[Risk Zoning of Heavy Metals in a Peri-urban Area in the Black Soil Farmland Based on Agricultural Products].

Agricultural products are a primary pathway for humans to accumulate heavy metals (HMs) via the soil-crop system and should therefore should be included as a crucial part of the food security in our country. Given that previous studies on protection zoning for preventing farmland HM pollution rarely considered agricultural products as a basic element, this study attempted to establish a zoning system for farmland HM prevention, which was based on the perspective of agricultural product pollution. We subsequently took a representative peri-urban area in the black soil region, which was provided with a higher risk of being polluted, as an empirical case. The results indicated that:① the comprehensive quality index of agricultural products (IICQAP) was 1.09, illustrating only a mild HM pollution, with Pb and Ni having the highest accumulation levels; ② the human health risk index (QHI) was 0.61, showing no risk for human health; and ③ the designed zoning method revealed 89.45% of the farmlands to be risk-free at the moment and 10.55% of the farmlands to be under low risk of HM pollution in agricultural products. According to the zoning results, we suggested prioritized protection and an early-warning strategy, respectively, and further recommended prevention methods such as accumulation intervention, crop restructuring, and in-situ passivation. The results served to enrich the theoretical basis for preventing farmland HM pollution, to reinforce the management standards for agricultural products in the black soil region, and also to build a differentiated urban-rural farmland protection system.

Acne-Like Subcutaneous Phaeohyphomycosis Caused by Cladosporium cladosporioides: A Rare Case Report and Review of Published Literatures.

We report a rare case of subcutaneous phaeohyphomycosis caused by Cladosporium cladosporioides. A 21-year-old man was presented to our clinic with the history of cysts and nodules on his face and neck for 5 years. He was diagnosed subcutaneous phaeohyphomycosis according to the finding of fungal elements in histopathological examination and direct microscopic examination of cyst pus, which was confirmed by positive culture of the cyst pus. The isolate grown on culture was identified as C. cladosporioides on the basis of morphological characters and sequence of the ITS region of ribosomal DNA. After treatment with oral itraconazole, he almost completely resolved the inflammatory lesions. To the best of our knowledge, this is the first case report of C. cladosporioides infection presented with multiple cysts and nodules like acne.

Involvement of multiple transcription factors in the regulation of steroidogenic acute regulatory protein gene expression.

The rate-limiting, committed, and regulatable step in steroid hormone biosynthesis is the transport of cholesterol from the outer to the inner mitochondrial membrane, a process that is mediated by the steroidogenic acute regulatory (StAR) protein. In steroidogenic cells, the StAR protein is regulated by cAMP-dependent mechanisms. However, the StAR promoter lacks a consensus cAMP response-element (CRE), suggesting the involvement of alternate regulatory factor(s) in cAMP responsiveness. These regulatory elements are found to be located in a transcription factor-binding site-rich region (consisting of approximately 150 nucleotides upstream of the transcription start site) of the StAR promoter, and appears to be the most important region in regulating transcription of the StAR gene. The StAR promoter sequences in mouse, rat and human are highly homologous, and in the absence of a canonical CRE, multiple cis-elements have been shown to be instrumental in the regulation of StAR gene expression. Nevertheless, it has become apparent that functional cooperation, interaction, and alteration of different transcription factors are involved in the fine-tuning of the regulatory events associated with StAR gene transcription.

Involvement of 5-lipoxygenase metabolites of arachidonic acid in cyclic AMP-stimulated steroidogenesis and steroidogenic acute regulatory protein gene expression.

To understand the mechanism for the role of arachidonic acid (AA) in steroidogenic acute regulatory (StAR) gene transcription, sections of the -1/-966 StAR promoter were deleted to produce constructs of -1/-426, -1/-211, -1/-151, and -1/-110 and inserted into the PGL3 vector to drive luciferase expression. Results indicated that -1/-151 StAR promoter contains the elements that are most responsive to AA. Electrophoretic mobility shift assays using nuclear extracts from AA-treated MA-10 Leydig tumor cells showed that AA enhanced specific binding of the nuclear extract to a 30bp (-67/-96) sequence of the StAR promoter. Also, HPLC was used to identify AA metabolites involved in StAR gene transcription. It was found that 1mM N6,2-O-dibutyryladenosine 3:5-cyclic monophosphate (dbcAMP) significantly increased the 5-lipoxygenase metabolites, 5-hydroperoxyeicosatetraenoic acid (5-HPETE) and 5-hydroxyeicosatetraenoic acid (5-HETE). Moreover, in the presence of 0.2mM dbcAMP addition of 20 microM 5-HPETE or 5-HETE significantly enhanced StAR protein expression and progesterone production (P<0.05). Similar results were obtained for StAR gene transcription with StAR mRNA levels and StAR promoter activities being significantly increased (P<0.05) when 5-HPETE was added to MA-10 cell cultures. In summary, the present studies demonstrated that cyclic AMP (cAMP) stimulated the production of the AA metabolites, 5-HPETE and 5-HETE, and showed that these metabolites enhanced StAR gene expression and steroid hormone production. The results further suggested that the AA-responsive element resides in the -67/-96 region of the StAR promoter.

Mechanisms of epidermal growth factor signaling: regulation of steroid biosynthesis and the steroidogenic acute regulatory protein in mouse Leydig tumor cells.

Steroid hormone biosynthesis in the adrenals and gonads is regulated by the steroidogenic acute regulatory (StAR) protein through its action in mediating the intramitochondrial transport of cholesterol. A role for epidermal growth factor (EGF) in modulating steroidogenesis has been previously determined, but the mechanism of its action remains unknown. The present investigation was designed to explore the potential mechanism of action of mouse EGF (mEGF) in the regulation of steroid biosynthesis and StAR protein expression in mLTC-1 mouse Leydig tumor cells. We show that treatment of mLTC-1 cells with mEGF significantly increased the levels of progesterone (P), StAR protein, and StAR mRNA in a time- and dose-dependent manner. The coordinate induction of P synthesis and StAR gene expression by mEGF was effectively inhibited by cycloheximide, indicating a requirement for de novo protein synthesis. Also, longer exposure of mLTC-1 cells to mEGF produced a marked decrease in LH-receptor mRNA expression. These effects of mEGF were exerted through high-affinity binding sites (K(d) approximately 0.53 nmol/L) in these cells. It was also determined that the arachidonic acid (especially lipoxygenase metabolites) and mitogen-activated protein kinase pathways were also involved in the mEGF-induced steroidogenic response. However, involvement of the latter pathway was further assessed in nonsteroidogenic COS-1 cells transfected with the Elk1 trans-reporting plasmids and resulted in a significant increase in luciferase activity in response to mEGF. Furthermore, deletion and mutational analyses demonstrated a predominant involvement of activator protein-1 in addition to the multiple mEGF responsive elements found within the 5'-flanking region (-151/-1 base pairs) of the mouse StAR gene. These findings provide novel insights into the mEGF-induced regulatory cascades associated with steroid synthesis and StAR protein expression in mouse Leydig cells.

Interaction between arachidonic acid and cAMP signaling pathways enhances steroidogenesis and StAR gene expression in MA-10 Leydig tumor cells.

Previous studies have demonstrated that trophic hormone stimulation induced cyclic AMP (cAMP) formation and arachidonic acid (AA) release from phospholipids and that both these compounds were required for steroid biosynthesis and steroidogenic acute regulatory (StAR) gene expression in MA-10 mouse Leydig tumor cells. The present study further investigates the synergistic effects of the AA and cAMP interaction on steroidogenesis. To demonstrate cAMP-induced AA release, MA-10 cells were pre-loaded with 3H-AA and subsequently treated with dibutyryl cyclic AMP (dbcAMP). Stimulation with dbcAMP significantly induced AA release in MA-10 cells to a level 145.7% higher than that of controls. Lowering intracellular cAMP concentration by expressing a cAMP-phosphodiesterase significantly reduced human chorionic gonadotrophin (hCG)-induced AA release. The dbcAMP-induced AA release was inhibited significantly by the phospholipase A(2) (PLA(2)) inhibitor dexamethasone (Dex) and also by the protein kinase A (PKA) inhibitor H89, suggesting the involvement of PKA phosphorylation and/or PLA(2) activation in cAMP-induced AA release. The effect of the interaction between AA and cAMP on StAR gene expression and steroid production was also investigated. While 0.2 mM dbcAMP induced only very low levels of StAR protein, StAR mRNA, StAR promoter activity and steroid production, all of these parameters increased dramatically as AA concentration in the culture medium was increased from 0 to 200 microM. Importantly, AA was not able to induce a significant increase in steroidogenesis at any concentration when used in the absence of dbcAMP. However, when used in concert with submaximal concentrations of dbcAMP (0.05 mm to 0.5 mm), AA was capable of stimulating StAR gene expression and increasing steroid production significantly. The results from this study demonstrate that AA and cAMP act in a highly synergistic manner to increase the sensitivity of steroid production to trophic hormone stimulation and probably do so by increasing StAR gene expression.