A neurodegenerative disease mutation that accelerates the clearance of apoptotic cells.

Frontotemporal lobar degeneration is a progressive neurodegenerative syndrome that is the second most common cause of early-onset dementia. Mutations in the progranulin gene are a major cause of familial frontotemporal lobar degeneration [Baker M, et al. (2006) Nature 442:916-919 and Cruts M, et al. (2006) Nature 442:920-924]. Although progranulin is involved in wound healing, inflammation, and tumor growth, its role in the nervous system and the mechanism by which insufficient levels result in neurodegeneration are poorly understood [Eriksen and Mackenzie (2008) J Neurochem 104:287-297]. We have characterized the normal function of progranulin in the nematode Caenorhabditis elegans. We found that mutants lacking pgrn-1 appear grossly normal, but exhibit fewer apoptotic cell corpses during development. This reduction in corpse number is not caused by reduced apoptosis, but instead by more rapid clearance of dying cells. Likewise, we found that macrophages cultured from progranulin KO mice displayed enhanced rates of apoptotic-cell phagocytosis. Although most neurodegenerative diseases are thought to be caused by the toxic effects of aggregated proteins, our findings suggest that susceptibility to neurodegeneration may be increased by a change in the kinetics of programmed cell death. We propose that cells that might otherwise recover from damage or injury are destroyed in progranulin mutants, which in turn facilitates disease progression.

Characterization of a conserved apoptotic marker expressed in Caenorhabditis elegans phagocytic cells.

We have identified and characterized a monoclonal antibody, F2-P3E3, that recognizes a Caenorhabditis elegans apoptotic epitope expressed within phagocytic cells, which is conserved in four other nematode species. In C. elegans, F2-P3E3 staining requires both programmed cell death and phagocytosis. We show that the F2-P3E3 epitope is expressed within embryonic intestinal cells, which act as phagocytes but do not undergo programmed cell death. F2-P3E3 staining is present within LMP-1::GFP labeled organelles in the intestinal primordium and is coincident with persistent DNA that has been phagocytosed in nuc-1(-) embryos, suggesting that it labels phagosomes. While apoptotic events are typically isolated in C. elegans, F2-P3E3 staining is commonly found within adjacent cells. This observation suggests that F2-P3E3 might recognize an epitope expressed in multiple cells in response to signals from a single corpse. F2-P3E3 represents a new tool for studying cell death in C. elegans.