Histomorphometric identification of carbonic anhydrase in fetal rat bone embedded in glycolmethacrylate

Abstract

Carbonic anhydrase was identified in bone-resorbing cells present in sections of fetal rat femur embedded in glycolmethacrylate. Using a slight modification of the Hansson's histochemical method, we demonstrated that most chondroclasts (91.8-95.4%) and osteoclasts (95.1-96.3%) display a positive histochemical reaction for carbonic anhydrase. This staining was consistently inhibited in the presence of very low concentrations (10-6, 10-7 M) of the specific inhibitor acetazolamine. The number of chondroclasts reacting for carbonic anhydrase was identical to the number of acid phosphatase-stained chondroclasts determined on adjacent sections. A large majority of osteoclasts (96.3%) stained for carbonic anhydrase and for acid phosphatase (97.2%), with more osteoclasts reacting for the latter enzyme than the former (76.8 ± 8.5 (SD) vs 85.3 ± 9.2 cells/mm2 of endosteal bone; p<0.01). The observation that acetazolamide at a concentration as low as 10-7 M inhibited Hansson's reaction, together with our histomorphometric results, validates the use of histochemical staining for carbonic anhydrase to evaluate activity of bone-resorbing cells identified in plastic-embedded fetal bone tissue.