Transgenic Mice Overexpressing the Complement Inhibitor Crry as a Soluble Protein Are Protected from Antibody-induced Glomerular Injury

doi:10.1084/jem.188.7.1321

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J. Exp. Med., Volume 188, Number 7, October 5, 1998 1321-1331

Transgenic Mice Overexpressing the Complement Inhibitor Crry as a Soluble Protein Are Protected from Antibody-induced Glomerular Injury

By Richard J. Quigg,^* Chun He,^* Alice Lim,^* Dawn Berthiaume, Jessy J. Alexander,^* Damian Kraus, and V. Michael Holers

From the ^* Department of Medicine, Section of Nephrology, The University of Chicago, Chicago, Illinois 60637; and the Department of Medicine, Division of Rheumatology, University of Colorado Health Sciences Center, Denver, Colorado 80262

Complement receptor 1-related gene/protein y (Crry) is a potent murine membrane complement regulator that inhibits classicaland alternative pathway C3 convertases. In nephrotoxic serum (NTS)nephritis, injected antibodies (Abs) bind to glomeruli, leadingto complement activation and subsequent glomerular injury andalbuminuria. To study the phenotypic effects of continuous complementpathway blockade, transgenic mice were created that express recombinantsoluble (rs) Crry directed by the broadly active and heavy metal-induciblemetallothionein-I promoter. One transgenic line expressing highlevels of rsCrry was propagated. Serum rsCrry levels were 18.7± 2.7 µg/ml (n = 5) at basal level and increased to 118.1 ± 20.6µg/ml 4 d after addition of zinc to the drinking water. By reversetranscription polymerase chain reaction (RT-PCR), transgene messenger(m)RNA was present in liver, kidney, brain, lung, and spleen,but not in heart. By in situ RT-PCR analysis of kidneys, transgenemRNA was widely expressed both in renal glomeruli and tubules.Urinary excretion of rsCrry was 113.4 ± 22.4 µg/ml with a fractionalexcretion relative to creatinine of 13.2 ± 2.7%, consistent withlocal renal production of rsCrry and secretion into urine. Thefounder and all transgene positive adult animals have remainedhealthy with no mortality or apparent phenotypic abnormalities,including infection or immune complex disease. To determine whetherrsCrry blocked complement-mediated injury, NTS nephritis was inducedby injection of NTS immunoglobulin (Ig)G, followed by an 18-hurine collection to quantitate the excretion of albumin as a measureof glomerular injury. In transgene-negative littermates (n = 15),transgene-positive animals (n = 10), and transgene-positive animalsfed zinc (n = 10), albuminuria was 4,393 ± 948, 1,783 ± 454, and1,057 ± 277 µg/mg creatinine, respectively (P < 0.01 by ANOVA).Glomerular C3 was evident by immunofluorescence staining in 12/15transgene-negative animals, but in none of the transgene-positiveanimals fed zinc. Thus, we have produced the first transgenicanimals that overexpress a soluble C3 convertase inhibitor. rsCrryexpression markedly ameliorates an Ab-induced disease model invivo. These results support the hypothesis that continuous complementinhibition at the C3 convertase step is feasible and effectivein complement-mediated injury states.

Key words: Crry; mice, transgenic; anti-glomerular basement membrane disease; complement inactivators; complement

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