
Died at 93
male
Peter Seamus O'Toole (August 2, 1932 – December 14, 2013) was a British-Irish actor. He attended the Royal Academy of Dramatic Art and began working in the theatre, gaining recognition as a Shakespearean actor at the Bristol Old Vic and with the English Stage Company. In 1959 he made his West End debut in The Long and the Short and the Tall, and played the title role in Hamlet in the National Theatre's first production in 1963. Excelling on the London stage, O'Toole was known for his "hellraiser" lifestyle off it. Making his film debut in 1959, O'Toole achieved international recognition playing T. E. Lawrence in Lawrence of Arabia (1962) for which he received his first nomination for the Academy Award for Best Actor. He was nominated for this award another seven times – for playing King Henry II in both Becket (1964) and The Lion in Winter (1968), Goodbye, Mr. Chips (1969), The Ruling Class (1972), The Stunt Man (1980), My Favorite Year (1982), and Venus (2006) – and holds the record for the most Oscar nominations for acting without a win (tied with Glenn Close). In 2002, he was awarded the Academy Honorary Award for his career achievements. O'Toole was the recipient of four Golden Globe Awards, one BAFTA Award for Best British Actor and one Primetime Emmy Award. Other performances include What's New Pussycat? (1965), How to Steal a Million (1966), Supergirl (1984), and minor roles in The Last Emperor (1987) and Troy (2004). He also voiced Anton Ego, the restaurant critic in Pixar's Ratatouille (2007).

Peter O'Toole

Moloch the Mystic
for Moloch the Mystic in Watchmen (1999)
Suggested by masterofcool

Set in an alternate 1985 America, costumed superheroes are part of everyday life. When one of his former comrades is murdered, masked vigilante Rorschach uncovers a plot to kill and discredit all past and present superheroes. As he reconnects with his retired associates, only one of which has true powers, all of them are exposed to a much darker plot involving their shared past and catastrophic consequences for the world's future.