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Removing Antibody and Preserving Glomeruli in ANCA Small-Vessel Vasculitis

UNC Kidney Center, University of North Carolina, Chapel Hill, Chapel Hill, North Carolina

Correspondence: Dr. Ronald J. Falk, UNC Kidney Center, University of North Carolina, Chapel Hill, NC. Phone: 919-966-2561; Fax: 919-966-4251; E-mail: ronald_falk{at}med.unc.edu

	Introduction

Top Introduction DISCLOSURES REFERENCES

 
If anti-neutrophil cytoplasmic autoantibodies (ANCA) participate in the pathogenesis of small-vessel vasculitis, then it would stand to reason that removal of these antibodies should ameliorate disease. There is substantial evidence that ANCA are capable of activating leukocytes in vitro.^1,2 In at least two experimental models, anti-myeloperoxidase antibodies induce necrotizing glomerulonephritis and widespread systemic vasculitis.^3,4 There is also one clear example of placental transfer of ANCA to a newborn infant who developed small-vessel vasculitis.⁵ Why, then, is plasmapheresis not the worldwide standard for induction therapy? Conventional treatment includes intravenous pulses of glucocorticoids followed by oral administration in association with cyclophosphamide. This induction followed by maintenance therapy results in long-term remission rates of between 75 and 90%. Speed in making a diagnosis and instituting therapy for ANCA small-vessel vasculitis is essential, especially in the face of life-threatening pulmonary hemorrhage or rapidly progressive glomerulonephritis.⁶

One of the important predictors of death is diffuse alveolar hemorrhage,⁷ with the risk for death almost nine times higher in those with pulmonary hemorrhage. The prompt prescription of plasmapheresis in patients with pulmonary hemorrhage is of significant benefit in that 20 of 20 individuals with massive pulmonary hemorrhage in this disease survived when compared with 50% of historical controls.⁸ Similarly, the entry serum creatinine is a strong predictor of long-term outcome in kidney function.⁶ Pulses of methylprednisolone quickly diminish glomerular and tubulointerstitial inflammation and have been efficacious for decades in the treatment of rapidly progressive glomerulonephritis.^9,10

What are the historical data pertaining to plasmapheresis and rapidly progressive glomerulonephritis? In two randomized, controlled trials in patients who were not on dialysis, there was no therapeutic advantage of plasma exchange in pauci-immune, rapidly progressive glomerulonephritis.^11,12 It was only in dialysis-dependent patients that plasma exchange was beneficial. Renal function was more likely to recover when patients were treated with plasma exchange plus cytotoxic agents, rather than with cytotoxic agents alone.¹³

Perhaps, then, it is only at the extremes of illness, such as dependence on dialysis, that the salutary role of plasmapheresis is most demonstrable. In this issue of JASN, a European Vasculitis Study Group study supports the long-held belief of the senior author, Dr. Charles Pusey, that plasma exchange when compared with intravenous methylprednisolone is superior induction therapy in patients who have ANCA small-vessel vasculitis and in whom the serum creatinine is >5.8 mg/dl.¹⁴ The primary end point was dialysis independence at 3 mo, and the secondary end points were renal and patient survival at 1 yr. In this important study, plasmapheresis won the day compared with induction therapy with methylprednisolone. Both groups were placed on oral cyclophosphamide and prednisolone for maintenance therapy.

There are, however, certain caveats to this study. Patients with life-threatening pulmonary hemorrhage or those who had been on dialysis for at least 2 wk were excluded from the trial. Furthermore, both treatment groups suffered a very high mortality rate of 25% over 12 mo. This percentage should give the treating physician pause and begs the question of whether aggressive induction therapy accompanied by 3 mo of oral cyclophosphamide adds undue risk for death late in disease. This question must be resolved. If plasmapheresis is used in this setting, then perhaps immunomodulating therapy with intravenous rather than oral cyclophosphamide should be considered. Intravenous cyclophosphamide is likely as efficacious as oral cyclophosphamide and results in only half of the cumulative dosage.¹⁵ Another limitation of this study pertains to potential differences in plasma exchange protocols among the participating centers. Uncertainty exists as to whether plasma filtration, centrifugation, concomitant coagulation therapy, or daily or alternate-day sessions of plasmapheresis were used and what role, if any, this plays in the outcome of treated patients. It is reasonable that plasmapheresis sessions should be aimed at removing pathogenetic antibodies early and then continuing plasmapheresis until remission therapy is capable of suppressing the potential rebound of ANCA once plasmapheresis is stopped.

A common clinical conundrum is the risk versus benefit of therapy to a patient who arrives with ANCA small-vessel vasculitis and severe kidney dysfunction approaching end stage. Do the risks of therapy outweigh the benefits of possible recovery of kidney function? What are the best measures that are indicative of improved long-term prognosis? In a recent study based on a plasmapheresis trial, de Lind van Wijngaarden et al.¹⁶ noted that chronic and acute tubulointerstitial lesions predict the GFR at 12 mo, yet it is the use of plasma exchange and the number of normal glomeruli on biopsy that remained positive predictors of dialysis independence in the same time interval. This finding is important because it suggests that unaffected glomeruli determine long-term renal outcome at 1 yr. In this issue of JASN, this same group of investigators, in a second study, extended their work in determining the rate of renal recovery.¹⁷ In 69 dialysis-dependent patients who were part of the plasmapheresis trial, plasma exchange was superior to pulse methylprednisolone with respect to the chance of coming off dialysis. The outcome measure depended on the relative number of normal glomeruli. One of the intriguing facets of ANCA small-vessel vasculitis is the focality of the glomerular lesions. In fact, it is common to see an example of focal necrotizing glomerulonephritis adjacent to a segment of a glomerulus that is completely unaffected. Therefore, it is possible that many segments of glomeruli or whole glomeruli may be spared from the disease, thereby allowing for long-term preservation of kidney function. These studies raise an important pathophysiologic question. Is induction therapy aimed at treating inflamed glomeruli, preserving normal glomeruli, or both?

What is next on the horizon? First, early detection of ANCA small-vessel vasculitis may reduce the number of patients who have advanced disease and require such aggressive induction therapy. In a series published by Hogan et al.,⁶ 22% of patients in their cohort were treatment resistant largely as a consequence of advanced glomerular and interstitial scarring. Nephrologists must educate primary care physicians to recognize and quickly refer these patients. Second, if the antibody removal is useful, then it stands to reason that diminishing circulating B cells and therapy to reduce circulating ANCA titers may be of therapeutic advantage. A number of anecdotal experiences have been reported using rituximab or the anti-CD20 mAb that depletes B cells in ANCA small-vessel vasculitis. Many of these patients have had treatment-resistant disease. The use of this expensive therapy, although of potential interest, must be critically tested to determine whether it, too, can preserve normal glomeruli.

When the practicing physician confronts patients with ANCA small-vessel vasculitis and kidney injury that is complicated by life-threatening pulmonary hemorrhage, prompt induction of therapy with plasmapheresis is essential. On the basis of current reports, physicians should also add plasmapheresis to induction therapy in patients who have advanced renal insufficiency and dialysis dependence. The complications of this therapy, particularly the high mortality of plasmapheresis and oral cyclophosphamide, should limit this therapy only to dialysis patients with severe disease.

	DISCLOSURES

Top Introduction DISCLOSURES REFERENCES

 
None.

	Footnotes

 
Published online ahead of print. Publication date available at www.jasn.org.

See the related articles, "Randomized Trial of Plasma Exchange or High-Dosage Methylprednisolone as Adjunctive Therapy for Severe Renal Vasculitis," on pages 2180–2188, and "Chances of Renal Recovery for Dialysis-Dependent ANCA-Associated Glomerulonephritis," on pages 2189–2197.

	REFERENCES

Top Introduction DISCLOSURES REFERENCES

 

1. Falk RJ, Jennette JC: ANCA are pathogenic—Oh yes they are! J Am Soc Nephrol 13 : 1977 –1979, 2002[Free Full Text]
2. Jennette JC, Xiao H, Falk RJ: Pathogenesis of vascular inflammation by anti-neutrophil cytoplasmic antibodies. J Am Soc Nephrol 17 : 1235 –1242, 2006[Abstract/Free Full Text]
3. Xiao H, Heeringa P, Liu Z, Huugen D, Hu P, Maeda N, Falk RJ, Jennette JC: The role of neutrophils in the induction of glomerulonephritis by anti-myeloperoxidase antibodies. Am J Pathol 167 : 39 –45, 2005[Abstract/Free Full Text]
4. Little MA, Smyth CL, Yadav R, Ambrose L, Cook HT, Nourshargh S, Pusey CD: Antineutrophil cytoplasm antibodies directed against myeloperoxidase augment leukocyte-microvascular interactions in vivo. Blood 106 : 2050 –2058, 2005[Abstract/Free Full Text]
5. Schlieben DJ, Korbet SM, Kimura RE, Schwartz MM, Lewis EJ: Pulmonary-renal syndrome in a newborn with placental transmission of ANCAs. Am J Kidney Dis 45 : 758 –761, 2005[CrossRef][Medline]
6. Hogan SL, Falk RJ, Chin H, Cai J, Jennette CE, Jennette JC, Nachman PH: Predictors of relapse and treatment resistance in antineutrophil cytoplasmic antibody-associated small-vessel vasculitis. Ann Intern Med 143 : 621 –631, 2005[Abstract/Free Full Text]
7. Nachman PH, Hogan SL, Jennette JC, Falk RJ: Treatment response and relapse in antineutrophil cytoplasmic autoantibody-associated microscopic polyangiitis and glomerulonephritis. J Am Soc Nephrol 7 : 33 –39, 1996[Abstract]
8. Klemmer PJ, Chalermskulrat W, Reif MS, Hogan SL, Henke DC, Falk RJ: Plasmapheresis therapy for diffuse alveolar hemorrhage in patients with small-vessel vasculitis. Am J Kidney Dis 42 : 1149 –1153, 2003[CrossRef][Medline]
9. Couser WG: Rapidly progressive glomerulonephritis: Classification, pathogenetic mechanisms, and therapy. Am J Kidney Dis 11 : 449 –464, 1988[Medline]
10. Bolton WK, Sturgill BC: Methylprednisolone therapy for acute crescentic rapidly progressive glomerulonephritis. Am J Nephrol 9 : 368 –375, 1989[Medline]
11. Glockner WM, Sieberth HG, Wichmann HE, Backes E, Bambauer R, Boesken WH, Bohle A, Daul A, Graben N, Keller F: Plasma exchange and immunosuppression in rapidly progressive glomerulonephritis: A controlled, multi-center study. Clin Nephrol 29 : 1 –8, 1988[Medline]
12. Cole E, Cattran D, Magil A, Greenwood C, Churchill D, Sutton D, Clark W, Morrin P, Posen G, Bernstein K: A prospective randomized trial of plasma exchange as additive therapy in idiopathic crescentic glomerulonephritis. The Canadian Apheresis Study Group. Am J Kidney Dis 20 : 261 –269, 1992[Medline]
13. Pusey CD, Rees AJ, Evans DJ, Peters DK, Lockwood CM: Plasma exchange in focal necrotizing glomerulonephritis without anti-GBM antibodies. Kidney Int 40 : 757 –763, 1991[Medline]
14. Jayne DRW, Gaskin G, Rasmussen N, Abramowicz D Ferrario F, Guillevin L, Mirapeix E, Savage COS, Sinico RA, Stegeman CA, Westman KW, van der Woude FJ, Lind van Wijngaarden RAF, Pusey CD: Randomized trial of plasma exchange or high-dosage methylprednisolone as adjunctive therapy for severe renal vasculitis. J Am Soc Nephrol 18 : 2180 –2188, 2007
15. Nachman PH, Hogan SL, Dooley MA, Satterly KK, Jennette JC, Falk RJ; for the Glomerular Disease Collaborative Network (GDCN): Remission and relapse in ANCA small vessel vasculitis (SVV) by ANCA antigen specificity and by disease category [Abstract]. J Am Soc Nephrol 8 : 94A , 1997
16. de Lind van Wijngaarden RA, Hauer HA, Wolterbeek R, Jayne DR, Gaskin G, Rasmussen N, Noel LH, Ferrario F, Waldherr R, Hagen EC, Bruijn JA, Bajema IM: Clinical and histologic determinants of renal outcome in ANCA-associated vasculitis: A prospective analysis of 100 patients with severe renal involvement. J Am Soc Nephrol 17 : 2264 –2274, 2006[Abstract/Free Full Text]
17. de Lind van Wijngaarden RAF, Hauer HA, Wolterbeek R, Jayne DRW, Gaskin G, Rasmussen N, Noel L-H, Ferrario F, Waldherr R, Bruijn JA, Bajema IM, Hagen EC; for the European Vasculitis Study Group (EUVAS): Chances of renal recovery for dialysis-dependent ANCA-associated glomerulonephritis. J Am Soc Nephrol 18 : 2189 –2197, 2007[Abstract/Free Full Text]

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