Abstract
RAT liver lysosomes have been shown1,2 to act as “osmotic systems” and to be stable in 0.25 M sucrose solution, presumably as the lysosomal membrane was not permeable to sucrose. Suspension in 0.125 M sodium chloride led to a transient osmotic protection and graded lysis, where the rate-limiting step was presumed to be entry of the sodium chloride. The effects of fat-soluble vitamins and steroids on lysosomes, in vitro, were extensively studied3,4. De Duve et al.3 suggested that compounds causing lysis of lysosomes may act by initiating a sequence of events involving altered permeability to solutes, osmotic swelling and rupture. We report here experiments which support the hypothesis that progesterone-induced lysis of lysosomes suspended in 0.25 M sucrose is due to an increased permeability of the membrane to sucrose leading to osmotic rupture.
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