Brigitte Glück

Cytokine profiles in heart, spleen, and thymus during the acute stage of experimental coxsackievirus B3-induced chronic myocarditis.

Since cytokines play an important role in the pathogenesis of virus‐induced chronic heart diseases, cytokine mRNA expression was studied in coxsackievirus B3‐infected NMRI mice during the acute phase of myocarditis until the onset of chronic cardiac disease. Virus replication, cytokine induction, inflammatory cell infiltration and myocardial damage were studied by titer determination, reverse transcription‐polymerase chain reaction (RT‐PCR), and histopathology. To investigate whether the coxsackievirus B3‐induced cytokine mRNA accumulation was only limited to the heart or generalized, spleen and thymus specimens were also included. Surprisingly, interleukin (IL)‐10 as a deactivator of T cell and macrophage functions was transcribed in the myocardium nearly in parallel with virus replication from Day 1 through Day 14. At Day 3 p.i., the mRNA of IL‐1α, tumor necrosis factor (TNF)‐α, IL‐6, and interferon (IFN)‐β accumulated. At Days 4, 7, and 14, IL‐12‐specific mRNA was produced. Furthermore, increasing amounts of IFN‐γ mRNA were found, whereas IL‐2 and IL‐4 mRNA remained undetectable. TNF‐α, IL‐1α, IL‐10, IL‐12, and IFN‐γ mRNA persisted into the late stage of myocarditis. In the spleen a closely correlated expression of virus and IL‐10‐specific mRNAs was also found, and in addition, IFN‐β, TNF‐α, and IL‐6 were detected. In striking contrast to heart and spleen tissue, the distinct expression of viral RNA in the thymus was not accompanied by an increased cytokine mRNA production. These data provide evidence for a unique coxsackievirus B3‐induced cytokine pattern in the myocardium and spleen and suggest that persistently expressed IL‐10 may play a leading role in acute and chronic myocarditis by subverting the immune response. J. Med. Virol. 61:518–526, 2000.

Nitric oxide donors inhibit the coxsackievirus B3 proteinases 2A and 3C in vitro, virus production in cells, and signs of myocarditis in virus-infected mice

The antiviral effect of nitric oxide (NO)-releasing compounds was investigated. Using bacterially expressed and purified proteinases 2A and 3C of coxsackievirus B3, in vitro assays demonstrated the inhibition of the 2A proteinase activity in the presence of S-nitroso-N-acetyl-penicillamine (SNAP), 3-morpholinosydnonimine (SIN-1), 4-phenyl-3-furoxancarbonitrile (PFC), glyceryl trinitrate (GTN), and isosorbide dinitrate (ISDN). Sodium nitroprusside (SNP), which releases NO after metabolization, had no effect. The 3C proteinase was inactivated by SNAP, GTN, and ISDN. The vasodilators GTN and ISDN, widely used in the treatment of angina pectoris, exhibited antiviral activity in CVB3-infected GMK cells. CVB3-infected NMRI outbred mice showed significantly reduced signs of myocarditis after treatment with GTN or ISDN. Inhibitors of the cellular inducible NO synthase (iNOS) such as NG-nitro-l-arginine methyl ester (L-NAME), NG-nitro-l-arginine (L-NNA), and S-methyl-isothiourea (SMT), had no deleterious effect on CVB3-infected NMRI mice, indicating that endogenous NO synthesis is unlikely to be a major defense mechanism after enterovirus infection of outbred mice.

Congenital skin lesions caused by intrauterine infection with Coxsackievirus B3

SummaryBackground: Serious neonatal coxsackievirus infections transplacentally acquired in late pregnancy involve primarily the central nervous system, heart, liver and rarely the skin. Patients and Methods: A boy born with a disseminated papulovesicular, nodular, bullous and necrotic ulcerated rash at 39 weeks gestational age developed pneumonia, carditis and hepatitis during the first days after birth. Molecular biological and serological methods were used for virological diagnosis. Results: Coxsackievirus B3 (CVB3) was found in throat swabs and/or feces of the neonate and his mother. In addition, there was serological evidence of intrauterine infection. Conclusion: Intrauterine transmission of CVB3 during late pregnancy may lead to varicella-like congenital skin lesions.

Low level myocardial parvovirus B19 persistence is a frequent finding in patients with heart disease but unrelated to ongoing myocardial injury

While myocardial parvovirus B19 (B19V), aside from enteroviruses (EV) and adenoviruses (ADV), has recently been found often in patients with myocarditis and idiopathic dilated cardiomyopathy (IDC), the pathogenetic significance of B19V genomes in those patients has not yet been sufficiently elucidated. In the present study, left ventricular endomyocardial biopsies from 24 patients with left ventricular ejection fraction (LVEF) below 55% due to IDC, and tissue from the right atrial appendage of 10 control patients undergoing bypass surgery with normal LVEF (>55%) were investigated for B19V, ADV, and EV genomes by specific nested polymerase chain reaction (PCR), by real time PCR or by reverse‐transcription PCR, respectively. The myocardial tissue samples from the 10 controls were analyzed each in three different virological laboratories for B19V. In the IDC group, the frequency of the myocardial virus genomes found in 54% (13/24) of the patients was as follows: B19V: 50% (12/24), EV: 8% (2/24), including one patient with B19V and EV, and ADV: 0% (0/24). For comparison, the prevalence of B19V genomes was between 30% and 60% in the control group as detected in three different laboratories, but all these control subjects were EV‐ and ADV‐negative. The number of B19V gene copies, however, was very low and similar both in the IDC and control group. In the majority of patients myocardial B19V persistence was associated with a low virus load irrespective of the underlying heart disease so that it may be of no importance in the pathogenesis of IDC. J. Med. Virol. 82:1449–1457, 2010.

MODIFICATION OF ELECTROFUSION BY PROTEINS

Extending our systematic study of “biopolymer supported electrofusion” of plant protoplasts and animal cells by 3 polypeptides and 18 proteins at concentrations in the μg ml−1 range, not only enhancement of relative electrofusion yield (Fr > 1) has been found but also inhibition (Fr 1 at pI > 7 corresponding to an increase of relative membrane resealing time (τp/τc > 1) and vice versa at pI < 7, Fr < 1 and τp/τc < 1. These relationships for membranes tested have been found to be independent of molecular masses and protein adsorption behaviour on a weakly charged dropping mercury electrode. The explanation of “biopolymer modified electroporation and electrofusion” is still at an early stage. Nevertheless, addition of biopolymers at very low concentrations to the cell suspension can be used for regulation of both electroporation and electrofusion efficiencies in practical applications.

Membrane electroporation increases photodynamic effects

Abstract Electroporation of membranes is used widely for drug delivery. Photodynamic action consists of three main steps: (A) incorporation of the sensitizer through a membrane into cells; (B) photoxidation of cell constituents and (C) reoxidation of the reduced sensitizer by oxygen etc. The mechanisms of (B) and (C) have been studied widely in past decades. However, the mechanism of transport (A) of sensitizers to targets as the rate limiting step has not been studied to the same extent. Therefore we applied membrane and cell wall electroporation of human histiocytic lymphoma U937 and Saccharomyces cerevisiae cells in order to incorporate rapidly the reliable photodynamic agents thiopyronine, protoporphyrin, zinc phthalocyanine, copper phthalocyanine sulfonate, adriamycin and daunomysin, well-tried cytostatic agents. Depending on field strength and pulse width, 50–90% of cells become electroporated, then the dye diffuses rapidly into the cells, which reseal their membranes over a period of 6–10 min. Illumination for 10–15 min destroys all resealed cells faster than the same amount of unporated cells as in the case of the control (without pulse treatment) either by oxidation of cell components caused by excited dyes or singlet oxygen treatment. By this synergism of electroporation and photodynamic action at the same time, it is possible to kill all cells in a much shorter time than under usual conditions, e.g. in the control suspension. A combination of electrochemotherapeutic needle electrodes with a light conductor for a LASER connection will be effective for therapy.

[Comparison of conventional and real-time RT-PCR for the quantitation of jun protooncogene mRNA and analysis of junB mRNA expression in synovial membranes and isolated synovial fibroblasts from rheumatoid arthritis patients].

Summary. AP-1 dependent genes, e.g., matrix-metallo-proteinases, are involved in the pathogenesis of rheumatoid arthritis (RA). Therefore, the transcription factor AP-1 and its subunits, proteins of the Jun and Fos proto-oncogene families, are interesting targets for analysis in RA. In this study, we analyzed the mRNA expression of junB in synovial membrane (SM) samples and isolated synovial fibroblasts of patients with RA, osteoarthritis (OA), and normal, non-inflammatory controls.To address the suitability of real-time RT-PCR for the quantitation of Jun proto-oncogene family members, conventional RTPCR and real-time PCR were comparatively applied for junD, a gene representing a major challenge because of its high GC-content (70%, increasing the probability of secondary structures interfering with the PCR) and its sequence homology to other Jun proto-oncogenes. In addition, a comparison was performed concerning the precision, reproducibility, costs, as well as labor and time consumption of the two PCR methods.Real-time RT-PCR proved superior to conventional PCR in terms of precision (mean deviation of measured from employed concentration 58% for real-time PCR vs 225% for conventional PCR), reproducibility, as well as labor and time consumption (4 times less for real-time RT-PCR). Experimental cDNA normalization for equivalent cDNA concentrations by sample dilution was more reliable than mathematical cDNA normalization. However, real-time PCR was 3.6-fold more expensive.Applying the more reliable real-time RT-PCR for the exvivo analysis of junB mRNA-expression, no significantly different expression of junB was observed in SM or isolated synovial fibroblasts from RA as compared to OA. Interestingly, however, junBmRNA expression was significantly lower in RA SM and borderline significantly lower in OA SM than in normal/non-inflammatory SM, with potential effects on the functional properties of the resulting AP-1 complexes. Immunohistochemical staining of the SM with JunB-specific antibodies showed comparable JunB protein expression in SFB (collagen III mRNA-positive) of RA and OA samples.Thus, real-time RT-PCR appears suitable and time-saving for the quantitation of jun proto-oncogene mRNA-expression in tissue and cell samples with high precision and reproducibility. Zusammenfassung. AP-1-abhängige Gene, z. B. Matrix-Metallo- Proteinasen, sind an der Pathogenese der rheumatoiden Arthritis (RA) beteiligt. Deshalb sind der Transkriptionsfaktor AP-1 und seine Untereinheiten – die Proteine der Jun- und Fos-Proto-Onkogen-Familien – interessante Ziele für die Analyse in der RA. In dieser Studie wurde die mRNA-Expression von JunB in Synovialmembran-Gewebeproben (SM) und primären synovialen Fibroblasten von Patienten mit RA und Osteoarthritis (OA), sowie normalen, nicht entzündlichen Kontrollen analysiert.Um die Eignung der Real-time PCR für die Quantifizierung von Mitgliedern der Jun-Genfamilie zu überprüfen, wurde ein Vergleich der konventionellen RT-PCR mit der Real-time PCR für das Gen junD durchgeführt. Dieses stellt aufgrund seines hohen GC-Gehaltes (70%, wodurch die mögliche Bildung von mit der Polymerase- Reaktion interferierenden Sekundärstrukturen deutlich erhöht wird) und der Sequenzhomologien zu anderen Jun-Genen eine große methodische Herausforderung dar. Außerdem wurde in die Untersuchung ein Vergleich in Hinblick auf die Präzision, die Reproduzierbarkeit, die Kosten, sowie den Arbeits- und Zeitaufwand der beiden Methoden einbezogen.Die Real-time PCR erwies sich der konventionellen PCR in den Punkten Präzision (die mittlere Abweichung der gemessenen von der eingesetzten Konzentration betrug bei der Real-time PCR 58% gegenüber 225% bei der konventionellen PCR), Reproduzierbarkeit und Arbeits-/Zeitaufwand (4-fach geringer bei der Real-time RT-PCR) überlegen. Eine experimentelle Normalisierung durch Verdünnung der untersuchten cDNA-Proben auf äquivalente cDNA-Konzentrationen stellte sich gegenüber einer rein mathematischen Normalisierung als genauer heraus. Allerdings waren die Kosten der Realtime PCR 3,6-mal so hoch wie die der konventionellen PCR.Die zuverlässigere Real-time PCR wurde anschließend zur Ex-vivo- Analyse der junB mRNA-Expression eingesetzt. Dabei konnten keine signifikanten Unterschiede zwischen den Expressionsniveaus von junB in SM oder primären synovialen Fibroblasten von RA- und OA-Patienten nachgewiesen werden.Interessanterweise wurde allerdings eine signifikant niedrigere junB-Expression in der RA-SM und eine grenzwertig signifikant niedrigere junB-Expression in der OA-SM im Vergleich zu den Normalkontrollen beobachtet, was die Funktion der resultierenden AP-1 Komplexe beeinflussen könnte. Die immunhistologische Färbung der SM mit JunB-spezifischen Antikörpern zeigte eine vergleichbare JunB Proteinexpression in SFB (Kollagen III mRNA positiv) bei RA- und OA-Proben.Insgesamt erwies sich die Realtime RT-PCR in dieser Studie als eine geeignete und zeitsparende Methode für die Quantifizierung der mRNA-Expression von jun- Proto-Onkogenen in Gewebe und Zellproben mit hoher Präzision und Reproduzierbarkeit.

Coxsackievirus B3-induced myocarditis: differences in the immune response of C57BL/6 and Balb/c mice

Coxsackievirus B3 (CVB3) infections are the most frequent causes of human myocarditis, often resulting in chronic stages characterized by fibrosis and loss of function. This disease is called dilated cardiomyopathy (DCM). Persistent virus in the myocardium may lead to chronic activation of fibroblasts, and subsequently, to fibrosis of the myocardium. Studies with immunodeficient mice have shown that certain defects of the immune system retard the rate at which virus is eliminated from the heart, thus leading to viral persistence. Therefore, we followed the immune response of two immunocompetent mouse strains (C57BL/6 and Balb/c) to CVB3 infection. These two strains have been reported to develop different immune responses to infections and we expected a similar reaction to viral infections as well. The two mouse strains recovered completely from CVB3 infection and expressed identical levels of cytokine mRNA in the heart. However, the virus in heart tissue decreased more slowly in Balb/c than in C57BL/6 mice. This was accompanied by a strong virus-specific IgG and weak IgM response in the C57BL/6 mice, in comparison to the Balb/c mice. We conclude, therefore, that viral-specific IgG is of importance for CVB3 elimination from infected hearts.

Vergleich zwischen konventioneller und Real-Time RT-PCR zur Quantifizierung der jun-Protoonkogen-mRNA und Analyse der junB-mRNA-Expression in Synovialmembranen und isolierten synovialen Fibroblasten von Patienten mit rheumatoider Arthritis

Summary. AP-1 dependent genes, e.g., matrix-metallo-proteinases, are involved in the pathogenesis of rheumatoid arthritis (RA). Therefore, the transcription factor AP-1 and its subunits, proteins of the Jun and Fos proto-oncogene families, are interesting targets for analysis in RA. In this study, we analyzed the mRNA expression of junB in synovial membrane (SM) samples and isolated synovial fibroblasts of patients with RA, osteoarthritis (OA), and normal, non-inflammatory controls.To address the suitability of real-time RT-PCR for the quantitation of Jun proto-oncogene family members, conventional RTPCR and real-time PCR were comparatively applied for junD, a gene representing a major challenge because of its high GC-content (70%, increasing the probability of secondary structures interfering with the PCR) and its sequence homology to other Jun proto-oncogenes. In addition, a comparison was performed concerning the precision, reproducibility, costs, as well as labor and time consumption of the two PCR methods.Real-time RT-PCR proved superior to conventional PCR in terms of precision (mean deviation of measured from employed concentration 58% for real-time PCR vs 225% for conventional PCR), reproducibility, as well as labor and time consumption (4 times less for real-time RT-PCR). Experimental cDNA normalization for equivalent cDNA concentrations by sample dilution was more reliable than mathematical cDNA normalization. However, real-time PCR was 3.6-fold more expensive.Applying the more reliable real-time RT-PCR for the exvivo analysis of junB mRNA-expression, no significantly different expression of junB was observed in SM or isolated synovial fibroblasts from RA as compared to OA. Interestingly, however, junBmRNA expression was significantly lower in RA SM and borderline significantly lower in OA SM than in normal/non-inflammatory SM, with potential effects on the functional properties of the resulting AP-1 complexes. Immunohistochemical staining of the SM with JunB-specific antibodies showed comparable JunB protein expression in SFB (collagen III mRNA-positive) of RA and OA samples.Thus, real-time RT-PCR appears suitable and time-saving for the quantitation of jun proto-oncogene mRNA-expression in tissue and cell samples with high precision and reproducibility. Zusammenfassung. AP-1-abhängige Gene, z. B. Matrix-Metallo- Proteinasen, sind an der Pathogenese der rheumatoiden Arthritis (RA) beteiligt. Deshalb sind der Transkriptionsfaktor AP-1 und seine Untereinheiten – die Proteine der Jun- und Fos-Proto-Onkogen-Familien – interessante Ziele für die Analyse in der RA. In dieser Studie wurde die mRNA-Expression von JunB in Synovialmembran-Gewebeproben (SM) und primären synovialen Fibroblasten von Patienten mit RA und Osteoarthritis (OA), sowie normalen, nicht entzündlichen Kontrollen analysiert.Um die Eignung der Real-time PCR für die Quantifizierung von Mitgliedern der Jun-Genfamilie zu überprüfen, wurde ein Vergleich der konventionellen RT-PCR mit der Real-time PCR für das Gen junD durchgeführt. Dieses stellt aufgrund seines hohen GC-Gehaltes (70%, wodurch die mögliche Bildung von mit der Polymerase- Reaktion interferierenden Sekundärstrukturen deutlich erhöht wird) und der Sequenzhomologien zu anderen Jun-Genen eine große methodische Herausforderung dar. Außerdem wurde in die Untersuchung ein Vergleich in Hinblick auf die Präzision, die Reproduzierbarkeit, die Kosten, sowie den Arbeits- und Zeitaufwand der beiden Methoden einbezogen.Die Real-time PCR erwies sich der konventionellen PCR in den Punkten Präzision (die mittlere Abweichung der gemessenen von der eingesetzten Konzentration betrug bei der Real-time PCR 58% gegenüber 225% bei der konventionellen PCR), Reproduzierbarkeit und Arbeits-/Zeitaufwand (4-fach geringer bei der Real-time RT-PCR) überlegen. Eine experimentelle Normalisierung durch Verdünnung der untersuchten cDNA-Proben auf äquivalente cDNA-Konzentrationen stellte sich gegenüber einer rein mathematischen Normalisierung als genauer heraus. Allerdings waren die Kosten der Realtime PCR 3,6-mal so hoch wie die der konventionellen PCR.Die zuverlässigere Real-time PCR wurde anschließend zur Ex-vivo- Analyse der junB mRNA-Expression eingesetzt. Dabei konnten keine signifikanten Unterschiede zwischen den Expressionsniveaus von junB in SM oder primären synovialen Fibroblasten von RA- und OA-Patienten nachgewiesen werden.Interessanterweise wurde allerdings eine signifikant niedrigere junB-Expression in der RA-SM und eine grenzwertig signifikant niedrigere junB-Expression in der OA-SM im Vergleich zu den Normalkontrollen beobachtet, was die Funktion der resultierenden AP-1 Komplexe beeinflussen könnte. Die immunhistologische Färbung der SM mit JunB-spezifischen Antikörpern zeigte eine vergleichbare JunB Proteinexpression in SFB (Kollagen III mRNA positiv) bei RA- und OA-Proben.Insgesamt erwies sich die Realtime RT-PCR in dieser Studie als eine geeignete und zeitsparende Methode für die Quantifizierung der mRNA-Expression von jun- Proto-Onkogenen in Gewebe und Zellproben mit hoher Präzision und Reproduzierbarkeit.

In vitro cultivation and cryopreservation of duck embryonic hepatocytes.

Hepatitis B-virucidal testing of biocides in quantitative suspension tests using duck hepatitis B virus (DHBV) requires primary duck embryonic hepatocytes for viral propagation. To improve the test system and availability of these cells, commercial culture plates with different growth surfaces were tested for cell cultivation and different approaches for cryopreservation of hepatocyte suspension were examined. After 12 days of culture, the largest amounts of hepatocytes were grown in CellBIND and TTP plates and CellBIND surface showed the lowest tendency of monolayer detachment nearly comparable with collagen 1-coated CELLCOAT plates. For cryopreservation of hepatocyte suspension, the use of growth medium supplemented with fetal calf serum (FCS) and dimethyl sulfoxide (ME(2)SO), FCS supplemented with ME(2)SO or cryosafe-1 as cryoprotective agents provided the highest rates of surviving cells after thawing. The freezing-thawing process did not significantly reduce the susceptibility of hepatocytes to infection with DHBV. In conclusion, plates without collagen 1 such as CellBIND are recommended for cultivation of primary duck embryonic hepatocytes in infectivity experiments of DHBV for virucidal testing of biocides. The use of cryopreserved hepatocytes is possible when freshly isolated cells from the liver of duck embryos are not available.