Monitoring the Recruitment and Fusion of Autophagosomes to Phagosomes During the Clearance of Apoptotic Cells in the Nematode Caenorhabditis elegans .

During an animal's development, a large number of cells undergo apoptosis, a suicidal form of death. These cells are promptly phagocytosed by other cells and degraded inside phagosomes. The recognition, engulfment, and degradation of apoptotic cells is an evolutionarily conserved process occurring in all metazoans. Recently, we discovered a novel event in the nematode Caenorhabditis elegans: the double-membrane autophagosomes are recruited to the surface of phagosomes; subsequently, the outer membrane of an autophagosome fuses with the phagosomal membrane, allowing the inner vesicle to enter the phagosomal lumen and accumulate there over time. This event facilitates the degradation of the apoptotic cell inside the phagosome. During this study, we developed a real-time imaging protocol monitoring the recruitment and fusion of autophagosomes to phagosomes over two hours during embryonic development. This protocol uses a deconvolution-based microscopic imaging system with an optimized setting to minimize photodamage of the embryo during the recording period for high-resolution images. Furthermore, acid-resistant fluorescent reporters are chosen to label autophagosomes, allowing the inner vesicles of an autophagosome to remain visible after entering the acidic phagosomal lumen. The methods described here, which enable high sensitivity, quantitative measurement of each step of the dynamic incorporation in developing embryos, are novel since the incorporation of autophagosomes to phagosomes has not been reported previously. In addition to studying the degradation of apoptotic cells, this protocol can be applied to study the degradation of non-apoptotic cell cargos inside phagosomes, as well as the fusion between other types of intracellular organelles in living C. elegans embryos. Furthermore, its principle of detecting the membrane fusion event can be adapted to study the relationship between autophagosomes and phagosomes or other intracellular organelles in any biological system in which real-time imaging can be conducted. eLife (2022), DOI: 10.7554/eLife.72466.