Fine structural study of gas secretion in the physoclistous swim bladder of Fundulus heteroclitus and Gadus callarias and in the euphysoclistous swim bladder of Opsanus tau

Summary The Haldane-Koch-Scholander-Kuhn-Steen theory of salting out countercurrent multiplication effect of the rete mirabile now accounts for release of most gases in the fish swim bladder. Evidence presented here indicates that final release is by microbubbles from the secretory epithelium. There is only one specific cell type in a highly vascularized epithelium. It is characterized by complex folds in the paravascular zone and by gas forming bodies which seem to form from plentiful Golgi material. The bodies are formed with dark amorphous matrix that becomes patterned (tubular or lamellar), finally froths and then is released to the gas surface. Residual material may form myelin-like layers on the lumenal surface. Active cells are also characterized by surface villi and subsurface, parallel cisternal spaces. Gas may be formed by cells not touching the gas surface and released through intercellular spaces. There are discontinuous desmosomes (maculae adhaerentes) near the gas surface and there are no tight junctions (zonulae occludentes). Gas release as bubbles would explain Wittenbergs observations that the gases found in swim bladders have ratios more closely related to their solubility coefficients in water than to ambient partial pressures. A surfactant may be present to lower the surface tension of the microbubbles. The carrier in the cytoplasm would have to be an iron-protein (or perhaps peroxidase) compound capable of binding molecular oxygen.Supported by grant-in-aid from the national Science Foundation (GB-676) and from the USPHS (General Medical Sciences Institute, GM-06836).