Parathyroid hormone-lymphocyte interactions modulate bone resorption.

The biologically active PTH fragment 1-34 induces mononuclear leukocytes to produce a substance(s) capable of increasing bone resorption, as assayed in an organ culture system. The onset of the effect is evident at 2 days and lasts at least 7 days. The cell responsible for this effect appears to be an activated nonadherent lymphocyte (probably T-cell). PTH-(1-34) induces these cells to secrete this factor(s). The presence of adherent mononuclear leukocytes or appropriate conditioned medium appears to augment this response. Secretion of this factor(s) is specific for PTH-(1-34); it is not induced by biologically inactive PTH fragments, nor can it be induced by incubating mononuclear leukocytes with other hormones, including human PRL or lysine vasopressin. On the other hand, PTH-(1-34), human PRL, and lysine vasopressin all activate mononuclear leukocytes, as determined by [3H]thymidine incorporation. Biologically inactive PTH fragments do not. Thus, while lymphocyte activation may be a necessary prerequisite to lymphocyte modulation of bone resorption, it is not sufficient of itself. The PTH fragment 1-34 activates mononuclear leukocytes and specifically induces nonadherent lymphocytes to produce a substance(s) capable of increasing bone resorption. Preliminary characterization of this substance(s) shows that cellular components of the organ culture are necessary to demonstrate the increased resorptive capacity of PTH-stimulated lymphocyte supernatants. Secondly, this resorptive capacity is heat sensitive. Finally, this substance(s) appears to have a nominal molecular radius greater than 14,000 daltons, but less than 50,000 daltons.