Aristolochic acid I interferes with the expression of BLCAP tumor suppressor gene in human cells.

Aristolochic acid I (AAI) is a phytocompound that is linked to the progressive renal disease and development of human urothelial carcinoma. The bladder cancer-associated protein (BLCAP) gene exhibits a tumor suppressor function in various tumors, including bladder carcinoma. This study evaluated the effect of AAI on BLCAP expression and its associated mechanism in human cells. Administering AAI to human embryonic kidney cells (HEK293), human proximal tubule epithelial cells (HK-2) and urinary bladder cancer cells (HT-1376) significantly reduced the expression of BLCAP mRNA and protein. AAI also effectively suppressed the luciferase activities driven by BLCAP promoters of various lengths in HEK293 cells. AAI significantly reduced both activator protein 1 (AP-1) and nuclear factor-κB (NF-κB) activities in reporter assays, but further point mutations revealed that Ap-1 and NF-κB binding sites on the BLCAP promoter were not AAI-responsive elements. Application of the DNA methyltransferase inhibitor, 5-aza-2'-deoxycytidine (5-aza-dC), reversed the decline of BLCAP expression that had been induced by AAI. However, AAI exposure did not alter hypermethylation of the BLCAP promoter, determined by methyl-specific polymerase chain reaction (PCR) and bisulfate sequencing. Knocking down BLCAP in HEK293 cell line enhanced the potential for cellular migration, invasion, and proliferation, along with the induction of a capacity for anchorage-independent growth. In conclusion, AAI down-regulated the expression of BLCAP gene and the deficiency in BLCAP expression contributed to the malignant transformation of human cells, implying that BLCAP may have a role in mediating AAI-associated carcinogenesis.

Development of ultrasensitive direct chemiluminescent enzyme immunoassay for determination of aflatoxin M1 in milk.

A direct competitive chemiluminescent enzyme-linked immunosorbent assay (CL-ELISA) for detecting aflatoxin M1 (AFM1) was developed. To improve the sensitivity of the assay, a mixture of 3-(10'-phenothiazinyl)-propane-1-sulfonate (SPTZ) and 4-morpholinopyridine (MORPH) was used to enhance peroxidase-induced CL. The concentrations of the coating anti-AFM1 antibody and the conjugate of AFB1 with horseradish peroxidase the conditions of the chemiluminescent assay were varied to optimise the condition of the chemiluminescent assay. The lower detection limit values and dynamic working range of CL-ELISA of AFM1 were 0.001 ng mL(-1) and 0.002-0.0075 ng mL(-1), respectively. A 20-fold dilution of milk samples prevented a matrix effect of the milk and allowed measurement of AFM1 at concentrations below than the maximum acceptable limit. Values of recovery within and between assays were 81.5-117.6% and 86-110.6%, respectively. The results of using the developed CL-ELISA to analyse samples of six brands of milk that were purchased in Taiwan revealed that AFM1 was absent from all studied samples.

Production of monoclonal antibody for okadaic acid and its utilization in an ultrasensitive enzyme-linked immunosorbent assay and one-step immunochromatographic strip.

Okadaic acid (OA) is a common marine biotoxin that accumulates in bivalves and causes diarrhetic shellfish poisoning (DSP). This study generated a monoclonal antibody (mAb) specific to OA from a hybridoma cell line, 6B1A3, which was obtained by fusion of myeloma cells (P3/NS1/1-AG4-1) with spleen cells isolated from a BALB/c mouse immunized with OA-γ-globulin. The 6B1A3 mAb belongs to the immunoglobulin G1 (κ chain) isotype. Both competitive direct and indirect enzyme-linked immunosorbent assays (ELISAs) were established for characterization of the antibody. The concentrations causing 50% inhibition of binding of OA-horseradish peroxidase to the antibody by OA were calculated to be 0.077 ng/mL in the cdELISA. A rapid and sensitive mAb-based gold nanoparticle immunochromatographic strip was also established. This proposed strip has a detection limit of 5 ng/mL for OA and can be finished in 10 min. Extensive analyses of 20 seafood samples with ELISA revealed that 10 were slightly contaminated with OA, with a mean concentration of 0.892 ng/g. Analysis of OA in shellfish samples showed that data acquired by the immunochromatographic strip agreed well with those acquired by the ELISA. The mAb-based ELISA and immunochromatographic strip assay developed in this study have adequate sensitivity and accuracy for rapid screening of OA in shellfish samples.

Aristolochic acid I suppressed iNOS gene expression and NF-κB activation in stimulated macrophage cells.

Aristolochic acid I (AAI) is a phytotoxin that has been found in various herbal remedies and linked to the development of human carcinogenesis. To investigate the playing role of AAI in the function of macrophages, lipopolysaccharide (LPS)-stimulated macrophage cells RAW264.7 were employed as a model to examine the effect of AAI on the expression of the inducible nitric oxide synthase (iNOS) gene. AAI reduced the expression of iNOS mRNA and protein, as well as the production of NO in LPS-stimulated macrophages. Treatment of transfected macrophages with AAI effectively suppressed the luciferase activities of the iNOS promoter which is activated by LPS. The results of promoter deletion and electrophoretic gel mobility shift assay (EMSA) indicated that the NF-κB binding site at nucleotides -86 to -76 was the major site that was most responsible for the inhibitory effect of AAI. Moreover, the presence of AAI substantially reduced the phosphorylation of the inhibitory κBα (IκBα) protein in LPS-stimulated cultures. AAI also down-regulated the LPS-induction of TNF-α, a NF-κB regulated gene. On the other hand, AAI did not modulate the luciferase activities of reporter construct that contained iNOS mRNA 3'-UTR. Taken together, the data herein suggest that in activated macrophages, AAI effectively down-regulated the expression of iNOS gene by interfering with the activation of NF-κB at the transcription level. The stability of iNOS mRNA was not the target of AAI inhibition.