Description
General Description
Factor Bb is the fragment of complement factor B that results from activation of the alternative pathway. The Bb fragment is made from factor B which was purified
from normal human serum. Complement factor B is a glycosylated protein composed of a single 93,000 Da polypeptide chain. It is an essential component of the alternative
pathway of complement activation and is found in plasma at approximately 200 µg/mL. In the presence of Mg++ factor B binds to C3b and the C3b,B complex can be activated
by factor D, a serine protease that circulates as an active trypsin-like serine protease. Cleavage of factor B by factor D causes the release of the Ba fragment (33,000 Da) and
leaves the 60,000 Bb fragment bound to C3b. This Bb subunit comes from the C-terminal of factor B and it contains the proteolytic active site of the serine protease
C3b,Bb (Morley, B.J. and Walport, M.J. (2000)). C3b,Bb is called a C3 and a C5 convertase because it converts both of these proteins to their active forms by cleaving off
the small peptides C3a and C5a, respectively (Morikis, D. and Lambris, J.D. (2005); Morley, B.J. and Walport, M.J. (2000)). C3b,Bb is an unstable trypsin-like serine
protease with a half-life of approximately 90 seconds. In the presence of factors that accelerate decay (factor H, DAF, and CR1) it is dissociated is seconds. This releases the
fragment Bb into solution. Once released from C3b the Bb fragment is no longer active in complement and lacks a typical serine protease active site.
Physical Characteristics & Structure
Molecular weight: 60,000 Daltons, single chain protein containing carbohydrate (Rother (1998); Morley & Walport). The protein is negatively charged at serum pH.
Bb contains two domains one of which is a von Willebrand factor-like A domain that binds to Mg++ and to C3b and the other, the C-terminal domain, contains the active
serine protease site. Crystal structures for the serine protease domain at 2.1 angstrom resolution (Jing, H. (2000)), the A domain (Milder, F.J. (2007)) and the whole protein
(Bhattacharya, A.A. (2004)) at 2.3 angstrom resolution have been published.
Function
The fragments of factor B (Ba and Bb) have been proposed to elicit numerous biological responses; however, many of these activities have proved to be controversial
with an inconsistent record of reproducibility. It is not yet clear whether these failures are due to different experimental conditions, more highly purified Ba and Bb or the need
to test fresh, in situ-prepared fragments, as has been suggested. Both fragments have been reported to bind to B lymphocyte receptors and modulate proliferation (Kolb, W.P.,
et al. (1989)). Fragment Bb has been reported to induce activation and spreading of human and murine macrophages and monocytes (Sundsmo, J.S. and Gotze, O. (1981)),
although the activity was inhibited by anti-C5 presumably by preventing secondary activation of C5 and release of C5a (Sundsmo & Gotze (1981)). Both factor B and the
Bb fragment have been reported to stimulate intracellular killing of Staph. aureus by human monocytes (Leijh, P.C. et al. (1982)). Fragment Bb has also been reported to
induce secretion of lysosomal hydrolases from peritoneal mononuclear phagocytes in an interleukin-like manner (Hirani, S. et al. (1985)). Bb has been reported to act as a B cell
growth factor (Peters, M.G. (1988)) and it has also been reported to be a specific inhibitor of C5a desArg chemotactic activity (Perez, H.D. (1987)). Activation of bovine
monocytes and neutrophils by Bb was found to be comparable to the activation by PMA and FMLP (Sethi, M.S. et al. (1990)). Evidence for protein receptors for Bb on human
monocytes grown in culture for 24 hrs and on guinea pig macrophages has been reported (Saeki T. and Nagasawa, S. (1989)). Other studies have reported that Bb stimulates the
microbicidal activity of bovine monocytes (Seith, M.S. and Tabel, H. (1990a)) and that it stimulates the oxidative burst (Seith, M.S. and Tabel, H. (1990b)) of bovine monocytes.
More recently, Bb was demonstrated to induce apoptosis in leukemic cells through a suicide mechanism of myeloid lineage cells (Uwai, M. et al. (2000)). A factor isolated
from fetal bovine serum that improved the long term survival of human endothelial cells in culture turned out to be the bovine Bb fragment (Cai, G. et al. (1997)).
The fragment Bb possesses the proteolytic site of C3b,Bb, but once Bb is released from C3b it no longer expresses proteolytic activity toward C3 or C5. Reports of low
level proteolytic activity towards synthetic substrates have been shown to be due to contaminating thrombin in some Bb preparations. Reported activities toward clotting
factors probably have a similar explanation although highly sensitive fluorescent ester lytic assays may be able to detect residual Bb activity.
Assays
There are no convenient assays for the proteolytic activity of Bb primarily because its activity is so poor compared to a typical trypsin-like protease. It is usually
referred to as inactive after its release from C3b. Several companies produce ELISA kits for measuring Bb levels in blood samples (Dodds, A.W. and Sim, R.B. (1997)).
In vivo
Split products of factor B in plasma are indicative of activation of the alternative pathway in vivo. ELISA kits for measurement of Ba and Bb are commercially available.
These have been used in numerous human and animal studies (Lynch, A.M., et al. (2008))