A single-nucleus transcriptomic atlas of the adult Aedes aegypti mosquito

Goldman, O.V.; Defoe, A.E.; Yanyan, Q.; Jiao, Y.; Weng, S.; Wick, B.; Houri-Zeevi, L.; Lakhiani, P.; Morita, T.; Razzauti, J.; Rosas-Villegas, A.; Tsitohay, Y.N.; Walker, M.M.; Hopkins, B.R.; Ang, J.X.D.; Antoshechkin, I.; Cai, Y.; Chen, F.; Chen, Y.; Devilliers, J.; Dong, L.; Feuda, R.; Gabrieli, P.; Kopp, A.; Kwon, H.; Hsing-Han, L.; Tzu-Chiao, L.; Lucio, T.; Marques, J.T.; Oliveira, M.F.; Olmo, R.P.; Palatini, U.; Pithawala, Z.M.; Pompon, J.; Reis, Y.; Rodrigues, J.; Smith, R.C.; Haeussler, M.; Akbari, O.S.; Duvall, L.B.; White-Cooper, H.; Sorrells, T.R.; Sharma, R.; Hongjie, L.; Vosshall, L.B.; Shai, N.

doi:10.1016/j.cell.2025.10.008

The female Aedes aegypti mosquito's remarkable ability to hunt humans and transmit pathogens relies on her unique biology. Here, we present the Aedes aegypti Mosquito Cell Atlas, a comprehensive single-nucleus RNA sequencing dataset of more than 367,000 nuclei from 19 dissected tissues of adult female and male Aedes aegypti, providing cellular-level resolution of mosquito biology. We identify novel cell types and expand our understanding of sensory neuron organization of chemoreceptors across all sensory tissues. Our analysis uncovers male-specific cells and sexually dimorphic gene expression in the antenna and brain. In female mosquitoes, we find that glial cells, rather than neurons, undergo the most extensive transcriptional changes in the brain following blood feeding. Our findings provide insights into the cellular basis of mosquito behavior and sexual dimorphism. The Aedes aegypti Mosquito Cell Atlas resource enables systematic investigation of cell-type-specific expression across all mosquito tissues.

A single-nucleus transcriptomic atlas of the adult Aedes aegypti mosquito / O.V. Goldman, A.E. Defoe, Y. Qi, Y. Jiao, S. Weng, B. Wick, L. Houri-Zeevi, P. Lakhiani, T. Morita, J. Razzauti, A. Rosas-Villegas, Y.N. Tsitohay, M.M. Walker, B.R. Hopkins, J.X.D. Ang, I. Antoshechkin, Y. Cai, F. Chen, Y. Chen, J. Devilliers, L. Dong, R. Feuda, P. Gabrieli, A. Kopp, H. Kwon, H. Li, T. Lu, T. Lucio, J.T. Marques, M.F. Oliveira, R.P. Olmo, U. Palatini, Z.M. Pithawala, J. Pompon, Y. Reis, J. Rodrigues, R.C. Smith, M. Haeussler, O.S. Akbari, L.B. Duvall, H. White-Cooper, T.R. Sorrells, R. Sharma, H. Li, L.B. Vosshall, N. Shai. - In: CELL. - ISSN 0092-8674. - (2025 Dec 11), pp. 1-14. [Epub ahead of print] [10.1016/j.cell.2025.10.008]

A single-nucleus transcriptomic atlas of the adult Aedes aegypti mosquito

Goldman, Olivia V.;DeFoe, Alexandra E.;Qi, Yanyan;Jiao, Yaoyu;Weng, Shih-Che;Wick, Brittney;Houri-Zeevi, Leah;Lakhiani, Priyanka;Morita, Takeshi;Razzauti, Jacopo;Rosas-Villegas, Adriana;Tsitohay, Yael N.;Walker, Madison M.;Hopkins, Ben R.;Ang, Joshua X. D.;Antoshechkin, Igor;Cai, Yu;Chen, Fangying;Chen, Yen-Chung;Devilliers, Julien;Dong, Linhan;Feuda, Roberto;P. Gabrieli;Kopp, Artyom;Kwon, Hyeogsun;Li, Hsing-Han;Lu, Tzu-Chiao;Lucio, Thalita;Marques, João T.;Oliveira, Marcus F.;Olmo, Roenick P.;Palatini, Umberto;Pithawala, Zeaan M.;Pompon, Julien;Reis, Yan;Rodrigues, João;Smith, Ryan C.;Haeussler, Maximilian;Akbari, Omar S.;Duvall, Laura B.;White-Cooper, Helen;Sorrells, Trevor R.;Sharma, Roshan;Li, Hongjie;Vosshall, Leslie B.;Shai, Nadav

2025

Abstract

The female Aedes aegypti mosquito's remarkable ability to hunt humans and transmit pathogens relies on her unique biology. Here, we present the Aedes aegypti Mosquito Cell Atlas, a comprehensive single-nucleus RNA sequencing dataset of more than 367,000 nuclei from 19 dissected tissues of adult female and male Aedes aegypti, providing cellular-level resolution of mosquito biology. We identify novel cell types and expand our understanding of sensory neuron organization of chemoreceptors across all sensory tissues. Our analysis uncovers male-specific cells and sexually dimorphic gene expression in the antenna and brain. In female mosquitoes, we find that glial cells, rather than neurons, undergo the most extensive transcriptional changes in the brain following blood feeding. Our findings provide insights into the cellular basis of mosquito behavior and sexual dimorphism. The Aedes aegypti Mosquito Cell Atlas resource enables systematic investigation of cell-type-specific expression across all mosquito tissues.

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	Parole chiave
	
				Aedes aegypti; cell atlas; mosquito; sexual dimorphism; snRNA-seq
			
	Settori scientifico-disciplinari dell'articolo (validi dal 09/05/2024)
	
				Settore BIOS-03/A - Zoologia
			
	Data di pubblicazione
	
				11-dic-2025
			
	Data ahead of print o data di stampa
	
				30-ott-2025
			
	Rivista in ANCE
	
				CELL
			
	DOI
	
				https://dx.doi.org/10.1016/j.cell.2025.10.008
			
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