PTH/PTHrP receptor mRNA is down-regulated in epiphyseal cartilage growth plate of uraemic rats

PTH/PTHrP receptor mRNA is down-regulated in epiphyseal cartilagegrowth plate of uraemic rats. Growth retardation, hypocalcaemia,hyperphosphataemia, and skeletal resistance to the action ofPTH are well known features of advanced chronic renal failure(CRF). It has been suggested that the downregulation of renaland skeletal PTH receptors (PTH/PTHrP-R) could play an importantrole in the occurrence of these abnormalities. In the presentstudy, four uraemic (4 weeks after 5/6 nephrectomy) and fourcontrol (sham-operated) rats were analysed for PTH/PTHrP-R mRNAexpression at the proximal femoral and tibial growth platesby in situ hybridization. Uraemic rats had plasma biochemicalabnormalities of advanced CRF including high creatinine, phosphate,and PTH, and low calcium and calcitriol levels. The femoraland tibial bones of uraemic animals were shorter in length thanthose of control rats, and had reduced width and cellularityof the epiphyseal cartilage growth plate. Mean (±SD)tibia growth plate width was 152±30 µm in uraemicrats, compared with 170±35 µm in control rats.The difference was mostly due to a marked reduction of the zoneexpressing PTH/PTHrP-R (mature chondrocytes) which was 30±5µm in tibias from uraemic versus 44±10 µmin tibias from control rats. The hybridization signals of PTH/PTHrP-Rper individual cell were quantified on dark field images usinga computer-assisted image analysis system. The number of grainsin PTH/PTHrP-R positive cells was also decreased in uraemicrats, 103±13 compared with 123±14 arbitrary units(dark pixel density)/cell in control rats (P 0.005). In conclusion,these data indicate that rats with severe CRF and secondaryhyperparathyroidism have reduced epiphyseal cartil age PTH/PTHrP-RmRNA expression. This alteration may be relevant in the pathogenesisof growth retardation in uraemia.