The potent osteoclastogenic agent, tumor necrosis factor-alpha (TNF), exert
s its biological effects via two receptors, namely TNF receptors 1 (p55r) a
nd 2 (p75r), each present on osteoclast precursors. Thus, we asked if p55r
and p75r differentially impact the osteoclastogenic process. Marrow derived
from mice expressing only p55r generates substantially more osteoclasts, i
n the basal state, than does wild type, while marrow expressing only p75r,
produces substantially fewer. Reflecting its preferential activation of pb5
r, exogenous TNF stimulates osteoclast formation by p55r(+/+)p75r(-/-), but
not p65r(-/-)p76r(+/+), marrow. Consistent with the fact that NF-kappa B i
s essential for osteoclastogenesis, this transcription complex is activated
, relative to wild type, in p55r(+/+)p75r(-/-) osteoclast precursors and su
ppressed in those expressing only p75r. Because p55r enhances, and p75r sup
presses, osteoclastogenesis, we asked if their principal ligands, namely so
luble and membrane-residing TNF, respectively, differrentially impact basal
osteoclast recruitment. We find, in contrast to the significant level of o
steoclast formation in wild type marrow, osteoclastogenesis by that derived
from mice expressing membrane, but not soluble, TNF, is negligible. Thus,
optimal therapeutic inhibition of bone resorption may entail selective TNF
receptor modulation and/or arrested cleavage of membrane TNF to its soluble
form.