IntroductionTo investigate the role of the low-density lipoprotein receptor-related protein 5 (Lrp5) in bones' responses to loading, we analysed changes in multiple measures of bone architecture in tibias subjected to loading or disuse in male and female mice with the Lrp5 loss of function mutation (Lrp5−/−) or heterozygous for the Lrp5 G171V High Bone Mass (HBM) mutation (Lrp5HBM+).Materials and methodsThe right tibias of these 17 week old male and female mice and their Wild Type (WT) littermates were subjected to short periods of loading three days a week for two weeks. Each tibia was loaded for 40 cycles, to produce peak strains at the midshaft within the low, medium or high physiological range (~ 1500, 2400 and 3000 microstrain, respectively). In similar groups of mice the right sciatic nerve was severed causing disuse of the right tibia for 3 weeks. Data from microCT of loaded, neurectomised and contra-lateral control tibias were analysed to quantify changes in the cortical and cancellous regions of the bone in the absence of functional strains and in response to graded strains in addition to those derived from function.Results and conclusionMale WT+/+ controls showed significant strain:response curves for cortical area and trabecular thickness, but Lrp5−/− mice showed no detectable strain:response in those same outcomes. Female mice of either WT+/+ or Lrp5−/− genotype did not show significant strain:response curves for cortical or trabecular parameters, the one exception being Tb.Th in Lrp5−/− mice. Since female WT+/+ mice did not respond to loading in a significant dose:responsive manner, the similar lack of responsiveness of the Lrp5−/− females could not be ascribed to their Lrp5 status. Cortical bone loss associated with disuse showed no differences between Lrp5−/− mice and WT+/+ controls, but in cancellous bone of both male and females of these mice, there was a greater loss than in WT+/+ controls. In contrast, the tibias of male and female mice heterozygous for the Lrp5 G171V HBM mutation showed greater osteogenic responsiveness to loading and less bone loss associated with disuse than their WTHBM− controls. These data indicate that the presence of the Lrp5 G171V HBM mutation is associated with an increased osteogenic response to loading but support only a marginal gender-related role for normal Lrp5 function in this loading-related response.
Summary
Biochemical markers of bone metabolism were analysed in serum samples obtained from 60 horses with no history of orthopaedic disease (age 3 months‐20 years). Serum levels of the carboxyterminal propeptide of type I procollagen (PICP), a marker of bone formation and the pyridinoline cross linked telopeptide domain of type I collagen (ICTP), a putative marker of bone resorption, were measured by radioimmunoassay (RIA). Serum levels of the bone specific isoenzyme of alkaline phosphatase (BALP), another marker of bone formation, were measured by a wheatgerm agglutinin affinity (WGA) method. Total alkaline phosphatase levels were also determined. Serum levels of PICP were significantly correlated with bone ALP (r=0.78, P<0.0001) and ICTP (r=0.87, P<0.0001). ICTP levels also correlated significantly with bone ALP (r=0.81, P<0.0001). However, total alkaline phosphatase did not correlate significantly with PICP, ICTP and BALP in horses over 1 year of age. There was an inverse correlation between serum levels of all biochemical markers and age of animals, with the most significant changes seen over the first 2 years. In animals less than 1 year of age, the reference ranges (mean ± s.d. 1.96) were as follows: PICP 1216–2666 μg/l, ICTP 13.8–26.7 μg/l, bone ALP 134–288 u/l and total ALP 223–498 u/l. In 2‐year‐olds, the equivalent reference ranges were: PICP 550–1472 μg/l, ICTP 7.96‐22.8 μg/l, bone ALP 32.7–125 u/l and total ALP 134–238 u/l. Assays for bone ALP and antigens that reflect collagen metabolism display significant potential as sensitive non invasive methods of evaluating bone metabolism in the horse.
Carpal and MCP/MTP joint injuries are an important cause of morbidity in Thoroughbred racehorses. Identification of modifiable risk factors for these injuries may reduce their incidence.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.