A triglyceride-rich lipoprotein environment exacerbates renal injury in the accelerated nephrotoxic nephritis model.

Hyperlipidaemia accompanies chronic renal disease either as a consequence of the renal dysfunction or as part of generalized metabolic derangements. Under both situations, the lipid profile is characterized by accumulation of triglyceride-rich lipoproteins (TGRLs). This lipid profile is recognized as a risk factor for cardiovascular complications. Whether it may pose a risk for renal injury as well remains unclear. A hyper-TGRL state was generated in C57BL/6 mice using poloxamer-407 (P-407) and immune complex-mediated renal injury was triggered using the accelerated nephrotoxic nephritis (ANTN) model. The hyper-TGRL animals were hypersensitive to ANTN demonstrated by greater haematuria and glomerular cellularity. These changes were accompanied by increased glomerular accumulation of CD68+ macrophages. The hypersensitive response to ANTN was not seen in low-density lipoprotein receptor knock-out mice fed with a high fat diet, where triglyceride levels were lower but cholesterol levels comparable to those obtained using P-407. These data indicate that a hyper-TGRL state might be more detrimental to the kidneys than low-density lipoprotein-driven hypercholesterolaemia during immune complex-mediated nephritis. We speculate that the hyper-TGRL environment primes the kidney to exacerbated renal damage following an inflammatory insult with increased accumulation of macrophages that may play a key role in mediating the injurious effects.

C3 dysregulation due to factor H deficiency is mannan-binding lectin-associated serine proteases (MASP)-1 and MASP-3 independent in vivo.

Uncontrolled activation of the complement alternative pathway is associated with complement-mediated renal disease. Factor B and factor D are essential components of this pathway, while factor H (FH) is its major regulator. In complete FH deficiency, uncontrolled C3 activation through the alternative pathway results in plasma C3 depletion and complement-mediated renal disease. These are dependent on factor B. Mannan-binding lectin-associated serine proteases 1 and 3 (MASP-1, MASP-3) have been shown recently to contribute to alternative pathway activation by cleaving pro-factor D to its active form, factor D. We studied the contribution of MASP-1 and MASP-3 to uncontrolled alternative pathway activation in experimental complete FH deficiency. Co-deficiency of FH and MASP-1/MASP-3 did not ameliorate either the plasma C3 activation or glomerular C3 accumulation in FH-deficient mice. Our data indicate that MASP-1 and MASP-3 are not essential for alternative pathway activation in complete FH deficiency.

Complement, roles in renal disease and modulation for therapy.

The complement system, an essential part of the innate immune system, defends the host against invading pathogens, prevents immune complex disease and aids the acquired immune response. Under normal conditions the host is protected from complement attack by an array of complement regulatory proteins. However, in certain contexts inappropriate complement activation can occur associating the C system with a variety of disease pathologies. This review focuses upon the role complement plays in a number of renal pathologies as well as the role of complement in three examples of extrarenal diseases: paroxysmal nocturnal hemoglobinuria, age-related macular degeneration and liver fibrosis. From the evidence discussed it is clear that mutations or polymorphisms in the complement regulators resulting in reduced levels or inefficient action dramatically enhance susceptibility to certain diseases and in particular render the kidney more vulnerable to complement attack. Additionally, deficiency in the complement components can predispose to disease through reduced clearance of apoptotic cells and subsequent generation of complement activating autoantibodies or enhanced formation of convertases resulting in heightened complement activation. As complement has devastating effects, in such disease contexts it has become a therapeutic target. Therapeutic intervention strategies discussed here focus upon the use of recombinant agents, the most promising of which are the anti-C5 antibody-derived reagents. These agents have proved effective in the treatment of paroxysmal nocturnal hemoglobinuria, nephritis and ischemia-reperfusion injuries and will no doubt, along with other reagents currently being developed, prove invaluable in the treatment of renal pathologies.