FUNCTIONAL PROPERTIES OF NEURONAL AND GLIAL ISOENZYMES OF BRAIN ENOLASE

Abstract— Two of the major brain enolase (EC 4.2.1.11) isoenzymes exist as cell specific forms. The neuron specific enolase (NSE) is localized in neurons and the non‐neuronal enolase (NNE) in glial cells. A third enolase containing one subunit from each of the above species is also present in brain and has been designated hybrid enolase. The stabilities of the brain enolases towards incubation with chloride and bromide salts is markedly different. NNE is rapidly inactivated upon incubation in 0.5 M‐KCI or KBr while NSE is minimally effected and the hybrid has an intermediate stability. The inactivation is temperature dependent and reversible by salt removal. Magnesium exerts a stabilizing effect on each enzyme form. The mechanism of the reversible salt inactivation involves dissociation of the enolase subunits with reassociation occurring during reactivation. The brain enolases also display marked stability differences during incubation in 3 M‐urea. with the neuronal form again being more stable. The urea inactivation was highly reversible for NNE but only marginally so for NSE. The neuronal enolase is also by far the most stable of the brain enolases at 50°C.