Airway inflammation in paper mill workers.

Paper mill workers are exposed to culturable microorganisms (MOs). We hypothesized that inflammatory airway response could be detected in sputum of nonsymptomatic workers. From four paper mills, we included 29 healthy nonsmoking men. Workers exposed to high levels of MOs (HMOE, n = 17) were compared with workers exposed to low levels of MO (LMOE, n = 12). A reference group of 22 healthy, nonsmoking, nonexposed (NE) men were also included. We performed differential cell counts of induced sputum, studied gene expressions of isolated sputum macrophages and analyzed inflammatory parameters, including matrix metalloproteinases. Sputum from HMOE workers had a significantly higher percentage of neutrophils than that from LMOE workers (P < 0.05) and NE controls (P < 0.001). There was also an increased gene expression of different pro-inflammatory cytokines, interleukin-6, tumor necrosis factor-alpha, and macrophage inflammatory protein-1beta in isolated airway macrophages and increased levels of total matrix metalloprotease-9 activity in induced sputum from the HMOE group. Our findings indicate that paper industry workers exposed to MOs develop subclinical airway inflammation.

Repeated inhalations of diesel exhaust particles and oxidatively damaged DNA in young oxoguanine DNA glycosylase (OGG1) deficient mice.

DNA repair may prevent increased levels of oxidatively damaged DNA from prolonged oxidative stress induced by, e.g. exposure to diesel exhaust particles (DEP). We studied oxidative damage to DNA in broncho-alveolar lavage cells, lungs, and liver after 4 x 1.5 h inhalations of DEP (20 mg/m3) in Ogg1-/- and wild type (WT) mice with similar extent of inflammation. DEP exposure increased lung levels of 8-oxo-7,8-dihydro-2'-deoxyguanosine (8-oxodG) in Ogg1-/- mice, whereas no effect on 8-oxodG or oxidized purines in terms of formamidopyrimidine DNA glycosylase (FPG) sites was observed in WT mice. In both unexposed and exposed Ogg1-/- mice the level of FPG sites in the lungs was 3-fold higher than in WT mice. The high basal level of FPG sites in Ogg1-/- mice probably saturated the assay and prevented detection of DEP-generated damage. In conclusion, Ogg1-/- mice have elevated pulmonary levels of FPG sites and accumulate genomic 8-oxodG after repeated inhalations of DEP.

In vitro expansion of human mesenchymal stem cells: choice of serum is a determinant of cell proliferation, differentiation, gene expression, and transcriptome stability.

Human bone marrow mesenchymal stem cells (hMSCs) represent an appealing source of adult stem cells for cell therapy and tissue engineering, as they are easily obtained and expanded while maintaining their multilineage differentiation potential. All current protocols for in vitro culture of hMSCs include fetal bovine serum (FBS) as nutritional supplement. FBS is an undesirable additive to cells that are expanded for therapeutic purposes in humans because the use of FBS carries the risk of transmitting viral and prion diseases and proteins that may initiate xenogeneic immune responses. In the present study, we have therefore investigated if autologous serum (AS) or allogeneic human serum (alloHS) could replace FBS for the expansion of hMSCs in vitro. We discovered that the choice of serum affected hMSCs at several different levels. First, hMSCs in AS proliferated markedly faster than hMSCs in FBS, whereas use of alloHS resulted in hMSC growth arrest and death. Second, hMSCs in FBS differentiated more rapidly toward mesenchymal lineages compared with hMSCs in AS. Interestingly, genome-wide microarray analysis identified several transcripts involved in cell cycle and differentiation that were differentially regulated between hMSCs in FBS and AS. Finally, several transcripts, including some involved in cell cycle inhibition, were upregulated in hMSCs in FBS at a late passage, whereas the hMSC transcriptome in AS was remarkably stable. Thus, hMSCs may be expanded rapidly and with stable gene expression in AS in the absence of growth factors, whereas FBS induces a more differentiated and less stable transcriptional profile.

RAMP2 and RAMP3 mRNA levels are increased in failing rat cardiomyocytes and associated with increased responsiveness to adrenomedullin.

Adrenomedullin (AM) is a potent vasorelaxing peptide with natriuretic and diuretic actions. Recent data indicate that AM may function as an endogenous regulator of cardiac function. We investigated to what extent AM, the AM receptor subtypes, and AM receptor-associated proteins were regulated in cardiomyocytes and non-cardiomyocytes of rats with congestive heart failure (CHF), and whether such regulation was paralleled by corresponding alterations of functional responses to AM. Cardiomyocytes and non-cardiomyocytes were isolated from myocardial tissue of rats 7 days after induction of myocardial infarction or sham operation. AM immunoreactivity was found in cardiomyocytes, endothelial cells, and fibroblasts. Robust increase of AM mRNA levels was observed both in the cardiomyocytes and in the non-cardiomyocytes of CHF rats compared to that of sham-operated rats (2.7-fold and 3.7-fold, respectively, P <0.05). Fairly high mRNA levels and immunoreactivity against the AM receptor chaperone receptor activity-modifying protein-2 (RAMP2) were also detected in the cardiomyocytes and non-cardiomyocytes. However, induction of RAMP2 mRNA expression was restricted to cardiomyocytes (1.8-fold increase in cardiomyocytes from CHF rats vs. sham rats; P <0.05). In contrast, very low levels of RAMP3 mRNA were observed. RAMP3 mRNA levels, however, were elevated in both cardiomyocytes and non-cardiomyocytes from CHF rats (6.5-fold and 2.4-fold increase vs. sham rats, respectively; P <0.05). Parallel increases of specific AM receptor binding sites and of AM-stimulated adenylyl cyclase activities were observed in failing cardiomyocytes compared to cardiomyocytes from sham rats (fivefold and sixfold increase, respectively; P <0.05). Thus, this study demonstrates that AM mRNA levels, AM receptor binding sites, and AM-stimulated adenylyl cyclase activities are increased in cardiomyocytes from failing rat hearts. Furthermore, our data suggest that induction of RAMP2 and RAMP3 contributes to the increased responsiveness to AM in failing cardiomyocytes.

Comparison of gene expression in HCT116 treatment derivatives generated by two different 5-fluorouracil exposure protocols.

BACKGROUND: Established colorectal cancer cell lines subjected to different 5-fluorouracil (5-FU) treatment protocols are often used as in vitro model systems for investigations of downstream cellular responses to 5-FU and to generate 5-FU-resistant derivatives for the investigation of biological mechanisms involved in drug resistance. We subjected HCT116 colon cancer cells to two different 5-FU treatment protocols in an attempt to generate resistant derivatives: one that simulated the clinical bolus regimens using clinically-achievable 5-FU levels, the other that utilized serial passage in the presence of increasing 5-FU concentrations (continuous exposure). HCT116 Bolus3, ContinB, and ContinD, corresponding to independently-derived cell lines generated either by bolus exposure or continuous exposure, respectively, were characterized for growth- and apoptosis-associated phenotypes, and gene expression using 8.5 K oligonucleotide microarrays. Comparative gene expression analyses were done in order to determine if transcriptional profiles for the respective treatment derivatives were similar or substantially different, and to identify the signaling and regulatory pathways involved in mediating the downstream response to 5-FU exposure and possibly involved in development of resistance. RESULTS: HCT116 ContinB and ContinD cells were respectively 27-fold and >100-fold more resistant to 5-FU and had reduced apoptotic fractions in response to transient 5-FU challenge compared to the parental cell line, whereas HCT116 Bolus3 cells were not resistant to 5-FU after 3 cycles of bolus 5-FU treatment and had the same apoptotic response to transient 5-FU challenge as the parental cell line. However, gene expression levels and expression level changes for all detected genes in Bolus3 cells were similar to those seen in both the ContinB (strongest correlation) and ContinD derivatives, as demonstrated by correlation and cluster analyses. Regulatory pathways having to do with 5-FU metabolism, apoptosis, and DNA repair were among those that were affected by 5-FU treatment. CONCLUSION: All HCT116 derivative cell lines demonstrated similar transcriptional profiles, despite the facts that they were generated by two different 5-FU exposure protocols and that the bolus exposure derivative had not become resistant to 5-FU. Selection pressures on HCT116 cells as a result of 5-FU challenge are thus similar for both treatment protocols.

Molecular characterizations of derivatives of HCT116 colorectal cancer cells that are resistant to the chemotherapeutic agent 5-fluorouracil.

5-Fluorouracil (5-FU) is the chemotherapeutic drug of choice for the treatment of metastatic colorectal cancer, but resistance to 5-FU remains a major obstacle to successful therapy. We generated 5-FU-resistant derivatives of the HCT116 human colon cancer cell line by serial passage of these cells in the presence of increasing 5-FU concentrations in an attempt to elucidate the biological mechanisms involved in resistance to 5-FU. Two resultant resistant derivatives, HCT116 ResB and ResD, were characterized for resistance phenotypes, genotypes, and gene expression using cells maintained long-term in 5-FU-free media. Compared to parental HCT116 cells that respond to 5-FU challenge by inducing high levels of apoptosis, ResB and ResD derivatives had significantly reduced apoptotic fractions when transiently challenged with 5-FU. ResB and ResD cells were respectively 27- and 121-fold more resistant to 5-FU, had increased doubling times, and significantly increased plating efficiencies compared to the parental cells. Both resistant derivatives retained the wild-type TP53 genotype, TP53 copy number and CGH profile characteristic of the parental line. Alterations in gene expression in the resistant derivatives compared to the parental line were assessed using oligonucleotide microarrays. Overall, the 5-FU-resistant derivatives were characterized by reduced apoptosis and a more aggressive growth phenotype, consistent with the observed up-regulation of apoptosis-inhibitory genes (e.g., IRAK1, MALT1, BIRC5), positive growth-regulatory genes (e.g., CCND3, CCNE2, CCNF, CYR61), and metastasis genes (e.g., LMNB1, F3, TMSNB), and down-regulation of apoptosis-promoting genes (e.g., BNIP3, BNIP3L, FOXO3A) and negative growth-regulatory genes (e.g., AREG, CCNG2, CDKN1A, CDKN1C, GADD45A). 5-FU metabolism-associated genes (e.g., TYMS, DTYMK, UP) and DNA repair genes (e.g., FEN1, FANCG, RAD23B) were also up-regulated in one or both resistant derivatives, suggesting that the resistant derivatives might be able to overcome both 5-FU inhibition of thymidylate synthase and the DNA damage caused by 5-FU, respectively. Development of 5-FU resistance thus appears to encompass deregulation of apoptosis-, proliferation-, DNA repair-, and metastasis-associated regulatory pathways.

Increased expression of interleukin-1 in coronary artery disease with downregulatory effects of HMG-CoA reductase inhibitors.

BACKGROUND: Inflammation is important in atherogenesis. Interleukin (IL)-1 is the prototypic inflammatory cytokine. We hypothesized a dysbalance between inflammatory and anti-inflammatory mediators in the IL-1 family in coronary artery disease (CAD) and a possible modulation of these mediators by HMG-CoA inhibitors (statins). METHODS AND RESULTS: In a microarray screening experiment examining peripheral blood mononuclear cells (PBMCs) from 6 CAD patients and 4 healthy control subjects, IL-1beta was identified as 1 of 25 genes whose expression were upregulated in CAD and downregulated by statins. In the following, we studied the role of IL-1beta and related mediators in CAD. Our major findings were as follows. (1) Although mRNA levels of IL-1alpha and IL-1beta were markedly reduced in PBMCs from CAD patients after 6 months of simvastatin (20 mg/d, n=15) and atorvastatin (80 mg/d, n=15) therapy, the reduction in IL-1 receptor antagonist (IL-1Ra) was more modest. Statins also reduced the spontaneous release of IL-1beta and IL-1Ra from PBMCs in CAD patients. (2) mRNA levels of IL-1alpha, IL-1beta, and IL-1Ra were increased in PBMCs from patients with stable (n=20) and unstable (n=20) angina compared with healthy control subjects (n=15). Although the unstable patients had particularly high levels of IL-1beta and IL-1alpha, IL-1Ra was not correspondingly increased. (3) IL-1beta induced release of proatherogenic cytokines from PBMCs, whereas atorvastatin partly abolished this effect. CONCLUSIONS: Our findings suggest that cytokines in the IL-1 family may represent therapeutic targets in CAD. The ability of statins to modulate these cytokines in an anti-inflammatory direction underscores their immunomodulatory potential.

DNA transfection of mononuclear cells in muscle tissue.

BACKGROUND: Genes encoding non-self proteins may be injected into skeletal muscles in vivo to obtain induction of cellular and humoral immune responses against the encoded antigens (DNA vaccination). Bone marrow derived professional antigen-presenting cells (APCs) play a key role in the induction of immunity by DNA vaccination. In the present work we have investigated whether the APCs are transfected by DNA injection into muscle. METHODS: DNA encoding green fluorescent protein (GFP) was injected into rat and mouse limb muscle and followed by electroporation. Whole mount muscle tissue with GFP-positive mononuclear cells (MNCs) were treated with immunocytochemical markers specific for leukocytes, and studied with fluorescent microscopy. To detect transfected cells migrating to peripheral lymphoid tissue RT-PCR was applied on RNA isolated from the draining popliteal lymph node and spleen. Lymphoid tissue was also analyzed with real-time PCR for distribution of the injected plasmid. RESULTS: MNCs were transfected after intramuscular DNA injection, and, following DNA injection with electroporation, the number of GFP-positive MNCs increased 6-fold in rats and 14-fold in mice. None of the GFP-positive MNCs were stained with leukocyte-specific antibodies. Even though GFP encoding DNA was detected in the popliteal lymph node, no RNA encoding GFP was found in the lymph node or spleen. However, MHC II-positive cells in the muscle tissue appeared preferentially around the transfected MNCs. CONCLUSIONS: Many MNCs in the muscle are transfected after intramuscular DNA injection. Electroporation significantly increases the number of transfected MNCs. None of the observed transfected MNCs however were leukocytes. MHC II-positive cells accumulated around transfected MNCs; this suggests that transfer of antigen from transfected MNCs to APCs may contribute to the immune response.

Myocardial gene expression of inflammatory cytokines after heart transplantation in relation to the development of transplant coronary artery disease.

Long-term success of cardiac transplantation is mainly limited by the development of transplant coronary artery disease (CAD); it is generally accepted that it is immune mediated, involving cytokines and growth factors. We show that development of transplant CAD is associated with a particular cytokine profile in myocardial biopsies characterized by a late (i.e., 1 year) increase in tumor necrosis factor-alpha and interferon-gamma gene expression, which precede and potentially contribute to the development of allograft vasculopathy, further supporting a role for inflammation and the pathogenesis of transplant CAD in humans.

The colon mitosis-inhibitor pyroglutamyl-histidyl-glycine alters expression of immediate-early cancer-related genes in HT-29 cells.

BACKGROUND: The intestinal mitosis-inhibiting peptide pyroglu-His-GlyOH (pEHG), inhibits normal intestinal epithelial cells and the human colon adenocarcinoma cell line HT-29 and increases the expression of c-fos (1). In this study, we investigated the mechanisms of the growth-inhibiting effects of pEHG. MATERIALS AND METHODS: cDNA expression array was hybridized with cDNA from HT-29 cells exposed to pEHG or control. The results were confirmed with Northern blot or real-time PCR. RESULTS: pEHG(1 nM) provoked a significant increase in the expression of the early growth response protein 1 (egr-1) after an incubation of 20 minutes, while c-fos was confirmed up-regulated by the same treatment. We further studied the expression of fosB, c-jun and junB, in the AP-1 complex. fosB was up-regulated 20-fold, but only minor effects on jun variants were observed. CONCLUSION: pEHG stimulates the gene expression of some immediate-early transcription factors involved in cell proliferation.

Exposure to culturable microorganisms in paper mills and presence of symptoms associated with infections.

BACKGROUND: Previous studies of paper machine operators have to a large extent focused on endotoxins as a possible health hazard, but not culturable micro-organisms (MOs). METHODS: Based on exposure assessment in 11 paper mills workers exposed to culturable bio-aerosols were grouped in three exposure groups. 781 exposed and 285 unexposed workers completed a questionnaire that provided data pertaining to infections and associated symptoms. RESULTS: Concentrations of culturable bacteria in process waters varied in the range 10(4)-10(6) colony forming units (cfu)/ml, and in bio-aerosols concentrations varied typically in the range 10(4)-->10(5) cfu/m3. Operators exposed to bio-aerosols reported higher cumulative incidence of symptoms associated with infections compared to the reference population (ORs = 1.7-5.9), and the group of highest exposed workers reported higher cumulative incidence than the group of lowest exposed (ORs = 1.2-3.6). CONCLUSION: Exposure to bio-aerosols containing culturable MOs may induce symptoms associated with infections among operators in paper mills.

Increased gene expression of tumor necrosis factor superfamily ligands in peripheral blood mononuclear cells during chronic heart failure.

OBJECTIVE: Inflammation may play a pathogenic role in chronic heart failure (CHF). The objective of the study was to characterise the imbalance in the cytokine network in CHF. METHODS: cDNA expression arrays were used to analyse the gene expression of cytokines and related mediators in peripheral blood mononuclear cells (PBMC) from CHF patients (n=8) and healthy controls (n=8). Real-time quantitative reverse transcription-polymerase chain reaction (RT-PCR) was used to determine the gene expression of individual genes in additional 12 patients and eight controls. RESULTS: From 375 genes, 34 were upregulated and two downregulated in CHF patients in the cDNA expression array experiments. Regulated genes included chemokines/-receptors, members of the transforming growth factor beta superfamily, orphan receptors and in particular several members of the tumor necrosis factor (TNF) superfamily. Thus, 4-1BB ligand (L), APRIL, CD27L, CD40L, FasL, LIGHT, TRAIL-receptor 4 were upregulated, while TRAIL-receptor 3 was downregulated. Real-time quantitative RT-PCR confirmed significantly upregulated gene expression of APRIL, LIGHT, FasL and CD27L in CHF patients and showed in addition significantly enhanced gene expression of TNFalpha and TRAIL. CONCLUSION: The present study demonstrates differential gene expression in PBMC of several members of the cytokine network in CHF. In particular, the enhanced expression of several ligands in the TNF superfamily may reflect a potential pathogenic role of these cytokines in CHF.