BACKGROUND: To separate non-(1-84)parathyroid hormone [non-(1-84)PTH] from PTH(1-84), we developed new HPLC gradients and observed that the peak coeluting with hPTH(1-84) could be separated into two entities recognized by a cyclase-activating PTH (CA-PTH) assay that reacts with the first four amino acids of the PTH structure. METHODS: Sera from six healthy individuals and five patients with primary hyperparathyroidism, and eight pools of sera from patients in renal failure were fractionated by HPLC. A total (T)-PTH assay reacting with the (15-20) region, the CA-PTH assay, and a COOH-terminal (C)-PTH assay with a (65-84) structure requirement were used to measure basal and fractionated PTH values. RESULTS: T-PTH was higher than CA-PTH in all healthy controls [mean (SD), 3.13 (0.37) vs 2.29 (0.33) pmol/L; P <0.01] and in renal failure patients [47 (35.1) vs 33.4 (26.1) pmol/L; P <0.01]. By contrast, CA-PTH concentrations were similar to or higher than T-PTH in three of five patients with primary hyperparathyroidism [25.7 (26.1) vs 23.1 (24.2) pmol/L; not significant]. The CA-PTH assay reacted with the hPTH(1-84) peak and with a minor peak different from the non-(1-84) peak recognized by the T-PTH assay. This minor peak was not recognized by the T-PTH assay. It represented 8 (2)% of CA-PTH in controls, 25 (23)% in patients with primary hyperparathyroidism, and 22 (7)% in renal failure patients, assuming equimolar reactivity to hPTH(1-84) in the CA-PTH assay. It was not oxidized hPTH(1-84), which migrated differently on HPLC and reacted similarly in the CA and T-PTH assays. CONCLUSIONS: This new molecular form of PTH has structural integrity of the (1-4) region but presumably is modified in the region (15-20), which is usually recognized by the T-PTH assay. Its clinical implications remain to be defined.
BACKGROUND: To separate non-(1-84)parathyroid hormone [non-(1-84)PTH] from PTH(1-84), we developed new HPLC gradients and observed that the peak coeluting with hPTH(1-84) could be separated into two entities recognized by a cyclase-activating PTH (CA-PTH) assay that reacts with the first four amino acids of the PTH structure. METHODS: Sera from six healthy individuals and five patients with primary hyperparathyroidism, and eight pools of sera from patients in renal failure were fractionated by HPLC. A total (T)-PTH assay reacting with the (15-20) region, the CA-PTH assay, and a COOH-terminal (C)-PTH assay with a (65-84) structure requirement were used to measure basal and fractionated PTH values. RESULTS:T-PTH was higher than CA-PTH in all healthy controls [mean (SD), 3.13 (0.37) vs 2.29 (0.33) pmol/L; P <0.01] and in renal failurepatients [47 (35.1) vs 33.4 (26.1) pmol/L; P <0.01]. By contrast, CA-PTH concentrations were similar to or higher than T-PTH in three of five patients with primary hyperparathyroidism [25.7 (26.1) vs 23.1 (24.2) pmol/L; not significant]. The CA-PTH assay reacted with the hPTH(1-84) peak and with a minor peak different from the non-(1-84) peak recognized by the T-PTH assay. This minor peak was not recognized by the T-PTH assay. It represented 8 (2)% of CA-PTH in controls, 25 (23)% in patients with primary hyperparathyroidism, and 22 (7)% in renal failurepatients, assuming equimolar reactivity to hPTH(1-84) in the CA-PTH assay. It was not oxidized hPTH(1-84), which migrated differently on HPLC and reacted similarly in the CA and T-PTH assays. CONCLUSIONS: This new molecular form of PTH has structural integrity of the (1-4) region but presumably is modified in the region (15-20), which is usually recognized by the T-PTH assay. Its clinical implications remain to be defined.
Authors: John P Bilezikian; Aliya Khan; John T Potts; Maria Luisa Brandi; Bart L Clarke; Dolores Shoback; Harald Jüppner; Pierre D'Amour; John Fox; Lars Rejnmark; Leif Mosekilde; Mishaela R Rubin; David Dempster; Rachel Gafni; Michael T Collins; Jim Sliney; James Sanders Journal: J Bone Miner Res Date: 2011-10 Impact factor: 6.741
Authors: Philippe Caron; William F Simonds; Jean-Christophe Maiza; Mishaela Rubin; Tom Cantor; Louise Rousseau; John P Bilezikian; Jean-Claude Souberbielle; Pierre D'Amour Journal: Clin Endocrinol (Oxf) Date: 2011-06 Impact factor: 3.478