Thermal stability of bone collagen as an indicator of bone turnover in gonadectomized and multiparous rats

Abstract

Previous findings indicate that the thermal stability of bone collagen is related to age. In this study, collagen from rat bone with reported different turnover rates was investigated. Cortical and trabecular bone from femur were obtained from intact, ovariectomized, orchidectomized and multiparous breeder rats. Thermal stabilities of fibrillar collagen in decalcified bone matrix and molecular collagen obtained by pepsin treatment were measured as shrinkage (Ts) and 'melting' temperature (Tm), respectively. Both Ts and Tm of cortical collagen from intact female rats decreased in parallel with age as previously found in male rats indicating that Ts and Tm measurements are interchangeable techniques in characterizing the thermal stability of bone collagen. Tm of trabecular collagen from intact rats decreased with age, however, with a decay only one-third of that for cortical collagen. The different rates possibly reflect different ages of collagen due to remodeling activity present in trabecular and minimal in cortical bone. Compared with control rats the Tm of trabecular collagen from gonadectomized and multiparous rats with a reported increased trabecular turnover rate was elevated, whereas only minor variations in Tm of cortical collagen were found. In conclusion, the thermal stability of bone collagen decreases with the age of the collagen. Increased bone turnover implies elevated thermal stability of bone collagen. Thus, thermal stability of bone collagen appears to be an indicator of bone turnover.