Endosymbiotic bacteria associated with the intracellular green algae ofHydra viridis

Gram-negative bacteria 4.5–5.5 μm in length and 1.2 μm in diameter are found in gastrodermal cells of three stains of freshwater green hydras,Hydra viridis (Ohio and Carolina from North America, Jubilee strain from England). They are motile via single polar flagella. They were detected in live animals, Jensen stained material, and electron micrographic sections. Bacteria lose motility quickly upon release from hydra cells. Green hydras harbor strain-specific numbers of chlorellae in these cells. Other tissue types lack algae. The chlorella-hydra symbiosis can be disassociated and the partners grown separately; transfer of photosynthate from algae to hydra occurs. Here we report the presence of endocellular bacterial vesicles specifically associated with cells that contain the symbiotic chlorellae. No cells that contained algae and lacked bacteria were seen. Vesicles, especially conspicuous in sexually mature green hydras, are probably produced upon extrusion from the cell. They contain either algae and bacteria or bacteria alone and are often expelled to the surrounding medium via the coelenteron. Bacteria are absent in nerve cells, interstitial cells, nematocysts, mucous cells, sperm, and probably in most of the other cell types that lack algae. They are present in at least one cell type that lacked algae: the columnar ovarian cells. Bacteria were lost in “bleached” hydras, those induced to lose their algae by high intensity light in a solution of DCMU, a standard inhibitor of photosynthesis. They were absent in a fourth strain of green hydra (Connecticut Valley,H. viridis) and inH. fusca andH. littoralis, two freshwater nonsymbiotic hydras. All of the hydra lacking bacteria contain conspicuous lipid droplets in their cells. The presence of large numbers of bacteria has implications for interpretations of metabolic exchange between host and algal symbionts and for extrapolation of metabolic data from strain to strain ofH. viridis.