Immature tubules are tolerant of oxygen deprivation.

The tolerance of immature tissues to injury has been noted over the past several decades. Traditional teaching relates this tolerance to energy derived from anaerobic glycolysis. This mini-review describes investigations of the hypothesis that the immature kidney is less susceptible to oxygen deprivation than the mature kidney. Utilizing proximal tubule suspensions from immature and mature rats, studies assessing ATP levels as an index of cellular energy and lactate dehydrogenase (LDH) release as a determinant of plasma membrane damage demonstrate the developing kidney is resistant to prolonged anoxia. ATP is maintained at twofold higher levels during anoxia in the immature tubule compared with the mature tubule. The contribution of anaerobic glycolysis to the tolerance of the immature renal tubules is investigated by two inhibitors of the glycolytic pathway, L-glucose and iodoacetate. Following 70%-90% inhibition of glycolysis, ATP is decreased to similar levels in immature and mature tubules. However, immature tubules remain resistant to anoxic damage with no significant change in LDH release. Therefore, enhanced glycolytic activity does not play a dominant role in the tolerance of the developing kidney to anoxia, and this tolerance is not primarily dependent on preservation of cellular ATP.