Measurement of Calcium Buffering by Intracellular Organelles in Brain

Cells maintain low concentrations of intracellular free calcium ([Ca ²⁺ ] _i ) by the effective operation of Ca ²⁺ pumps located in plasma membrane as well as intracellular organelles, such as mitochondria and endoplasmic reticulum (microsomes) ( 1 , 2 ). Under normal conditions, Ca ²⁺ enters the cell by diffusion down an electrochemical gradient through voltage-dependent or receptor-mediated Ca ²⁺ -sensitive channels ( 2 ). Calcium can also be released from intra-cellular stores such as endoplasmic reticulum and mitochondria. As cytosolic free Ca ²⁺ increases, Ca ²⁺ -binding proteins, mitochondria, and microsomes initially sequester the Ca ²⁺ from cytosol. However, if there is a sustained influx of Ca ²⁺ , low cytoplasmic Ca ²⁺ level is maintained by active extrusion through plasma membrane Ca ²⁺ -ATPase and by the Na ⁺ /Ca ²⁺ exchanger ( 1 , 2 ). Mitochondria and microsomes differ in the mechanisms by which they sequester cytoplasmic Ca ²⁺ . Microsomal Ca ²⁺ -sequestration is an active process involving ATP hydrolysis by Ca ²⁺ -ATPase. On the other hand, mitochondrial Ca ²⁺ -sequestration is an electrophoretic uniport process driven by the potential difference established across the mitochondrial inner membrane by an ATP-energized proton pump ( 1 ). These calcium-buffering processes within the neuron are illustrated in Fig. 1 . The efficient operation of calcium sequestration and extrusion mechanisms within the cell is crucial for the maintenance of normal calcium homeostasis.

---