Vescalagin (1) is a major ellagitannin from young spring leaves of Quercus glauca; however, the amount of 1 decreases as the leaves mature with a concomitant rise in the levels of catechin (3) and procyanidins. In this report, the chemical mechanism responsible for the degradation of 1 was investigated. In vitro model experiments indicated that initially a polyphenol oxidase oxidizes the catechin B-ring, and the resulting catechin o-quinone oxidizes one of the pyrogallol rings of 1 to give a cyclopenten-1,2-dione-type product 4. The presence of 4 in young oak leaves was confirmed by the detection of 4 and its quinoxaline derivative 4a. Furthermore, it was demonstrated that the cyclopenten-1,2-dione moiety of 4 nonenzymatically reacted with the catechin A-ring to yield the conjugate 5. Similar conjugations probably occur with procyanidins; thus, these reactions are possibly responsible for the decrease in the levels of 1 in leaves. The same cyclopenten-1,2-dione product 4 was also generated by treatment of 1 with a wood-rotting mushroom, Lentinula edodes, and further oxidative cleavage of a second pyrogallol ring of 4 was also observed. The results indicate the presence of a common degradation mechanism of 1 by plants and microbes.