Arsenic and the compounds thereof can be carcinogens or therapeutic agents for different cancer types. However, for breast cancer (BC), studies have yielded conflicted results on the role of arsenic. ...A previous study by the present authors indicated a potential relationship between circDHX34 and sodium arsenite-treated BC cells. As such, the expression, function, and potential mechanism of circDHX34 in sodium arsenite-treated MDA-MB-231 cells were further detected. In the present study, findings were made that sodium arsenite upregulated circDHX34 expression in MDA-MB-231 cells in a dose-dependent manner, and knockdown of circDHX34 could promote cell proliferation and inhibit apoptosis. Further investigations revealed that knockdown of circDHX34 upregulated the expression levels of antiapoptotic genes BCL2 and BCL2L1 and downregulated the expression levels of proapoptotic genes CASP8 and CASP9. To conclude, by regulating apoptotic genes, sodium arsenite-mediated upregulation of circDHX34 promotes apoptosis in hormone-independent breast cancer cells.
Cotton Verticillium wilt is mainly caused by the fungus
, which threatens the production of cotton. Its pathogen can survive in the soil for several years in the form of microsclerotia, making it a ...destructive soil-borne disease. The accurate, sensitive, and rapid detection of
from complex soil samples is of great significance for the early warning and management of cotton Verticillium wilt. In this study, we combined the loop-mediated isothermal amplification (LAMP) with CRISPR/Cas12a technology to develop an accurate, sensitive, and rapid detection method for
. Initially, LAMP primers and CRISPR RNA (crRNA) were designed based on a specific DNA sequence of
, which was validated using several closely related
spp. The lower detection limit of the LAMP-CRISPR/Cas12a combined with the fluorescent visualization detection system is approximately ~10 fg/μL genomic DNA per reaction. When combined with crude DNA-extraction methods, it is possible to detect as few as two microsclerotia per gram of soil, with the total detection process taking less than 90 min. Furthermore, to improve the method's user and field friendliness, the field detection results were visualized using lateral flow strips (LFS). The LAMP-CRISPR/Cas12a-LFS system has a lower detection limit of ~1 fg/μL genomic DNA of the
, and when combined with the field crude DNA-extraction method, it can detect as few as six microsclerotia per gram of soil, with the total detection process taking less than 2 h. In summary, this study expands the application of LAMP-CRISPR/Cas12a nucleic acid detection in
and will contribute to the development of field-deployable diagnostic productions.
Arsenic (As) exposure has been a global public health concern for hundreds of millions worldwide. LncRNA APTR (Alu-mediated p21 transcriptional regulator) plays an essential role in tumor growth and ...development. However, its function in arsenic-induced toxicological responses is still unknown. In this study, we found that the expressions of all transcripts and the transcript NR 134251.1 of APTR were increased in a dose-dependent manner in 16HBE cells treated with sodium arsenite (NaAsO2). Silencing the transcript NR 134251.1 of APTR inhibited cell proliferation and induced apoptosis. However, silencing all transcripts of APTR had the opposite function to the transcript NR 134251.1. Then we examined the protein level of the proliferation and apoptosis-related genes after silencing the transcript NR 134251.1 of APTR. The results showed that silencing the transcript NR 134251.1 of APTR up-regulated the expression of transcription factor E2F1 and regulated its downstream genes involved in proliferation and apoptosis, including p53, phospho-p53-S392, phospho-p53-T55, p21, Cyclin D1, PUMA, Fas, Bim, BIK, Caspase-3, Caspase-7, and Cyt-c. In conclusion, arsenic induced APTR expression and the transcript NR 134251.1 of APTR have an opposite function to all transcripts, providing a theoretical basis for the prevention and treatment of arsenic exposure.
In plant genetic engineering, to ensure the efficiently expression of foreign genes in recipient plant cells require high-quality promoters. In this study, a novel promoter, WY172, derived from
...Oidium heveae
B.A. Steinm, was isolated and functionally characterized. GUS staining and GUS activity tests indicated that WY172 could effectively drive
GUS
expression in both monocotyledonous rice and dicotyledonous tobacco. The micro-hypersensitive response revealed that transgenic tobacco harbouring WY172 and
HpaXm
had more blue necrotic cells than that of positive control of CaMV35S-HpaXm transgenic tobacco. As well, TMV inoculation tests showed fewer lesions on the leaves of WY172-HpaXm transgenic tobacco than those of the positive control, indicating that WY172 could drive the expression of exogenous functional genes
HpaXm
. Furthermore, the expression level of the
HpaXm
gene in WY172-HpaXm transgenic tobacco after TMV inoculation was 7.1 times that of uninoculated tobacco. And WY172 also had a relative stronger ability to drive expression of
HpaXm
after TMV inoculation compared with non-inoculated plants, indicating that WY172 might be a pathogen-inducible promoter. Bioinformatics analysis indicated that WY172 is rich in pathogen-induced
cis
-acting elements such as auxin response element and light response elements, and induction experiments demonstrated that WY172 drives
GUS
expression after exogenous application of IAA, which both supported that WY172 might be an inducible promoter. In conclusion, WY172 promoter is an IAA- and pathogen-inducible promoter, which might has high potential for use in a wide range of hosts.
Key message
By blasting and predicting the
Oidium heveae
B.A. Steinm genome, we obtained and preliminarily demonstrated that the WY172 promoter that may be induced by IAA and TMV. WY172 can play a role in rice and tobacco, and can drive efficient expression of HpaXm in transgenic tobacco and produce TMV resistance and micro-hypersensitive response.
Autofluorescence is produced by endogenous fluorophores, such as NAD(P)H, lipofuscin, melanin, and riboflavin, indicating the accumulation of substances and the state of energy metabolism in ...organisms. As an obligate parasite, powdery mildew is wildly spread by air and parasitic crops. However, most identification studies have been based on morphology and molecular biology which were far too time- and labor-consuming, thus lacking characteristic, simple, and effective means. Using microscopy under the blue and cyan channels, we elaborated visible conidial autofluorescence in three powdery mildew species, Erysiphe quercicola, E. cichoracearum, and Podosphaera hibiscicola, with a sharp increase during the conidia senescence in E. quercicola. Additionally, the main spectral excitation detected by fluorescence spectrometery was 375 nm for these species, with a common emission peak at approximately 458–463 nm, and an additional trend at 487 nm for P. hibiscicola. Because NAD(P)H has a similar spectral feature, we further investigated the relation between NAD(P)H and conidial autofluorescence by fluorescence spectra. We observed that the reduced coenzymes prominently contributed to conidial autofluorescence; however, the conidial autofluorescence in P. hibiscicola displayed a different trend that may be affected by the oxidized coenzyme –NAD. Finally, the normalized average spectra of these three powdery mildew species and standard samples showed that the spectral trend of each species was similar but that the features in detail were specific and distinct based on principal component analysis. In conclusion, we showed and characterized conidial autofluorescence in three powdery mildew species for the first time. The specific conidial autofluorescence in these species provides a new idea for the development of field spore capture and identification devices for the discrimination of powdery mildew at the species level.
Autofluorescence; Conidia; Powdery mildew; Fluorescence spectrum; Erysiphe quercicola.
Arsenic, as a human carcinogen, has posed a certain threat to environmental health globally. However, the underlying mechanism of the arsenic carcinogenic effect remains largely undetermined. The ...up-regulation of MDM2 seems to play a crucial part in tumors in especial carcinomas of the diffuse type. The interaction of MDM2 and p53 is closely relevant to the pathogenesis of tumors. In this study, we aimed to investigate the effect on MDM2, p53, and their phosphorylation after As(III). In the epidemiological study, we investigated that MDM2 expression was up-regulation and was positively linked to methylated metabolites (monomethylarsonic acid (MMA) and dimethylarsinic acid (DMA)) after As(III)-exposure. In vitro studies employing A549 and 16HBE cells confirmed the epidemiological data. Studies on MDM2 phosphorylation sites consisting of Ser166, Ser260, and Ser394 in response to arsenic exposure, which have not been studied presently, indicated that As(III) could induce the expression of MDM2 phosphorylation. Moreover, we studied the alterations of p53 and its N-terminus phosphorylation sites of Ser9, Ser15, and Ser33, which demonstrated that p53 and its phosphorylation were highly expressed after As(III) exposure. Subsequently, Co-immunoprecipitation assays validated our hypothesis that the bonding of MDM2 and p53 was altered by arsenic exposure. What’s more, outcomes coming from different cell types of A549, 16HBE, and 60 T-16HBE revealed that MDM2 and its phosphorylation expression existed a significant difference. The study provides evidence that As(III) and its methylated metabolites modulate the expression of MDM2, p53, and their phosphorylation and then affect the interaction between MDM2 and p53.
Arsenic is a toxic metalloid vastly dispersed all over the occupational environments, manifesting multiple adverse health issues related to apoptosis. PUMA (p53 up-regulated modulator of apoptosis) ...is a crucial member of the Bcl-2 protein family and plays a key role in pro-apoptosis. The purpose of this work was to determine whether inorganic arsenic (NaAsO2) and its metabolites influenced the expression of PUMA in vivo and vitro, followed by investigating the mechanisms. RNA was extracted from serum and used to determine the expression of PUMA in vivo. The urine samples performed arsenic speciation analysis. This trial tested three-dose proportions in two cell lines (A549: 20, 40, 60 μM/L; 16HBE: 1.5, 3.0, 4.5 μM/L), respectively. According to the results of qRT-PCR and western blotting, NaAsO2 caused the overexpression of PUMA, not its metabolites. Furthermore, NaAsO2 induced phosphorylation of p53 at Ser315, 376, 392, and Thr55, and acetylation of p53 at K370, 382 with a dose-response relationship, suggesting the contribution of PUMA up-regulation to p53 phosphorylation and acetylation. CCK-8, JC-1 (5, 5′, 6, 6′-tetrachloro-1, 1′, 3, 3′-tetramethylbenzimi-dazolylcarbocyanine iodide), Hoechst33342/PI and the caspase3 and PARP1 blots were utilized to reveal apoptosis responding to NaAsO2 exposure. The co-immunoprecipitation assay showed that the interaction between PUMA and Bcl-X enhanced in intensity responding to NaAsO2 exposure, disrupting the complexes of Bcl-X with other pro-survival Bcl-2-related proteins. To our knowledge, we first reported that NaAsO2 activated phosphorylation of p53 at Ser315, 376, and Thr55, as well as acetylation of p53 at K370.
•Inorganic arsenic exposure caused the overexpression of PUMA in vivo and vitro.•Apoptosis induced by inorganic arsenic.•Inorganic arsenic exposure increased p53 expression in A549 and 16HBE cells.•P53 phosphorylation and acetylation activated at Ser315/376/392/Thr55, K370/382.•Inorganic arsenic exposure enhanced the interaction between PUMA and Bcl-X.
Cotton Verticillium wilt is mainly caused by the fungus Verticillium dahliae, which threatens the production of cotton. Its pathogen can survive in the soil for several years in the form of ...microsclerotia, making it a destructive soil-borne disease. The accurate, sensitive, and rapid detection of V. dahliae from complex soil samples is of great significance for the early warning and management of cotton Verticillium wilt. In this study, we combined the loop-mediated isothermal amplification (LAMP) with CRISPR/Cas12a technology to develop an accurate, sensitive, and rapid detection method for V. dahliae. Initially, LAMP primers and CRISPR RNA (crRNA) were designed based on a specific DNA sequence of V. dahliae, which was validated using several closely related Verticillium spp. The lower detection limit of the LAMP-CRISPR/Cas12a combined with the fluorescent visualization detection system is approximately ~10 fg/μL genomic DNA per reaction. When combined with crude DNA-extraction methods, it is possible to detect as few as two microsclerotia per gram of soil, with the total detection process taking less than 90 min. Furthermore, to improve the method’s user and field friendliness, the field detection results were visualized using lateral flow strips (LFS). The LAMP-CRISPR/Cas12a-LFS system has a lower detection limit of ~1 fg/μL genomic DNA of the V. dahliae, and when combined with the field crude DNA-extraction method, it can detect as few as six microsclerotia per gram of soil, with the total detection process taking less than 2 h. In summary, this study expands the application of LAMP-CRISPR/Cas12a nucleic acid detection in V. dahliae and will contribute to the development of field-deployable diagnostic productions.
The regulatory network between arsenic, genes and signaling pathways has been reported in arsenic carcinogenesis. Studies on circRNA represent a growing field, but the extent to circRNA potential ...mechanisms remains poorly understood. So this study we explore the systematic function of hsa_circ_0005050 in mediating the cell apoptosis and proliferation. We demonstrated that hsa_circ_0005050 was highly expressed in subjects who are long-term exposed to arsenic, and could be induced by NaAs2O3 in A549 and 16HBE. Knockdown of hsa_circ_0005050 promotes A549 cell viability, whereas exerts the opposite effects in 16HBE. Mechanistically, hsa_circ_0005050 regulates the p53 and NF-κB signaling pathway involved in the apoptosis and proliferation. And we found that hsa_circ_0005050 could directly bind to the RNA binding protein ILF3 and mutually influence each other's formation. Upon si-hsa_circ_0005050, ILF3 export to the cytoplasm resulting the formation of a ternary complex ILF3-p65-IκBA, breaks the balance of p53 and NF-κB pathway and induces A549 apoptosis and leads to 16HBE proliferation. As a result of these investigations, suggestions were identified for future research.
•Arsenic exposure induced hsa_circ_0005050 expression in vivo and vitro.•Si-hsa_circ_0005050 cause an opposite effect on cell apoptosis and proliferation.•Si-hsa_circ_0005050 leads to the disruption of the balance between p53 and p65.•Si-hsa_circ_0005050 promote ILF3 exporting and forming the complex ILF3-p65-IκBA.