Eva Hasel de Carvalho scite author profile

Eva Hasel de Carvalho

5Publications

50Citation Statements Received

408Citation Statements Given

How they've been cited

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267

356

Affiliations

European Molecular Biology Laboratory, European Molecular Biology Laboratory

Publications

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Optogenetic activators of apoptosis, necroptosis, and pyroptosis

Shkarina

Carvalho

Santos

et al. 2022

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Targeted and specific induction of cell death in an individual or groups of cells hold the potential for new insights into the response of tissues or organisms to different forms of death. Here, we report the development of optogenetically controlled cell death effectors (optoCDEs), a novel class of optogenetic tools that enables light-mediated induction of three types of programmed cell death (PCD)—apoptosis, pyroptosis, and necroptosis—using Arabidopsis thaliana photosensitive protein Cryptochrome-2. OptoCDEs enable a rapid and highly specific induction of PCD in human, mouse, and zebrafish cells and are suitable for a wide range of applications, such as sub-lethal cell death induction or precise elimination of single cells or cell populations in vitro and in vivo. As the proof-of-concept, we utilize optoCDEs to assess the differences in neighboring cell responses to apoptotic or necrotic PCD, revealing a new role for shingosine-1-phosphate signaling in regulating the efferocytosis of the apoptotic cell by epithelia.

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Optogenetic activators of apoptosis, necroptosis and pyroptosis for probing cell death dynamics and bystander cell responses

Shkarina

Carvalho

Santos

et al. 2021

Preprint

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Targeted and specific induction of cell death in individual or groups of cells holds the potential for new insights into the response of tissues or organisms to different forms of death. Here we report the development of optogenetically-controlled cell death effectors (optoCDEs), a novel class of optogenetic tools that enables light-mediated induction of three types of programmed cell death (PCD), apoptosis, pyroptosis and necroptosis, using Arabidopsis thaliana photosensitive protein Cryptochrome2. OptoCDEs enable rapid and highly specific induction of PCD in human, mouse and zebrafish cells and are suitable for a wide range of applications, such as sub-lethal cell death induction or precise elimination of single cells or cell populations in vitro and in vivo. As the proof-of-concept, we utilize optoCDEs to assess the differences in the neighboring cell response to apoptotic or necrotic PCD, revealing a new role for shingosine-1-phosphate signaling in regulating the efferocytosis of apoptotic cell by epithelia.

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The Opto-inflammasome in zebrafish: a tool to study cell and tissue responses to speck formation and cell death

Carvalho¹,

Dharmadhikari²,

Leptin³

et al. 2022

Preprint

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The inflammasome is a conserved system for the intracellular detection of danger or pathogen signals. By forming a large intracellular multiprotein signaling platform, it activates downstream effectors that initiate a rapid necrotic programmed cell death (PCD) termed pyroptosis and activation and secretion of pro-inflammatory cytokines to warn and activate surrounding cells. However, inflammasome activation is difficult to control on a single-cell level using canonical triggers. We constructed Opto-Asc, a light-responsive form of the inflammasome adaptor protein ASC (Apoptosis-Associated Speck-Like Protein Containing a CARD) which allows tight control of inflammasome formation in vivo. We introduced a cassette of this construct under the control of a heat shock element into zebrafish in which we can now induce Asc inflammasome (speck) formation in single cells of the skin. We find that cell death resulting from Asc speck formation is morphological distinct from apoptosis in periderm but not in basal cells. Asc induced PCD in can lead to apical or basal extrusion from the periderm. The apical extrusion in periderm cells depends on Caspb but and triggers a strong Ca2+ signaling response in nearby cells.

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Revisiting the origin of interleukin 1 in anamniotes and sub-functionalization of interleukin 1 in amniotes

et al. 2022

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The cytokine interleukin 1 (IL-1) is an evolutionary innovation of vertebrates. Fish and amphibian have one IL1 gene, while mammals have two copies of IL1 , IL1A and IL1B , with distinct expression patterns and differences in their proteolytic activation. Our current understanding of the evolutionary history of IL-1 is mainly based on phylogenetic analysis, but this approach provides no information on potentially different functions of IL-1 homologues, and it remains unclear which biological activities identified for IL-1α and IL-1β in mammals are present in lower vertebrates. Here, we use in vitro and in vivo experimental models to examine the expression patterns and cleavage of IL-1 proteins from various species. We found that IL-1 in the teleost medaka shares the transcriptional patterns of mammalian IL-1α, and its processing also resembles that of mammalian IL-1α, which is sensitive to cysteine protease inhibitors specific for the calpain and cathepsin families. By contrast, IL-1 proteins in reptiles also include biological properties of IL-1β. Therefore, we propose that the duplication of the ancestral IL1 gene led to the segregation of expression patterns and protein processing that characterizes the two extant forms of IL-1 in mammals.

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Author response for "Revisiting the origin of interleukin 1 in anamniotes and sub-functionalization of interleukin 1 in amniotes"

Carvalho¹,

Bartok²,

Stölting³

et al. 2022

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