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Literature DB >> 20014104

pHMA, a pH-sensitive GFP reporter for cell engulfment, in Drosophila embryos, tissues, and cells.

Elane Fishilevich¹, James A J Fitzpatrick, Jonathan S Minden.

Abstract

Engulfment of apoptotic cells by phagocytosis ensures the removal of unwanted and defective cells. We developed a genetically encoded marker for cell engulfment, pHMA, which consists of the pH-Sensitive derivative of GFP, pHluorin, fused to the actin-binding domain of Moesin. In healthy cells of Drosophila embryos and cultured cells, pHMA resides at the cell cortex. In dying cells, pHMA loses its cortical localization and reports a modest decrease in pH. In embryos, the dying cells lose their apical contacts, then move basally and are ultimately engulfed by neighboring cells or macrophages. The cell corpse material is strongly acidified soon after engulfment and persists in the phagocytic cell for several hours. Changes in the pHMA signal correlate well with increases or decreases in apoptosis. These data show that pHMA is a useful reporter for cell engulfment and can be used in screening for mutations that affect cell engulfment.

Entities: CellLine Chemical Disease Gene Species

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Year: 2010 PMID： 20014104 PMCID： PMC3070945 DOI： 10.1002/dvdy.22180

Source DB: PubMed Journal: Dev Dyn ISSN： 1058-8388 Impact factor: 3.780

54 in total

1. Dissecting Drosophila embryonic brain development using photoactivated gene expression.

Authors: K Robertson; J Mergliano; J S Minden
Journal: Dev Biol Date: 2003-08-01 Impact factor: 3.582

2. Real-time imaging of morphogenetic movements in Drosophila using Gal4-UAS-driven expression of GFP fused to the actin-binding domain of moesin.

Authors: Devkanya Dutta; James W Bloor; Mar Ruiz-Gomez; K VijayRaghavan; Daniel P Kiehart
Journal: Genesis Date: 2002 Sep-Oct Impact factor: 2.487

3. Analysis of cytosolic and lysosomal pH in apoptotic cells by flow cytometry.

Authors: Cathrine Nilsson; Katarina Kågedal; Uno Johansson; Karin Ollinger
Journal: Methods Cell Sci Date: 2003

4. Engulfment is required for cell competition.

Authors: Wei Li; Nicholas E Baker
Journal: Cell Date: 2007-06-15 Impact factor: 41.582

5. Cell competition, growth and size control in the Drosophila wing imaginal disc.

Authors: Francisco A Martín; Salvador C Herrera; Ginés Morata
Journal: Development Date: 2009-11 Impact factor: 6.868

6. A nuclear GFP that marks nuclei in living Drosophila embryos; maternal supply overcomes a delay in the appearance of zygotic fluorescence.

Authors: I Davis; C H Girdham; P H O'Farrell
Journal: Dev Biol Date: 1995-08 Impact factor: 3.582

2. Analysing bioelectrical phenomena in the Drosophila ovary with genetic tools: tissue-specific expression of sensors for membrane potential and intracellular pH, and RNAi-knockdown of mechanisms involved in ion exchange.

Authors: Susanne Katharina Schotthöfer; Johannes Bohrmann
Journal: BMC Dev Biol Date: 2020-07-08 Impact factor: 1.978

2 in total

pHMA, a pH-sensitive GFP reporter for cell engulfment, in Drosophila embryos, tissues, and cells.

1. Dissecting Drosophila embryonic brain development using photoactivated gene expression.

2. Real-time imaging of morphogenetic movements in Drosophila using Gal4-UAS-driven expression of GFP fused to the actin-binding domain of moesin.

3. Analysis of cytosolic and lysosomal pH in apoptotic cells by flow cytometry.

4. Engulfment is required for cell competition.

5. Cell competition, growth and size control in the Drosophila wing imaginal disc.

6. A nuclear GFP that marks nuclei in living Drosophila embryos; maternal supply overcomes a delay in the appearance of zygotic fluorescence.

7. Drosophila mitotic domain boundaries as cell fate boundaries.

8. An efficient method for microinjection of mRNA into Drosophila embryos.

9. Targeted gene expression as a means of altering cell fates and generating dominant phenotypes.

10. Patterned epidermal cell death in wild-type and segment polarity mutant Drosophila embryos.

Review 1. Illumination of the spatial order of intracellular pH by genetically encoded pH-sensitive sensors.

2. Analysing bioelectrical phenomena in the Drosophila ovary with genetic tools: tissue-specific expression of sensors for membrane potential and intracellular pH, and RNAi-knockdown of mechanisms involved in ion exchange.