Critical Role of Kupffer Cell CD89 Expression in Experimental IgA Nephropathy

Therapeutic monoclonal antibodies (mAbs) are currently being developed for the treatment of cancer and other diseases. Despite clinical success, widespread application of mAb therapies may be limited by manufacturing capabilities. In this paper, we describe a mAb delivery system that allows continuous production of a full-length antibody at high-concentrations in vivo after gene transfer. The mAb is expressed from a single open reading frame by linking the heavy and light chains with a 2A self-processing peptide derived from the foot-and-mouth disease virus. Using this expression system, we generated a recombinant adeno-associated virus vector encoding the VEGFR2-neutralizing mAb DC101 (rAAV8-DC101). A single dose of rAAV8-DC101 resulted in long-term expression of >1,000 microg/ml of DC101 in mice, demonstrating significant anti-tumor efficacy. This report describes the first feasible gene therapy approach for stable delivery of mAbs at therapeutic levels, which may serve as an attractive alternative to direct injection of mAbs.

Idiopathic immunoglobulin A nephropathy is characterized by an extreme variability in clinical course and sometimes by the unpredictability of the ultimate outcome. Among the numerous studies published in the last 15 years that have calculated the actuarial renal survival and tried to individuate the prognostic role of the clinical and histological features present at the onset of the disease or the time of biopsy, we chose to analyze critically the results of the most valid (30 studies). Actuarial renal survival at 10 years in adults was between 80% and 85% in most of the European and Asian studies, but it was less in studies from the United States and exceeded 90% in the few studies of children. Concordance existed in this selected literature that impairment of renal function, severe proteinuria, and arterial hypertension are the strongest and more reliable clinical predictors of an unfavorable outcome. However, analysis of the prognostic value of morphological lesions was more difficult because they have been characterized in some studies using an overall score or histological classes of progressively more severe involvement and, in others, using a semiquantitative grading of individual glomerular, tubular, interstitial, and vascular changes. In adult patients, a high score of glomerular and tubulointerstitial lesions, corresponding to classes IV and V of the Lee or Haas classifications, predicted a more rapid progression. When single lesions were analyzed separately, glomerulosclerosis and interstitial fibrosis appeared to be the strongest, most reliable predictors of unfavorable prognosis. More controversial was the role of crescents and capsular adhesions. None of the immunohistological features was found to be a risk factor for progression in the more accurate statistical analyses. The same histological features predicted outcome in children, although the severity of lesions at the time of biopsy was usually less than that in adults. However, in the single patient, even the evaluation of these prognostic markers sometimes fails to correctly predict outcome, probably because of the heterogeneity of the disease and the discontinuous activity of some injuring mechanisms during its course.