by females were more than doubled and tripled when fed on blood with nearby located invasion and transmission blends, respectively, compared to control blood in the absence of ZIKV related-odour."
- ZIKV-induced VOCs enhance mosquito fitness (fecundity and survival):
- The study found that exposure to ZIKV-related odors not only increased blood meal size but also positively impacted mosquito fecundity (number of eggs laid) and survival.
- Quote: "Interestingly, both mosquito fecundity and survival were also enhanced by the ZIKV induced odour (Fig. 3f, g)."
- ZIKV manipulates host cell's transcriptome and proteome:
- RNA sequencing analysis of infected fibroblasts revealed significant alterations in the expression of 401 transcripts, with the largest changes observed at 24 hours post-infection (transmission stage). Enrichment analysis pointed towards antiviral defense mechanisms and changes in lipoprotein metabolic processes.
- Meta-proteome analysis of multiple published studies identified 2,801 enzymes affected by ZIKV infection, with enrichment observed in enzymes involved in response to oxidative stress and fatty acid derivative metabolic processes.
- Specifically, enzymes associated with the oxidative and reductive degradation of lipids and fatty acids, potentially leading to the production of the identified VOCs, were upregulated upon ZIKV infection.
- Quote: "In sum, -omics meta-analyses reveal ZIKV-induced upregulation of lipoprotein and lipid metabolism enzymes that potentially are linked to Virus Induced Mosquito Attractant (VIMA)-VOCs release."
- Potential mechanisms for VOC production:
- The researchers suggest that the increased emission of oxidized compounds (alcohols and carbonyls) is likely associated with induced oxidative stress during viral infection.
- Hydrocarbons are likely produced by oxidative fragmentation of lipids.
- The study identifies potential enzymes involved in fatty acid metabolism and modification, including those responsible for methyl branching and the formation of alkanes and alkenes, although the complete biosynthetic pathway remains to be fully elucidated in human fibroblasts.
- The increased expression of apolipoprotein L genes during the transmission stage might indirectly contribute to the enhanced feeding persistency of mosquitoes by increasing lipid transport and fragmentation.
- Implications for arbovirus transmission and control:
- The study highlights a novel mechanism by which an arbovirus manipulates its vertebrate host to enhance its transmission success by making the host more attractive to the vector and increasing the likelihood of a successful blood meal.
- The findings suggest potential for developing novel vector control strategies, such as using the identified attractive VOCs for baiting and lethal trapping of Ae. aegypti mosquitoes.
- Quote: "There are potentially profound implications of this previously unknown set of arboviral manipulations of its vertebrate host in manners that provoke transmission-enhancing behaviours in its invertebrate host. Among these are exploitation against arboviral transmission success by efficient baiting and lethal trapping as a more effective, sustainable, and environmentally benign approach to the very difficult problem of mosquito control."
3. Methodology:
The study employed a multi-faceted approach, including:
