Effect of adalimumab on the expression of genes encoding TNF-α signal paths in skin fibroblasts in vitro

The MAP2K2 Gene as Potential Diagnostic Marker in Monitoring Adalimumab Therapy of Psoriatic Arthritis

BACKGROUND

MAP kinases are some of the cascades that are specialized in the cell's response to external stimuli. Their impaired functioning can be observed during the course of psoriatic arthritis. Currently, the best-known class of biological drugs is the inhibitors of the proinflammatory cytokine TNF-α, including adalimumab.

OBJECTIVE

The aim of this study was to assess changes in the expression of MAP kinase genes in patients with psoriatic arthritis treated with adalimumab, as well as to determine which of the analyzed transcripts could be used as a diagnostic or therapeutic target.

METHODS

An analysis was performed on the total RNA extracted from PBMCs of patients with psoriatic arthritis before and after three months of adalimumab therapy as well as from a control group. Changes in the expression of the mitogen-activated protein kinase genes were assessed using the HG-U133A 2.0 oligonucleotide microarray method, while the obtained results were validated using the real-time RT-qPCR method.

RESULTS

Using the oligonucleotide microarray method, 14 genes coded for proteins from the MAPK group were identified with at least a two-fold change of expression in the control group and during adalimumab therapy. Validation of the results confirmed a statistically significant decrease in the transcriptional activity of the MAP2K2 gene in the group of patients three months after the administration of adalimumab relative to the control group.

CONCLUSION

Adalimumab therapy alters the expression of MAPK-coding genes. The assessment of the number of MAP2K2 mRNA molecules can potentially be used in diagnostic analyses or in monitoring adalimumab therapy.

Differences in expression of genes related to drug resistance and miRNAs regulating their expression in skin fibroblasts exposed to adalimumab and cyclosporine A

Introduction

Adalimumab and cyclosporine A are drugs used in moderate to severe forms of psoriasis. Despite the molecular orientation of the drugs, there is a loss of adequate cell sensitivity to the anti-cytokine therapy.

Aim

To determine the changes in the gene expression profile associated with drug resistance in the culture of normal human dermal fibroblasts (NHDF) exposed to adalimumab or cyclosporine A compared to the controls.

Material and methods

NHDF was exposed to adalimumab/cyclosporine A for 2, 8, 24 h compared to the control culture. Molecular analysis was performed using mRNA and miRNA microarray techniques. The obtained results were analysed using PL - Grid infrastructure (p < 0.05).

Results

Of the 22277 ID mRNA, 47 are associated with drug resistance, of which the change in expression of 17 mRNA ID is statistically significant (p < 0.05). The greatest change in transcriptional activity (FC ≥ 1.3) was observed for GLO1, SLC10A3, TUFT1, STATH, ABCB1, AGTR1. Expression of these genes can be regulated by miR-199a-5p, miR-1231, miR-34a, miR-3188, and miR-106a (except AGTR1).

Conclusions

The analysis of changes in the expression of mRNA and miRNA related to drug resistance gives the possibility of monitoring the effectiveness of anti-cytokine therapy.

mRNA level of ROCK1, RHOA, and LIMK2 as genes associated with apoptosis in evaluation of effectiveness of adalimumab treatment

BACKGROUND

Psoriasis is a multifactorial autoimmune disease, which underlies the abnormalities of the apoptotic process. In cases of psoriasis and psoriatic arthritis, biological treatment is used. This study aimed to determine any changes in the expression of the genes associated with apoptosis in patients with psoriatic arthritis treated with adalimumab and to assess any phenotypic modifications based on changes in dermatological indexes.

METHODS

The study included 20 patients with psoriatic arthritis treated biologically and 20 healthy volunteers. The research material consisted of peripheral blood mononuclear cells (PBMCs) from which the total RNA was isolated. Changes in the gene expression were determined using oligonucleotide microarrays and RT-qPCR. The clinical condition was assessed based on selected indicators: PASI, BSA [%], DAS28, and DLQI, which were determined every 3 months.

RESULTS

There were changes in the expression of genes associated with apoptosis. Significant differences were found for ROCK1, RhoA, and LIMK2 expression profiles in PBMCs. At the initial stage of treatment, a decrease in the PASI and BSA rates was observed. At the later stages, the values of these indicators increased once again. There were correlations between the changes in these genes' expression and the dermatological markers.

CONCLUSION

Adalimumab influences the expression of genes related to apoptosis and the values of dermatological indicators of patients. Changes in the expression level of genes associated with apoptosis suggest that ROCK1, RhoA, and LIMK2 may be genes that can potentially be indicators of treatment effectiveness and lack of response to biological treatment.

Evaluation of changes in expression pattern of oxidative stress genes under the influence of adalimumab

The psoriasis therapy consists of the inhibition of cytokines involved in inducing and development of this disease. The aim of the study was to evaluate the changes in the expression of genes related to the oxidative stress phenomenon in the culture of normal human dermal fibroblasts of Normal Human Dermal Fibroblasts (NHDF) exposed to adalimumab. NHDF culture was exposed to adalimumab for 2-, 8-, and 24-hr periods. The control consisted of the same cells not exposed to adalimumab. The oligonucleotide microarrays HG-U133A 2.0 were used to analyze the changes in gene expression in NHDF culture. Analysis showed that there are 3,881 ID mRNA involved in the induction and development of oxidative stress, the expression of which changes significantly due to the exposure of NHDF cells to adalimumab (p < .05) among 1,369 ID mRNA of them. These include genes associated with apoptosis, the p38 MAPK pathway and the PDGF pathway, and above all with pathways not yet classified. Studies have shown that two genes: NR4A2 and IL1RN, whose expression has changed the most, expressed as Fold Change (FC) seem to be the most promising molecular markers to monitor therapy and loss of cell sensitivity to treatment.

Expression of Semaphorin 3B (SEMA3B) in Various Grades of Endometrial Cancer

BACKGROUND SEMA3B is known as an inhibitor of angiogenesis and cell proliferation. During carcinogenesis, the loss of SEMA3B function is observed, which results in the progression of neoplastic changes. The aim of this study was to evaluate the expression profile of SEMA3B in endometrial cancer (G1-G3) in comparison to the control group and to assess whether the observed changes in expression could become a molecular marker in endometrial cancer. MATERIAL AND METHODS The study group consisted of 45 patients diagnosed with endometrial cancer (G1, 17; G2, 15; G3, 13). The control group included 15 patients. SEMA3B expression was assessed using the immunohistochemical method. Statistical analysis was carried out using the Statistica 12 PL program (StatSoft, USA). It included the Kruskal-Wallis test and post hoc Dunn's test (p<0.05). RESULTS Statistically significant differences in the level of SEMA3B expression were observed between all analyzed groups. The expression pattern of SEMA3B was as follows: cancer cells G1>G2>G3; endothelial cells: G3>G1>G2; stromal cells: G2>G1>G3. CONCLUSIONS Analysis of the SEMA3B expression profile shows the complexity of neoplastic transformation, which confirms the different expression of SEMA3B in endometrial cancer cells and endothelial cells. The present results and data in the literature data suggest that SEMA3B expression indicates the progression of carcinogenesis in the context of endometrial cancer.