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Complement Pathway – Explained

The complement system is composed of about 20 different proteins released into the blood after production in the liver. They interact in coordinated and regulated way to produce biologically active protein products.

ACTIVATION OF COMPLEMENT CASCADE

The complement cascade can be activated in 3 ways:

  1. Classical pathway
  2. Alternative pathway
  3. Lectin pathway

C3 and C3 CONVERTASE

All of the 3 pathways converge at a particular point in the cascade and produces a common complex called C3-convertase which cleaves the C3 component of the complement system.

C5 and MEMBRANE ATTACK PATHWAY

No matter, how the complement system is activated, generation of C5 convertase is important for the culmination of the complement mediated effector mechanisms, leading to the formation of Membrane Attack Complex (MAC).

THE ALTERNATIVE PATHWAY

It is phylogenetically more primitive pathway compared to the classical pathway but was named “alternative” probably because it was discovered later among the two. This pathway consists of proteins known by the term “Factors” like Factor B, Factor D.

Steps:

THE CLASSICAL PATHWAY

The classical pathway is phylogenetically newer and is named “classical”, only because it was discovered earlier. It is activated by Antigen-Antibody complexes. The classical pathway consists of 4 proteins C1, C2, C3 and C4.

Steps:

C1 binds to Fc portion of IgM or IgG near hinge-region. This region is exposed when the antigen binds to the antibody.

THE LECTIN PATHWAY

The lectin pathway consists of C2, C3, C4 and some calcium-dependent lectin family proteins which are homologous to C1 component.

Steps:

  1. In the blood, MBL (Mannose Binding Lectin) binds to another protein called MASP (Mannan Associated Serine Protease).
  2. When MBL grabs its target (mannose on the surface of a bacterium, for example), the MASP protein functions like a convertase to clip C3 complement proteins to make C3b.

Mnemonic for Complement system:

  1. Classical pathway: Complex (Immune complex) activated; C1 + C4 – C2 = C3
  2. Mannose binding lectin (MBL) pathway: Microbe mannose activated
  3. Alternative pathway: Alien particles (like microbe or tumor cells) activated; Factors mediated

OTHER FUNCTIONS OF COMPLEMENT

1. C3a, C4a, C5a:

2. iC3b:

PROTECTION OF NORMAL CELLS FROM COMPLEMENT

COMPLEMENT DEFICIENCIES

Even though gram-positive bacteria may be resistant to the membrane attack complex (MAC), the early components of the cascade mediate localized inflammation and opsonize the bacteria.

Most common complement deficiecy is that of C2 which manifests as recurrent pyogenic infections and SLE like syndrome in childhood.

Complement DeficiencyDisease
CD46, factors H and IAtypical or Non-epidemic Hemolytic Uremic Syndrome (HUS)
C5-C8

 

 

C3b and C3b inactivator

Severe Neisseria and Toxoplasma infection infections

 

Recurrent pyogenic infection

Early complements C1, C4, C2.Systemic lupus erythematosus (SLE), glomerulonephritis and polymyositis (increased immune complexes)
C1-inhibitorHereditary angioedema (uncontrolled C1 activation)
DAF and CD59Paroxysmal Nocturnal Hemoglobinuria (PNH)

Eculizumab prevents the conversion of C5 to C5a. This inhibitor not only reduces the hemolysis and attendant transfusion requirements in patients of paroxysmal nocturnal hemoglobinuria (PNH), but also lowers the risk of thrombosis.

References:
1. A Textbook of Immunology – J.K Sinha and S.Bhattacharya
2. How the Immune System Works – Lauren Sompyrac
3. Complement System – British Society of Immunology
4. Complement Cascade – Studentreader
5. Kaplan USMLE Step 1 – Immunology and Microbiology

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