Cells in living organisms communicate with each other in a variety of ways. One mechanism was discovered just 15 years ago: tunneling nanotubes, membrane-sheathed channels of cytoplasm that can connect individual cells separated by distances of 100 µm or more. The interconnections fall into two general classes. Thin nanotubes, with diameters less than about 700 nm, contain microfilaments of the cytoskeletal protein actin; thick nanotubes hold microfilaments and microtubules. Depending on the type, tunneling nanotubes can shuttle a variety of cargo, such as genetic material, organelles, pathogens, and misfolded proteins, between the connected cells. This electron micrograph shows examples of each class spanning the gap between two human macrophages, white blood cells tasked with ingesting and disposing of cellular debris and foreign invaders.

Elucidating the role of macrophages was part of a study by researchers in Argentina and France seeking to understand why tuberculosis (TB) and HIV make such a...

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