Disintegrins, a family of polypeptides released in the venoms of viperid snakes (vipers and rattlesnakes) by the proteolytic processing of multidomain metalloproteinases, selectively block the function of β(1) and β(3) integrin receptors. Few of the proteins isolated and characterized from snake venoms have proven to be more structural and functional versatile than the disintegrins. Not surprisingly, 25 years after their discovery, our knowledge on the evolutionary history and the molecular determinants modulating the integrin inhibitory activity of disintegrins still remain fragmentary. This paper highlights some seminal contributions, including personal accounts of pioneer authors, related to basic and applied research on disintegrins. Investigators have evaluated disintegrin applications in therapies for a number of pathologies in which integrin receptors play relevant roles, particularly myocardial infarction and inappropriate tumor angiogenesis. Completing the continuing story of the disintegrin family by applying novel research approaches may hold the key to learn how to use deadly toxins as therapeutic agents.