We investigated the relative contributions of PTH and PTHrP to the skeletal phenotype of mice deficient in PTH (PTH(-/-)). PTH(-/-) mice and PTH(-/-) mice lacking one allele encoding PTHrP (PTH(-/-)PTHrP(+/-)) were compared. Both mutants displayed similar biochemical abnormalities of hypoparathyroidism, but skeletal PTHrP mRNA and protein were decreased in PTH(-/-)PTHrP(+/ -) mice. PTH(-/-) mice had increased trabecular bone volume with diminished bone turnover. PTHrP haploinsufficiency reduced trabecular bone of the PTH(-/-) mice to levels below those in wild-type animals by decreasing osteoprogenitor cell recruitment, enhancing osteoblast apoptosis, and diminishing bone formation. The results show that the increased trabecular bone volume in PTH-deficient mice is due to diminished PTH-induced osteoclastic bone resorption and persistent PTHrP-stimulated osteoblastic bone formation. They also illustrate the changing role of PTHrP during bone development, demonstrate its bone- forming function in the postnatal state, and support its pharmacological potential as an anabolic agent.