The secretory Inka cell of the Drosophila larval trachea has a molecular profile similar to that of neurons

Roeder, Thomas; Bossen, Judith; Niu, Xiao; She, Xin-Yu; Knop, Mirjam; Hofbauer, Benedikt; Tiedemann, Lasse; Franzenburg, Sören; Bruchhaus, Iris; Kraus-Etchmann, Susanne; Wegener, Christian

doi:10.21203/rs.3.rs-3978430/v1

2024

DOI: 10.21203/rs.3.rs-3978430/v1

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The secretory Inka cell of the Drosophila larval trachea has a molecular profile similar to that of neurons

Thomas Roeder,

Judith Bossen,

Xiao Niu

et al.

Abstract: The remarkable architecture of their respiratory system enables the unique metabolic performance that makes insects so successful. We performed single-cell RNAseq analysis of the larval tracheal system of Drosophila melanogaster and identified 17 cell populations that are part of or closely associated with the trachea. In addition to several groups of epithelial cells and different progenitor cell types, the secretory Inka cells showed unexpected properties. These cells express almost all the molecular element… Show more

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Drosophila melanogaster as an Alternative Model to Higher Organisms for In Vivo Lung Research

Ehrhardt,

Roeder,

Krauss-Etschmann

2024

IJMS

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COPD and asthma are lung diseases that cause considerable burden to more than 800 million people worldwide. As both lung diseases are so far incurable, it is mandatory to understand the mechanisms underlying disease development and progression for developing novel therapeutic approaches. Exposures to environmental cues such as cigarette smoke in earliest life are known to increase disease risks in the individual’s own future. To explore the pathomechanisms leading to later airway disease, mammalian models are instrumental. However, such in vivo experiments are time-consuming and burdensome for the animals, which applies in particular to transgenerational studies. Along this line, the fruit fly Drosophila melanogaster comes with several advantages for research in this field. The short lifespan facilitates transgenerational studies. A high number of evolutionary conserved signaling pathways, together with a large toolbox for tissue-specific gene modification, has the potential to identify novel target genes involved in disease development. A well-defined airway microbiome could help to untangle interactions between disease development and microbiome composition. In the following article, Drosophila melanogaster is therefore presented and discussed as an alternative in vivo model to investigate airway diseases that can complement and/or replace models in higher organisms.

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Drosophila melanogaster as an Alternative Model to Higher Organisms for In Vivo Lung Research

Ehrhardt,

Roeder,

Krauss-Etschmann

2024

IJMS

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show abstract

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The secretory Inka cell of the Drosophila larval trachea has a molecular profile similar to that of neurons

Cited by 1 publication

References 95 publications

Drosophila melanogaster as an Alternative Model to Higher Organisms for In Vivo Lung Research

Drosophila melanogaster as an Alternative Model to Higher Organisms for In Vivo Lung Research

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