Two cases of immune haemolytic anaemia, associated with anti-piperacillin, detected by the 'immune complex' method

BACKGROUND AND OBJECTIVES

Sera containing antibodies to penicillin and penicillin-related drugs are typically thought to react with drug-coated red blood cells (RBCs) (drug adsorption method), but not when the sera are added to drug and RBCs in the same tube ('immune complex' method). Two cases of immune haemolytic anaemia caused by anti-piperacillin have been previously described. Serological details were given in only one patient. In that subject, the antibody was immunoglobulin (Ig)M + IgG and reacted by both the drug adsorption and 'immune complex' methods.

MATERIALS AND METHODS

Two patients with cystic fibrosis developed positive direct antiglobulin tests (DATs) and haemolytic anaemia after 11-12 days of piperacillin therapy. Serological studies were performed with piperacillin, Zosyn (piperacillin + tazobactam) and penicillin by using the drug adsorption and 'immune complex' methods.

RESULTS

The first patient's serum contained an IgG, complement-activating anti-piperacillin that reacted by the 'immune complex' method only. The second patient's IgM + IgG, complement-activating anti-piperacillin reacted by the 'immune complex' method and agglutinated piperacillin-treated RBCs. An eluate from the patient's RBCs reacted weakly with all RBCs tested without the presence of drug. This patient had evidence of intravascular haemolysis and died.

CONCLUSIONS

We describe the third and fourth examples of immune haemolytic anaemia caused by anti-piperacillin; one was associated with fatal haemolytic anaemia. As piperacillin is commonly used in the treatment of cystic fibrosis, anti-piperacillin should be considered whenever patients with cystic fibrosis develop haemolytic anaemia and/or positive DATs.

Benefit of phosphodiesterase 4 inhibitors as supplemental therapy after lung transplantation concerning their antiproliferative effects: an experimental study using a heterotopic rodent model

BACKGROUND

Recent advances in the understanding of immunomodulatory properties of phosphodiesterase 4 (PDE4) inhibitors recommend these drugs for immunosuppressive therapy after lung transplantation. The potency of three PDE4 inhibitors was tested using an established model of heterotopic tracheal transplantation in rats.

METHODS

Five allogenic groups were investigated and treated with the PDE4 inhibitors: rolipram, cilomilast (Ariflo, SB-207499, SmithKline Beecham, Munich, Germany), roflumilast (Altana Pharmacia, Bad Homburg, Germany) or cyclosporine A (CsA), or left without immunosuppression. The grafts were quantitatively analyzed for epithelial integrity, monocyte/macrophage content, cell proliferation, and tracheal obliteration by histology/immunohistochemistry (days 1, 5, 7, 21, 28; n=4-7).

RESULTS

In animals treated with the PDE4 inhibitors, the epithelium was completely lost until day 21. The epithelium was partially preserved in the rats receiving CsA until day 28. In the acute phase (days 5 and 7) the infiltration of monocytes and macrophages was significantly inhibited similarly (cilomilast) or less effective (rolipram, roflumilast) as in CsA-treated rats. In the chronic phase (day 28) the significant increase of monocytes and macrophages after CsA-treatment was not found in PDE4 inhibitor-treated rats. The PDE4 inhibitors showed lower (rolipram) or higher (cilomilast, roflumilast) potency as CsA to inhibit the cell proliferation. Only treatment with PDE4 inhibitor (Ariflo) significantly inhibited the obliteration, but to a lesser degree as CsA.

CONCLUSION

The PDE4 inhibitors tested in our study are not suitable on their own for immunosuppressive therapy after lung transplantation because of the limited protection against the epithelial disturbance, infiltration of immune cells, and luminal obliteration. The strong anti-proliferative effect of the second-generation PDE4 inhibitors, cilomilast and roflumilast, suggest a benefit for the effective inhibition of immune cell and fibroblast proliferation contributing to the development of obliterative bronchiolitis.

Increased surfactant protein D in rat airway goblet and Clara cells during ovalbumin-induced allergic airway inflammation

BACKGROUND

Structural remodelling of airways in asthma that follows inflammation may be affected by surfactant protein D (SP-D)-mediated effects on the immune response.

OBJECTIVE

To determine potential sites of SP-D interaction with the pulmonary immune response, we examined the distribution of immunoreactive SP-D in an experimental model of allergen-induced airway inflammation using immunohistochemistry, biochemical methods and in situ hybridization.

METHODS

The experimental model used subcutaneous injection of ovalbumin in adult rats, which induced an airway response to inhaled nebulized ovalbumin. Three groups of rats (ovalbumin, ovalbumin + dexamethasone and saline) were challenged thrice weekly for 3 weeks. A fourth group of seven rats (naive) were taken from the same delivery of rats as the other groups. Lungs were then lavaged to determine total cell count, eosinophil count, ovalbumin-specific IgE by enzyme-linked immunosorbent assay and SP-D by immunoblot. Tissue samples were fixed and embedded, and sections were studied for the infiltration of eosinophils and for expression of SP-D protein by histochemistry and mRNA by in situ hybridization.

RESULTS

Ovalbumin induced perivascular and peribronchiolar eosinophilia which could be prevented by dexamethasone treatment. In addition, the ovalbumin-specific IgE levels in serum and bronchoalveolar lavage fluid of ovalbumin-challenged animals were enhanced. Increased amount of SP-D in lavage and tissue, particularly in type II pneumocytes, in Clara cells and, surprisingly, in hyperplastic goblet cells of inflamed lungs was found. SP-D mRNA was detected in goblet cells as well as in type II pneumocytes and Clara cells. Dexamethasone treatment did not affect level of SP-D immunoreactivity.

CONCLUSION

SP-D accumulation is increased in this model of allergen-induced eosinophilia, both in upper and lower airways. The increase is unaffected by dexamethasone.

Immunohistochemical demonstration of -(carboxymethyl)lysine protein adducts in normal and osteoarthritic cartilage

N(epsilon)-(carboxymethyl)lysine (CML) is an advanced glycation end product formed by non-enzymatic glycation and oxidation of proteins. The distribution pattern of CML-modified proteins in normal and osteoarthritic (OA) cartilage was investigated using specific antibodies. In healthy articular cartilage, immunoreactivity for CML was preferably found in the extracellular matrix (ECM) of the superficial layer. In OA samples, CML immunoreactivity was not restricted to the ECM of the superficial layer. Interestingly, OA chondrocytes showed a remarkable cytoplasmic immunoreactivity for CML. With the help of a western blot analysis CML-modified proteins between 68 and 39 kDa could be demonstrated in OA cartilage samples. These results suggest that the accumulation of CML adducts contributes to the matrix damage in osteoarthritis. Therefore, the inhibition of CML accumulation may represent an effective therapeutic strategy to prevent severe OA cartilage injury.

Janus face of vascular endothelial growth factor: the obligatory survival factor for lung vascular endothelium controls precapillary artery remodeling in severe pulmonary hypertension

Vascular endothelial growth factor (VEGF) plays a central role in the life and death of pulmonary vascular endothelial cells. Treatment of neonatal or adult rats with a VEGF receptor blocker destroys lung capillaries by inducing endothelial cell apoptosis and causes emphysema. Human lung tissue samples from patients with endstage emphysema have decreased levels of VEGF messenger RNA and protein and have decreased expression of kinase insert domain-containing receptor (VEGF receptor II). These decreases are associated with a high rate of alveolar septal cell apoptosis, indicating perhaps that decreased VEGF and kinase insert domain-containing receptor expression impairs endothelial cell survival in emphysematous lungs. Combination of VEGF receptor blockade with chronic hypoxia (3-wk exposure) results in obliteration of small precapillary pulmonary arteries by proliferating endothelial cells, severe pulmonary hypertension, and death caused by right-side heart failure. We propose that 1) VEGF receptor blockade causes endothelial cell apoptosis, 2) hypoxic vasoconstriction (shear stress) selects apoptosis-resistant endothelial cells that proliferate and obliterate the lumen, and 3) the vascular remodeling observed is relevant to the structural alterations that characterize severe pulmonary hypertension (including primary pulmonary hypertension) in humans. The endovascular cell growth in human disease and in our model exhibits some similarities with neoplastic cell growth. Chemotherapy strategies can now be employed in the animal model in an attempt to treat established vascular-obliterative lung disease.

Advanced glycation end-products in corneas of patients with keratoconus

BACKGROUND

Keratoconus remains a poorly understood yet widespread disease which poses a potential threat to human vision. The underlying mechanisms are still not clear. One possible pathway is increased formation and accumulation of advanced glycation end-products (AGEs) in the cornea.

METHODS

Corneas obtained from six patients with keratoconus and from six healthy controls were investigated. An immunohistochemical localisation of the well-known AGE N(epsilon)-carboxymethyllysine (CML) was performed using a polyclonal anti-CML antibody.

RESULTS

In the corneas of all six patients with keratoconus, CML immunoreactivity was found in the epithelial as well as in the endothelial cells. The keratocytes also showed a positive reaction. The controls, in contrast, showed very little or no immunoreactivity.

CONCLUSION

In the epithelial, stromal and endothelial cells of corneas with keratoconus an accumulation of CML was detected which might play a role in the pathogenesis of keratoconus.

Diabetes-associated sustained activation of the transcription factor nuclear factor-kappaB

Activation of the transcription factor nuclear factor-kappaB (NF-kappaB) has been suggested to participate in chronic disorders, such as diabetes and its complications. In contrast to the short and transient activation of NF-kappaB in vitro, we observed a long-lasting sustained activation of NF-kappaB in the absence of decreased IkappaBalpha in mononuclear cells from patients with type 1 diabetes. This was associated with increased transcription of NF-kappaBp65. A comparable increase in NF-kappaBp65 antigen and mRNA was also observed in vascular endothelial cells of diabetic rats. As a mechanism, we propose that binding of ligands such as advanced glycosylation end products (AGEs), members of the S100 family, or amyloid-beta peptide (Abeta) to the transmembrane receptor for AGE (RAGE) results in protein synthesis-dependent sustained activation of NF-kappaB both in vitro and in vivo. Infusion of AGE-albumin into mice bearing a beta-globin reporter transgene under control of NF-kappaB also resulted in prolonged expression of the reporter transgene. In vitro studies showed that RAGE-expressing cells induced sustained translocation of NF-kappaB (p50/p65) from the cytoplasm into the nucleus for >1 week. Sustained NF-kappaB activation by ligands of RAGE was mediated by initial degradation of IkappaB proteins followed by new synthesis of NF-kappaBp65 mRNA and protein in the presence of newly synthesized IkappaBalpha and IkappaBbeta. These data demonstrate that ligands of RAGE can induce sustained activation of NF-kappaB as a result of increased levels of de novo synthesized NF-kappaBp65 overriding endogenous negative feedback mechanisms and thus might contribute to the persistent NF-kappaB activation observed in hyperglycemia and possibly other chronic diseases.

Up-regulated expression of the receptor for advanced glycation end products in cultured rat hepatic stellate cells during transdifferentiation to myofibroblasts

Receptor for advanced glycation end products (RAGE) is a member of the immunoglobulin superfamily of cell-surface molecules. Blockade of RAGE has been reported to considerably improve liver function and accelerate regeneration after hepatectomy. The aim of this study was to investigate the cell type-specific expression of RAGE, and to examine whether transdifferentiation of hepatic stellate cells (HSC) into myofibroblasts (MFB) is associated with changes in RAGE expression. Northern blot analysis revealed that RAGE mRNA was exclusively expressed by HSC isolated from rat liver, while no transcripts were seen in hepatocytes, Kupffer cells, or sinusoidal endothelial cells. Expression of RAGE mRNA was up-regulated during transdifferentiation of HSC into MFB. Concomitantly, expression of RAGE protein was increased as confirmed by Western blotting and immunohistochemistry. As assessed by radioactive labeling, transforming growth factor beta(1) (TGF-beta(1)) induced a time-dependent 2- to 15-fold increase in the de novo synthesis of RAGE protein, which was completely abolished using PD098059, a specific inhibitor of the mitogen-activated protein kinase (MAPK) kinase. As shown by double-immunofluorescence staining, RAGE colocalized with alpha-smooth muscle actin, and immunoelectron microscopy demonstrated the most prominent labeling for RAGE at filopodial membranes of MFB. In conclusion, this study demonstrates that expression of RAGE is restricted to rat HSC, and that expression is up-regulated during activation of HSC and transition to MFB. The preferential immunogold labeling of RAGE to focal membrane areas of filopodia of MFB is suggestive of a role of RAGE in the spreading and migration of activated HSC/MFB, major players in liver fibrogenesis.

Anti-proliferative properties of the phosphodiesterase-4 inhibitor rolipram can supplement immunosuppressive effects of cyclosporine for treatment of obliterative bronchiolitis in heterotopic rat allografts

BACKGROUND

Potent prevention and therapy of obliterative bronchiolitis may enhance long-term survival after lung transplantation. Phosphodiesterase-4 inhibitors have been established for anti-inflammatory treatment, particularly of pulmonary diseases. Using a heterotopic rat model, the effect of rolipram was investigated and compared with cyclosporine for epithelium disturbance and leukocyte infiltration and proliferation, which are key events in the development of obliterative bronchiolitis.

METHODS

Tracheae were transplanted into the omentum of allo- and syngeneic animals. Four allogeneic groups were investigated: treatment with rolipram; treatment with cyclosporine; treatment with a combination of rolipram and cyclosporine; and untreated (60-day time course). Using histo- and immunohistochemical stainings, epithelium disturbance, leukocyte subsets, proliferating cells and luminal occlusion were quantified by digital morphometry.

RESULTS

In rolipram-treated animals, the epithelium was completely disturbed until Day 14. It was temporarily preserved in rats that received cyclosporine until Day 60. In the acute phase (Day 5), infiltration of monocytes/macrophages was significantly inhibited by rolipram, but less effective than in cyclosporine-treated rats. At later timepoints (Days 28 and 60), rolipram significantly inhibited proliferation, in contrast to enhanced proliferation of fibroblast-like cells after cyclosporine treatment. The combination of rolipram and cyclosporine led to temporary epithelial preservation and effective inhibition of leukocyte infiltration (Day 5) and proliferation (Days 28 and 60). Luminal occlusion was significantly reduced in the combination group compared with the cyclosporine-only group.

CONCLUSIONS

Although cyclosporine temporary protects epithelial integrity by the inhibition of acute rejection, rolipram showed greater potency for long-term inhibition of mesenchymal-cell proliferation. The combination of both drugs may be useful for limiting chronic obliterative changes after lung transplantation.

Up-regulated expression of the receptor for advanced glycation end products in cultured rat hepatic stellate cells during transdifferentiation to myofibroblasts

Receptor for advanced glycation end products (RAGE) is a member of the immunoglobulin superfamily of cell-surface molecules. Blockade of RAGE has been reported to considerably improve liver function and accelerate regeneration after hepatectomy. The aim of this study was to investigate the cell type-specific expression of RAGE, and to examine whether transdifferentiation of hepatic stellate cells (HSC) into myofibroblasts (MFB) is associated with changes in RAGE expression. Northern blot analysis revealed that RAGE mRNA was exclusively expressed by HSC isolated from rat liver, while no transcripts were seen in hepatocytes, Kupffer cells, or sinusoidal endothelial cells. Expression of RAGE mRNA was up-regulated during transdifferentiation of HSC into MFB. Concomitantly, expression of RAGE protein was increased as confirmed by Western blotting and immunohistochemistry. As assessed by radioactive labeling, transforming growth factor beta(1) (TGF-beta(1)) induced a time-dependent 2- to 15-fold increase in the de novo synthesis of RAGE protein, which was completely abolished using PD098059, a specific inhibitor of the mitogen-activated protein kinase (MAPK) kinase. As shown by double-immunofluorescence staining, RAGE colocalized with alpha-smooth muscle actin, and immunoelectron microscopy demonstrated the most prominent labeling for RAGE at filopodial membranes of MFB. In conclusion, this study demonstrates that expression of RAGE is restricted to rat HSC, and that expression is up-regulated during activation of HSC and transition to MFB. The preferential immunogold labeling of RAGE to focal membrane areas of filopodia of MFB is suggestive of a role of RAGE in the spreading and migration of activated HSC/MFB, major players in liver fibrogenesis.

Loss of caveolae, vascular dysfunction, and pulmonary defects in caveolin-1 gene-disrupted mice

Caveolae are plasma membrane invaginations that may play an important role in numerous cellular processes including transport, signaling, and tumor suppression. By targeted disruption of caveolin-1, the main protein component of caveolae, we generated mice that lacked caveolae. The absence of this organelle impaired nitric oxide and calcium signaling in the cardiovascular system, causing aberrations in endothelium-dependent relaxation, contractility, and maintenance of myogenic tone. In addition, the lungs of knockout animals displayed thickening of alveolar septa caused by uncontrolled endothelial cell proliferation and fibrosis, resulting in severe physical limitations in caveolin-1-disrupted mice. Thus, caveolin-1 and caveolae play a fundamental role in organizing multiple signaling pathways in the cell.

Changes in xylosyltransferase activity and in proteoglycan deposition in bleomycin-induced lung injury in rat

Several lines of evidence support the hypothesis of the involvement of altered proteoglycan deposition in the development of lung diseases. UDP-D-xylose: core protein beta-D-xylosyltransferase (UDP-xylosyltransferase; EC 2.4.2.26) is a key enzyme for the glycosylation of proteoglycan core proteins. This study examined the catalytic activity of UDP-xylosyltransferase in lung tissue and in isolated fibroblasts, as well as the deposition of the proteoglycans versican, biglycan and decorin in rat lung tissue during bleomycin-induced lung injury. Rats were given, endotracheally, a single dose of bleomycin. Deposition of proteoglycans in lung tissue was assessed by immunohistochemistry and the catalytic activity of xylosyltransferase was determined with an acceptor peptide of the sequence Q-E-E-E-G-S-G-G-G-Q-G-G as a substrate. The results show coincidence of increasing xylosyltransferase activities in lung tissue with accumulation of versican at alveolar entrance rings and in fibrotic regions in close proximity to alpha-smooth muscle actin-positive cells. In contrast, no changes in biglycan and decorin deposition in fibrotic lungs were observed, except for decorin in alveolar type II pneumocytes and alveolar macrophages. Bleomycin treatment of isolated rat lung fibroblasts resulted in a concentration-dependent increase of xylosyltransferase activity up to 2 mU bleomycin x mL(-1). The data suggest a participation of myofibroblasts with increased xylosyltransferase activities in accumulation of versican in fibrotic foci of injured lung tissue at the early stages of development of lung fibrosis.

Advanced glycation end products (AGEs)-induced expression of TGF-beta 1 is suppressed by a protease in the tubule cell line LLC-PK1

BACKGROUND

Advanced glycation end products (AGEs) are assumed to play a key role in diabetic nephropathy (DN). Since little is known about their action in tubule cells, we investigated in LLC-PK1 cells: (i) whether AGE-bovine serum albumin (AGE-BSA) affects cell proliferation and expression of transforming growth factor-beta (TGF-beta 1); and (ii) whether the AGE-induced effects can be modulated by trypsin due to interference with its binding proteins at the cell surface.

METHODS

Arrested cells were exposed to vehicle (control), AGE-BSA (19--76 microM) and BSA (38 microM) in the presence or absence of trypsin (0.625--5.0 microg/ml) (2.5 microg/ml) for 24 h. We evaluated cell proliferation by cell count and by [(3)H]thymidine incorporation, TGF-beta 1 expression by reverse transcription-polymerase chain reaction (RT-PCR), and TGF-beta 1 protein by ELISA. In addition, cell accumulation of AGEs was studied by immunohistochemical staining of the AGE imidazolone.

RESULTS

AGE-BSA inhibited [(3)H]thymidine incorporation, lowered cell number and increased cell protein content as well as TGF-beta 1 mRNA and protein as compared with control and BSA. Immunohistochemical staining revealed a marked intracellular accumulation of the AGE imidazolone. Co-incubation of AGE-BSA with trypsin ameliorated the impaired thymidine incorporation, the decreased cell count and the enhanced cell protein content. TGF-beta 1 overexpression was normalized, while TGF-beta 1 protein declined insignificantly. Intracellular imidazolone accumulation was strikingly suppressed.

CONCLUSIONS

In the tubule cell line LLC-PK1, AGE-BSA exerts an antiproliferative effect, most probably due to TGF-beta 1 overproduction. The co-administration of trypsin abrogated this alteration, very likely as a result of an interaction with AGE-binding protein(s), which is supported by the decreased intracellular AGE accumulation. These findings may be the starting point for the development of specific proteolytic enzymes to interfere with the interaction between AGEs and their receptors/binding proteins.

Synergistic effect of titanium alloy and collagen type I on cell adhesion, proliferation and differentiation of osteoblast-like cells

A number of studies have demonstrated the pivotal role of collagen in modulating cell growth and differentiation. In bone, where the extracellular matrix is composed of approximately 85% type I collagen, cellular interaction with matrix components has been shown to be important in the regulation of the osteoblast phenotype. Preservation or enhancement of normal osteoblast function and appositional bone formation after implant placement represents a strategy that can be useful for the purpose of improving osseointegration. In order to further improve biocompatibility, we combined two known favorable compounds, namely the titanium alloy, Ti6A14V, with type I collagen. We assessed the in vitro behavior of primary osteoblasts grown on both fibrillar collagen-coated and tropocollagen-coated Ti6A14V in comparison with uncoated titanium alloy, using an improved adsorption procedure. As parameters of biocompatibility, a variety of processes, including cell attachment, spreading, cytoskeletal organization, focal contact formation, proliferation and expression of a differentiated phenotype, were investigated. Our results demonstrated for the first time that in comparison to uncoated titanium alloy, collagen-coated alloy enhanced spreading and resulted in a more rapid formation of focal adhesions and their associated stress fibers. Growing on collagen-coated Ti6A14V, osteoblasts had a higher proliferative capacity and the intracellular expression of osteopontin was upregulated compared to uncoated titanium alloy. Type I collagen-coated titanium alloy exhibits favorable effects on the initial adhesion and growth activities of osteoblasts, which is encouraging for its potential use as bone graft material. Moreover, collagen type I may serve as an excellent biocompatible carrier for osteotropic factors such as cell adhesion molecules (e.g. fibronectin) or bone-specific growth factors.

Age-related changes in cells and tissues due to advanced glycation end products (AGEs)

Advanced glycation end products (AGEs) formed by nonenzymatic glycation and oxidation of proteins accumulate during normal aging and at accelerated rate during the course of diabetes. They play a role in the pathogenesis of several other chronic diseases such as Alzheimer's disease, arthritis, atherosclerosis, pulmonary fibrosis and renal failure. AGE-formation changes the chemical and biological properties of proteins inside and outside of the cell. Binding to specific cell surface receptors induces activation of cellular signaling pathways leading to cellular dysfunction and cell death. AGEs are inducible by oxidative stress and induce oxidative stress. Subject of current studies of cell biologists is the intracellular processing of AGEs, which is accompanied by changes of the endolysosomal compartment.

Expression of the urokinase-type plasminogen activator receptor in human articular chondrocytes: association with caveolin and beta 1-integrin

The urokinase-type plasminogen activator (uPA) in concert with other proteolytic enzymes plays a critical role in cartilage degradation during osteoarthritis. Urokinase receptor (uPAR), a glycosyl-phosphatidylinositol-linked glycoprotein present on the cell surface of various cell types such as cancer cells, fibroblasts, synoviocytes, and chondrocytes, is a key regulator of the plasmin-mediated pericellular proteolysis. Recently, in arthritic synovial tissue increased uPAR expression has been detected. By immunohistochemical analysis we observed, in addition, enhanced expression of uPAR in chondrocytes of arthritic samples of human cartilage compared to non-arthritic controls. Using in vitro cultured human chondrocytes, we analyzed whether uPAR is associated with structural proteins, which are known to be involved in cell signaling and activation. uPAR in phorbol-12-myristate-13-acetate-stimulated chondrocytes colocalized with caveolin as well as beta 1-integrin, as demonstrated by double immunostaining with specific antibodies. Furthermore, uPAR was present in caveolae-like structures of chondrocytes as detected by immunoelectron microscopy. Finally, both caveolin and beta 1-integrin were coprecipitated with uPAR-specific antibodies from cell extracts suggesting that these proteins may form functional complexes in human chondrocytes. The localization of uPAR in caveolae and its close association with caveolin and beta 1-integrin points to a significance of uPAR-mediated signaling pathways in human chondrocytes.

Stevens-Johnson syndrome

Stevens-Johnson Syndrome (SJS), or erythema multiforme, is a severe, acute, adverse, cutaneous reaction to certain medications, such as phenytoin and topical nitrogen mustard. The risk of developing SJS is high when phenytoin and steroids are administered during cranial irradiation. SJS produces headache, malaise, sore throat, fever, and sloughing of the skin and mucous membranes. Prompt recognition of SJS and withdrawal of the offending medication is key to treating this disorder. Nurses play an important role in assessing patients and educating them about signs and symptoms of SJS.

Induction of apoptosis by glyoxal in human embryonic lung epithelial cell line L132

Oxidative stress has been suggested to play a central role in the pathogenesis of lung fibrosis and lung epithelial cell apoptosis is considered to be a key event during fibrogenesis. Studies from various laboratories have indicated that metabolic conditions may initiate oxidative stress, thereby contributing to epithelial cell death. This study was designed to test the hypothesis that glyoxal, an intermediate product in the glycation reaction leading to advanced glycation end products (AGEs), may induce lung epithelial cell apoptosis. We investigated the in vitro effects of glyoxal on fetal human lung epithelial L132 cells. Immunocytochemical analysis of paraffin-embedded cells and fluorescence-activated cell sorter analysis revealed a dose-dependent accumulation of the glycoxidation product (epsilon)N-carboxymethyllysine (CML) in all compartments of the cell. It has been shown that CML modification of proteins may serve as an indicator for oxidative stress. To examine the role of apoptosis in epithelial lung cells we investigated glyoxal-dependent changes in pro- and antiapoptotic mediators bax and activated caspase-3, and galectin-3 and bcl-2, respectively. Increasing concentrations of glyoxal (50 to 400 microM) induced an increase in the number of apoptotic cells. The apoptotic changes were confirmed by transmission electron microscopy. Immunocytochemical analysis of treated cells revealed the presence of other AGEs such as pentosidine as well as products of lipid peroxidation.

Resistance of L132 lung cell clusters to glyoxal-induced apoptosis

Glyoxal is a highly reactive glycating agent involved in the formation of advanced glycation end products (AGEs) and known to induce apoptosis. AGE-mediated apoptosis may be an important mechanism of alveolar epithelial remodelling in pulmonary fibrosis. In this study, we investigated the cytotoxic effect of glyoxal on the fetal human epithelial lung cell line L132 under serum-free conditions. This type of culture, which forces the cells to grow as spheroids, also excludes effects of preformed AGEs by the reaction of glyoxal with fetal calf serum proteins. Our results showed that in cells treated with 200 microM glyoxal, the intercellular contacts in spheroids were disrupted, i.e. cells became totally dissociated. Immunocytochemical analysis revealed a dose-dependent accumulation of the AGE product epsilonN-(carboxymethyl)lysine (CML) in cells detached from cell clusters. The loss of cell attachment was associated with decreased expression of beta1-integrins and CD44 as revealed by laser scanning cytometry (LSC). Increasing concentrations of glyoxal induced an increase in the number of apoptotic cells which were identified by the immunoreactivity for active caspase-3. Remaining cell clusters showed resistance to both CML formation and apoptosis. The present findings demonstrate that cells treated with glyoxal undergo possibly anoikis, a specific mode of apoptosis caused by loss of cell adhesion.

Alveolar epithelial type II cell apoptosis in vivo during resolution of keratinocyte growth factor-induced hyperplasia in the rat

Keratinocyte growth factor (KGF) induces rapid and transient hyperplasia of alveolar epithelial type II cells. We sought to determine components of the apoptotic process involved in the resolution of this hyperplasia and the fate of the apoptotic cells. Rats received intrabronchial instillation of 5 mg KGF/kg body weight or diluent. Lungs were fixed 1, 2, 3, 5, and 7 days later. Apoptosis was identified by TdT-mediated dUTP nick-end labeling (TUNEL), double-labeling for TUNEL and the type II cell marker MNF116, and electron microscopy. Fas, FasL, Bax, Bcl-2, and pro- and active caspase-3 were studied by immunohistochemistry. Changes were quantified by stereology. Cell type specificity was investigated by immunofluorescence double staining. Type II cells exhibited Fas, FasL, Bcl-2, and procaspase-3 irrespective of treatment and time. Immunoelectron microscopy revealed Fas at the apical type II cell membrane. Bax staining was prominent in controls (45-95% of type II cell surface fraction), markedly decreased during hyperplasia at days 2 (20-40%) and 3 (0-10%), and reappeared at day 7 (25-45%) when apoptosis was prominent. Remnants of apoptotic type II cells were incorporated in membrane-bound vacuoles of type II cell neighbors as well as alveolar macrophages. The results indicate that type II cells can enter the Fas/FasL/caspase-3 pathway regulated by Bax and Bcl-2. High Bcl-2:Bax levels favor type II cell survival and a low rate of apoptosis during hyperplasia. Low Bcl-2:Bax levels favor type II cell apoptosis during resolution. Because of time-dependent changes that occur within a short time, the KGF-treated rat lung provides a useful in vivo model to investigate apoptosis in the context of tissue remodeling and repair.

Cognitive impairment and its influence on pain and symptom assessment in a palliative care unit: development of a Minimal Documentation System

Symptom assessment in the palliative care unit must consider the reduced physical and mental status of the patients. Standardized instruments are often not completed by patients with cognitive impairment. We tried to combine minimal burden for patients and staff with sufficient information content in a Minimal Documentation System (MIDOS) for pain and symptom assessment in palliative care patients. From January to July 1998, 108 patients (123 consecutive admissions) with a mean age of 63 years (range 32-87 years) were admitted to the palliative care unit. Pain was reported as the reason for admission in 70% of the patients, and 71% were treated with opioids. Using a cut-off point of 20/21, 35% of the patients were impaired in the Mini Mental State Examination (MMSE). The number of missing values in the Brief Pain Inventory (BPI) and the quality-of-life questionnaire SF-12 correlated highly with each other and with the MMSE sum score, but not with the summary scores of BPI or SF-12. Only 31 patients completed the SF-12 quality-of-life questionnaire. Age was not correlated to MMSE scores, and neither were opioid doses for 26 patients with slow-release oral morphine or for 20 patients with transdermal fentanyl. Only a minority of patients was able to use the numerical scale for symptoms other than pain, though most patients were able to score symptom intensity on the verbal categorical scale. Pain and symptom assessments were performed by the physician for 17% of the patients at admission, and for 16% of the follow-up controls because self-assessment was not possible. In this study, cognitive impairment prevented symptom assessment with longer and more complicated instruments such as the SF-12 in a large number of the patients admitted to the palliative care unit. Assessment instruments for patients with advanced disease must provide simple categorical scales and the possibility of being administered by interview.

Down-regulation of SP1 DNA binding activity in the process of radiation-induced pulmonary fibrosis

PURPOSE

To determine changes in the expression and function of the transcription factor SP1 in radiation-induced pulmonary fibrosis.

MATERIALS AND METHODS

The right lungs of female Fischer rats were irradiated with a fibrogenic single dose of 20 Gy gamma-irradiation. SP1 mRNA and protein expression was determined by Northern and Western blotting, respectively, between 30 min and 12 weeks after irradiation. Cellular localization of SP1 protein was characterized by immunohistochemistry (peroxidase labelling). SP1 DNA binding activity was studied with electrophoretic mobility shift assays (EMSA).

RESULTS

Eight weeks after irradiation, pulmonary fibrosis was first observed. SP1 DNA binding activity showed a short-term increase from 30 min to 12 h after irradiation. Thereafter it remained quite stable until 1 month after irradiation. However, 2 months after irradiation, SP1 DNA binding activity was no longer detectable. The SP1 mRNA level was not reduced at this time, nor was there a reduction in its size. However, Western blotting revealed the occurrence of at least two slightly smaller additional bands 2 months after irradiation whereas the original SP1 band vanished. This suggests a degradation event of SP1 taking place near one or both ends of the protein. Most of the SP1 protein was found in type II pneumocytes and alveolar macrophages of the normal and fibrotic lung. Bronchial epithelial cells were also positive. In the fibrotic lung, proliferating fibroblasts also become positive.

CONCLUSIONS

The functional knockout of the transcription factor SP1, in the process of irradiation-induced pulmonary fibrosis, is demonstrated. This should help elucidate the severe disturbances in transcriptional regulation, cellular proliferation and differentiation occurring in the lung at long intervals after irradiation.

Immunohistochemical evidence for the occurrence of similar epithelial phenotypes during lung development and radiation-induced fibrogenesis

PURPOSE

Processes of fibrosis, wound healing and tissue regeneration have in common the fact that proliferation and differentiation of cells involved in the restoration of normal-tissue architecture resemble to a certain degree the embryonic development of the corresponding tissue. The present review focuses on the phenotypic changes of alveolar epithelial cells during fibrogenesis and describes similarities in the expression pattern of epithelial antigens during lung development.

METHODS

For comparative studies, immunohistochemical investigations of different experimental fibrosis models were performed.

RESULTS

For several epithelial proteins, such as the CD44 adhesion molecule, the enzymes carbanhydrase II and cathepsin D, as well as the lectin galectin-3, a transient epithelial immunoreactivity have been detected. What all four examples have in common is that a part of the foetal antigenic profile reappears under conditions of injury and during the development of pulmonary fibrosis.

CONCLUSIONS

The re-expression of foetal antigens in fibrotic samples with a spatio-temporal pattern, as detected by immunocytochemical techniques, indicates that some mechanisms or factors exist, which similarly regulate the differentiation of the epithelium during ontogenesis and in the remodelling process during fibrogenesis.