Elin Mortensen

Nephritogenic Potential of Anti-DNA Antibodies against Necrotic Nucleosomes

Systemic lupus erythematosus is an inflammatory autoimmune syndrome of unknown cause. Kidney disease is a central and serious complication in this syndrome. Deposition of chromatin-containing immune complexes within glomerular membranes is considered a key event in the pathogenesis of lupus nephritis. One set of autoantibodies that participate in these complexes is directed against components of chromatin, particularly against double-stranded DNA (dsDNA). Matzingers danger model implicates chromatin fragments as both inducers and glomerular targets for nephritogenic anti-dsDNA and anti-nucleosome antibodies. In context of this model, apoptosis, secondary necrosis, and exposure of chromatin fragments may causally trigger autoimmunity and subsequent lupus nephritis. The exposure of glomerular basement membrane-associated extracellular chromatin depends on an observed acquired downregulation of renal DNase1 transcription and loss of nuclease activity preceding development of severe nephritis; this downregulation would result in reduced fragmentation and clearance of chromatin fragments. These fragments bind glomerular basement membrane structures with high affinity. In addition, exposed chromatin fragments contain structures that stimulate the innate immune system through Toll-like receptors and the adaptive immune system to produce affinity-maturated pathogenic anti-chromatin and anti-dsDNA antibodies that are central to the development of lupus nephritis.

Lupus Nephritis : The Central Role of Nucleosomes Revealed

Systemic lupus erythematosus (SLE) is an autoimmune syndrome characterized by autoantibodies to nuclear constituents. Some of these antibodies are diagnostically important, whereas others act as disease-modifying factors. One clinically important factor is autoantibodies against dsDNA and nucleosomes, which have overlapping diagnostic and nephritogenic impact in SLE. Although a scientific focus for 5 decades, the molecular and cellular origin of these antibodies, and why they are associated with lupus nephritis, is still not fully understood. A consensus has, however, evolved that antibodies to dsDNA and nucleosomes are central pathogenic factors in the development of lupus nephritis. In contrast, no agreement has been reached as to which glomerular structures are bound by nephritogenic anti-nucleosome antibodies in vivo. Mutually contradictory paradigms and models have evolved simply because we still lack precise and conclusive data to provide definitive insight into how autoantibodies induce lupus nephritis and which specificity is critical in the nephritic process(es). In this review, data demonstrating the central role of nucleosomes in inducing and binding potentially nephritogenic antibodies to DNA and nucleosomes are presented and discussed. These autoimmune-inducing processes are discussed in the context of Matzingers danger model (Matzinger P: Friendly and dangerous signals: is the tissue in control? Nat Immunol 2007, 8:11-13; Matzinger P: The danger model: a renewed sense of self. Science 2002, 296:301-305; Matzinger P: Tolerance, danger, and the extended family. Annu Rev Immunol 1994, 12:991-1045) and Medzhitovs and Janeways (Medzhitov R, Janeway CA Jr: Decoding the patterns of self and nonself by the innate immune system. Science 2002, 296:298-300; Medzhitov R, Janeway CA Jr: How does the immune system distinguish self from nonself? Semin Immunol 2000, 12:185-188; Janeway CA Jr, Medzhitov R: Innate immune recognition. Annu Rev Immunol 2002, 20:197-216) distinction of noninfectious self (NIS) and infectious nonself (INS). The mechanisms leading to production of potentially nephritogenic anti-nucleosome antibodies and to overt lupus nephritis are interpreted in the context of these paradigms.

Autoantibodies in lupus: culprits or passive bystanders?

Several autoantibodies are culprits in the pathogenesis of organ damage in systemic lupus erythematosus, by means of established or postulated mechanisms, whereby inducing a perturbation of cell structure and function, with consequent tissue-organ impairment. Common autoantibody-mediated mechanisms of damage include cell surface binding with or without cytolysis, immune complex-mediated damage, penetration into living cells, binding to cross-reactive extracellular molecules. Experimental data from both murine models and humans have recently clarified the key role of autoantibodies in severe organ involvements, including nephritis, neuropsychiatric (NP) dysfunction, and cerebrovascular disease (CVD). In lupus nephritis early and late phases are distinguishable and mediated by different processes in which anti-chromatin antibodies are both inducing and perpetuating agents, by immune-complex formation and massive deposition in mesangial matrix at first, and in glomerular basement membrane at end-stage. Also NP abnormalities occur very early, much earlier than other systemic manifestations, and exacerbate with the increase in autoantibody titers. Among the autoantibodies mainly implicated in neurolupus, anti-β2 glycoprotein I (β2GPI) antibodies are preferentially involved in focal NP events which are a consequence of non-inflammatory microangiopathy; otherwise, anti-ribosomal P protein antibodies and N-methyl-d-aspartate receptor (NMDAR) antibodies cause diffuse NP events through a direct cytotoxic effect on neuronal cells at specific brain zones.

Anti-dsDNA antibodies promote initiation, and acquired loss of renal Dnase1 promotes progression of lupus nephritis in autoimmune (NZBxNZW)F1 mice.

Background Lupus nephritis is characterized by deposition of chromatin fragment-IgG complexes in the mesangial matrix and glomerular basement membranes (GBM). The latter defines end-stage disease. Methodology/Principals In the present study we determined the impact of antibodies to dsDNA, renal Dnase1 and matrix metalloprotease (MMP) mRNA levels and enzyme activities on early and late events in murine lupus nephritis. The major focus was to analyse if these factors were interrelated, and if changes in their expression explain basic processes accounting for lupus nephritis. Findings Early phases of nephritis were associated with chromatin-IgG complex deposition in the mesangial matrix. A striking observation was that this event correlated with appearance of anti-dsDNA antibodies and mild or clinically silent nephritis. These events preceded down-regulation of renal Dnase1. Later, renal Dnase1 mRNA level and enzyme activity were reduced, while MMP2 mRNA level and enzyme activity increased. Reduced levels of renal Dnase1 were associated in time with deficient fragmentation of chromatin from dead cells. Large fragments were retained and accumulated in GBM. Also, since chromatin fragments are prone to stimulate Toll-like receptors in e.g. dendritic cells, this may in fact explain increased expression of MMPs. Significance These scenarios may explain the basis for deposition of chromatin-IgG complexes in glomeruli in early and late stages of nephritis, loss of glomerular integrity and finally renal failure.

Triage of women with minor cervical lesions: data suggesting a "test and treat" approach for HPV E6/E7 mRNA testing.

Background Human papillomavirus (HPV) testing is included in the cervical cancer screening program in the triage of women with equivocal (ASC-US) or low-grade (LSIL) cytological lesions. These women have an increased risk for developing high grade dysplasia and cancer (CIN2+) compared to women with normal cytology. However, in order to avoid unnecessary follow-up, as well as overtreatment, a high positive predictive value (PPV) of the triage test is important. Methodology/Principal Findings The HPV test PreTect HPV-Proofer, detecting E6/E7 mRNA from the HPV types 16, 18, 31, 33 and 45, is used as triage test together with repeat cytology. PPV data for HPV E6/E7 mRNA testing during the period from January 2006 up to June 2009 are reported. In total, 406 of 2099 women (19.3%) had a positive HPV test result. Of the women with a positive test result and with a histological diagnosis (n = 347), 243 women had histological high-grade dysplasia or cancer (CIN2+), giving a PPV of 70.0% (95% confidence interval [CI], 65.2%–74.8%). For HPV 16 or HPV 33 positive women above 40 years of age, the PPV was 83.7% (95% CI, 73.3%–94.0%) and 84.6% (95% CI, 65.0%–100.0%) respectively. The PPV of test positive women with HSIL cytology was 94.2% (95% CI, 88.7%–99.7%). Conclusions When the result in triage is HPV mRNA positive, our data suggest direct treatment for women above 40 years of age or for women with a concurrent cytological HSIL diagnosis, contributing to better clinical safety for these women. In addition, by decreasing the time to treatment, thereby reducing the number of recalls, the patient management algorithm will be considerably improved, in turn reducing follow-up costs as well as unnecessary psychological stress among patients.

Lupus Nephritis: Enigmas, Conflicting Models and an Emerging Concept

Autoantibodies to components of chromatin, which include double-stranded DNA (dsDNA), histones and nucleosomes, are central in the pathogenesis of lupus nephritis. How anti-chromatin autoantibodies exert their nephritogenic activity, however, is controversial. One model assumes that autoantibodies initiate inflammation when they cross-react with intrinsic glomerular structures such as components of membranes, matrices or exposed nonchromatin ligands released from cells. Another model suggests glomerular deposition of autoantibodies in complex with chromatin, thereby inducing classic immune complex-mediated tissue damage. Recent data suggest acquired error of renal chromatin degradation due to the loss of renal DNasel enzyme activity is an important contributing factor to the development of lupus nephritis in lupus-prone (NZBxNZW)F1 mice and in patients with lupus nephritis. Down-regulation of DNasel expression results in reduced chromatin fragmentation and in deposition of extracellular chromatin-IgG complexes in glomerular basement membranes in individuals who produce IgG anti-chromatin autoantibodies. The main focus of the present review is to discuss whether exposed chromatin fragments in glomeruli are targeted by potentially nephritogenic anti-dsDNA autoantibodies or if the nephritogenic activity of these autoantibodies is explained by cross-reaction with intrinsic glomerular constituents or if both models coexist in diseased kidneys. In addition, the role of silencing of the renal DNasel gene and the biological consequences of reduced chromatin fragmentation in nephritic kidneys are discussed.

Heparin exerts a dual effect on murine lupus nephritis by enhancing enzymatic chromatin degradation and preventing chromatin binding in glomerular membranes.

OBJECTIVE Association of nucleosome-IgG immune complexes with glomerular basement membranes (GBMs) is an important event in the development of lupus nephritis. Preventing this binding and/or increasing nuclease sensitivity of nucleosomes may be viable strategies for the prevention of the disease. Theoretically, heparin may alter nucleosomal structure and increase sensitivity to proteinases and nucleases, and may also inhibit binding of nucleosomes and nucleosome-IgG complexes to basement membrane structures. The aim of this study was to investigate whether and eventually how heparin prevents murine lupus nephritis. METHODS Surface plasmon resonance was used to analyze if heparin inhibits binding of nucleosomes to laminin and collagen. The effect of heparin on nuclease- and proteinase-mediated degradation of nucleosomes was analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and agarose gel electrophoresis. In vitro results were compared with analyses in vivo in heparin-treated (NZB × NZW)F(1) mice. Anti-double-stranded DNA antibody production, deposition of nucleosome-IgG complexes in GBMs, and development of proteinuria were monitored, and circulating chromatin fragments were quantified using quantitative polymerase chain reaction. RESULTS In vitro studies demonstrated that heparin increased enzymatic degradation of nucleosomes and almost completely inhibited binding of nucleosomes to laminin and collagen. (NZB × NZW)F(1) mice treated with heparin demonstrated delayed or no antibody production and higher variation of circulating chromatin levels compared with untreated control mice. This effect was accompanied by highly reduced nucleosome-IgG complexes in GBMs and delayed development of nephritis. CONCLUSION Increasing the degradation of nucleosomes, reducing their immunogenicity, and preventing binding of nucleosome-IgG complexes in glomeruli together provide an alternative basis for the treatment of lupus nephritis.

Circulating chromatin–anti-chromatin antibody complexes bind with high affinity to dermo-epidermal structures in murine and human lupus nephritis

Murine and human lupus nephritis are characterized by glomerular deposits of electron-dense structures (EDS). Dominant components of EDS are chromatin fragments and IgG antibodies. Whether glomerular EDS predispose for similar deposits in skin is unknown. We analysed (i) whether dermo-epidermal immune complex deposits have similar molecular composition as glomerular deposits, (ii) whether chromatin fragments bind dermo-epidermal structures, and (iii) whether deposits in nephritic glomeruli predispose for accumulation of similar deposits in skin. Paired skin and kidney biopsies from nephritic (NZBxNZW)F1 and MRL-lpr/lpr mice and from five patients with lupus nephritis were analysed by immunofluorescence, immune electron microscopy (IEM) and co-localization TUNEL IEM. Affinity of chromatin fragments for membrane structures was determined by surface plasmon resonance. Results demonstrated (i) presence of EDS containing chromatin fragments and IgG in both organs in nephritic patients, (ii) chromatin fragments possessed high affinity for dermo-epidermal laminins and collagens, (iii) glomerular immune complex deposits did not predict similar interstitial deposits in skin, although such complexes were present in capillary lumina in glomeruli and skin of all nephritic individuals. Thus, chromatin-IgG complexes accounting for lupus nephritis seem to reach skin through circulation, but other undetermined factors are required for these complexes to deposit within skin membranes.

Class III antiarrhythmic action and inotropy : effects of dofetilide in acute ischemic heart failure in dogs

Summary We studied the hemodynamic and metabolic effects of the novel class III antiarrhythmic agent dofetilide (UK-68,798) in acute ischemic heart failure. In pentobarbital-anesthetized dogs, heart failure was induced by microembolization of the area supplied by the main left coronary artery until a stable left ventricular (LV) end-diastolic pressure of 27 ± 2 mm Hg was achieved. Embolization depressed LV systolic pressure, LV dP/dtmax, LV dP/dtmin, and cardiac output. None of these parameters were changed following i.v. infusion of dofetilide 5, 10, or 25 μg/kg, during spontaneous and paced cycle length of 300 ms (n = 9). Heart rate decreased by 12 ± 8, 19 ± 7, and 21 ± 7 beats/min (p < 0.05), while QT time increased by 23 ± 7, 33 ± 9, and 40 ± 10 ms (p < 0.05) after 5, 10, and 25 μg/kg, respectively. Ventricular effective refractory period increased from 128 ± 10 to 153 ± 11 ms after 25 μg/kg (n = 4). Arterial concentration and net myocardial uptake of glucose, lactate, and free fatty acids were not significantly influenced by dofetilide. In conclusion, dofetilide, at doses that prolonged repolarization, was devoid of cardiodepressive effects in acute ischemic heart failure.

Triage of women with low-grade cervical lesions--HPV mRNA testing versus repeat cytology.

Background In Norway, women with low-grade squamous intraepithelial lesions (LSIL) are followed up after six months in order to decide whether they should undergo further follow-up or be referred back to the screening interval of three years. A high specificity and positive predictive value (PPV) of the triage test is important to avoid unnecessary diagnostic and therapeutic procedures. Materials and Methods At the University Hospital of North Norway, repeat cytology and the HPV mRNA test PreTect HPV-Proofer, detecting E6/E7 mRNA from HPV types 16, 18, 31, 33 and 45, are used in triage of women with ASC-US and LSIL. In this study, women with LSIL cytology in the period 2005–2008 were included (n = 522). Two triage methods were evaluated in two separate groups: repeat cytology only (n = 225) and HPV mRNA testing in addition to repeat cytology (n = 297). Histologically confirmed cervical intraepithelial neoplasia of grade 2 or worse (CIN2+) was used as the study endpoint. Results Of 522 women with LSIL, 207 had biopsies and 125 of them had CIN2+. The sensitivity and specificity of repeat cytology (ASC-US or worse) were 85.7% (95% confidence interval (CI): 72.1, 92.2) and 54.4 % (95% CI: 46.9, 61.9), respectively. The sensitivity and specificity of the HPV mRNA test were 94.2% (95% CI: 88.7, 99.7) and 86.0% (95% CI: 81.5, 90.5), respectively. The PPV of repeat cytology was 38.4% (95% CI: 29.9, 46.9) compared to 67.0% (95% CI: 57.7, 76.4) of the HPV mRNA test. Conclusion HPV mRNA testing was more sensitive and specific than repeat cytology in triage of women with LSIL cytology. In addition, the HPV mRNA test showed higher PPV. These data indicate that the HPV mRNA test is a better triage test for women with LSIL than repeat cytology.