Alternative complement pathway

The classical and alternative complement pathways.
Alternative pathway. (Some labels are in Polish.)

The alternative pathway of the complement system is an innate component of the immune system's natural defense against infections.

The alternative pathway is one of three complement pathways that opsonize and kill pathogens. The pathway is triggered when the C3b protein directly binds a microbe. It can also be triggered by foreign materials and damaged tissues.

Cascade

It is initiated by the spontaneous hydrolysis of C3, which is abundant in the blood plasma. "Tickover" occurs through the spontaneous cleavage of the thioester bond in C3 to form C3(H2O).

This change in shape allows the binding of plasma protein Factor B, which allows Factor D to cleave Factor B into Ba and Bb.

Bb remains bound to C3(H2O) to form C3(H2O)Bb. This complex is also known as a fluid-phase C3-convertase. This convertase, the alternative pathway C3-convertase, although only produced in small amounts, can cleave multiple C3 proteins into C3a and C3b. The complex is believed to be unstable until it binds properdin, a serum protein. The addition of properdin forms the complex C3bBbP, a stable compound which can bind an additional C3b to form alternative pathway C5-convertase.

The C5-convertase of the alternative pathway consists of (C3b)2BbP (sometimes referred to as C3b2Bb). After the creation of C5 convertase (either as (C3b)2BbP or C4b2a3b from the classical pathway), the complement system follows the same path regardless of the means of activation (alternative, classical, or lectin). C5-convertase cleaves C5 into C5a and C5b. C5b binds sequentially to C6, C7, C8 and then to multiple molecules of C9 to form membrane attack complex.

Regulation

Since C3b is free and abundant in the plasma, it can bind to either a host cell or a pathogen surface. To prevent complement activation from proceeding on the host cell, there are several different kinds of regulatory proteins that disrupt the complement activation process:

Role in Disease

Dysregulation of the complement system has been implicated in several diseases and pathologies. Age Related Macular Degeneration (AMD) is now believed to be caused, at least in part, by complement mediated attack on ocular tissues.[5] Alternative Pathway activation might also play a significant role in kidney pathology associated with Lupus [6]

See also

References

  1. Conrad DH, Carlo JR, Ruddy S (June 1978). "Interaction of beta1H globulin with cell-bound C3b: quantitative analysis of binding and influence of alternative pathway components on binding". J. Exp. Med. 147 (6): 1792–1805. doi:10.1084/jem.147.6.1792. PMC 2184316Freely accessible. PMID 567241.
  2. Weiler JM, Daha MR, Austen KF, Fearon DT (September 1976). "Control of the amplification convertase of complement by the plasma protein beta1H". Proc. Natl. Acad. Sci. U.S.A. 73 (9): 3268–72. doi:10.1073/pnas.73.9.3268. PMC 431003Freely accessible. PMID 1067618.
  3. Pangburn MK, Schreiber RD, Müller-Eberhard HJ (July 1977). "Human complement C3b inactivator: isolation, characterization, and demonstration of an absolute requirement for the serum protein beta1H for cleavage of C3b and C4b in solution". J. Exp. Med. 146 (1): 257–70. doi:10.1084/jem.146.1.257. PMC 2180748Freely accessible. PMID 301546.
  4. McRae JL, Duthy TG, Griggs KM, et al. (May 2005). "Human factor H-related protein 5 has cofactor activity, inhibits C3 convertase activity, binds heparin and C-reactive protein, and associates with lipoprotein". J. Immunol. 174 (10): 6250–6. doi:10.4049/jimmunol.174.10.6250. PMID 15879123.
  5. McHarg S, Clark SJ, Day AJ, Bishop PN. Age-related macular degeneration and the role of the complement system. Mol Immunol. 2015 Sep;67(1):43-50. doi: 10.1016/j.molimm.2015.02.032. Epub 2015 Mar 21.
  6. Grossman TR, et al. Inhibition of the alternative complement pathway by antisense oligonucleotides targeting complement factor B improves lupus nephritis in mice. Immunobiology. 2015 Aug 10. pii: S0171-2985(15)30041-3. doi: 10.1016/j.imbio.2015.08.001.

Further reading

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