Title : BPA-induced prostatic hyperplasia in vitro is correlated with the unbalanced gene expression of AR and ER in the epithelium and stroma.

Pub. Date : 2021 Oct

PMID : 34486460






9 Functional Relationships(s)
Download
Sentence
Compound Name
Protein Name
Organism
1 Additionally, our results considered that androgen receptor (AR), estrogen receptor (ERalpha, ERbeta), and NFKB1 gene expressions exhibited up-regulation in HPEpiC treated with 10-9 M BPA for 72 h. However, in HPrF, the identical BPA treatment could activate ERalpha, ERbeta, and NFKB1 gene expressions and down-regulated the expression of AR levels. bisphenol A estrogen receptor 1 Homo sapiens
2 Additionally, our results considered that androgen receptor (AR), estrogen receptor (ERalpha, ERbeta), and NFKB1 gene expressions exhibited up-regulation in HPEpiC treated with 10-9 M BPA for 72 h. However, in HPrF, the identical BPA treatment could activate ERalpha, ERbeta, and NFKB1 gene expressions and down-regulated the expression of AR levels. bisphenol A estrogen receptor 1 Homo sapiens
3 Additionally, our results considered that androgen receptor (AR), estrogen receptor (ERalpha, ERbeta), and NFKB1 gene expressions exhibited up-regulation in HPEpiC treated with 10-9 M BPA for 72 h. However, in HPrF, the identical BPA treatment could activate ERalpha, ERbeta, and NFKB1 gene expressions and down-regulated the expression of AR levels. bisphenol A estrogen receptor 1 Homo sapiens
4 Additionally, our results considered that androgen receptor (AR), estrogen receptor (ERalpha, ERbeta), and NFKB1 gene expressions exhibited up-regulation in HPEpiC treated with 10-9 M BPA for 72 h. However, in HPrF, the identical BPA treatment could activate ERalpha, ERbeta, and NFKB1 gene expressions and down-regulated the expression of AR levels. bisphenol A estrogen receptor 1 Homo sapiens
5 Additionally, our results considered that androgen receptor (AR), estrogen receptor (ERalpha, ERbeta), and NFKB1 gene expressions exhibited up-regulation in HPEpiC treated with 10-9 M BPA for 72 h. However, in HPrF, the identical BPA treatment could activate ERalpha, ERbeta, and NFKB1 gene expressions and down-regulated the expression of AR levels. bisphenol A estrogen receptor 1 Homo sapiens
6 Additionally, our results considered that androgen receptor (AR), estrogen receptor (ERalpha, ERbeta), and NFKB1 gene expressions exhibited up-regulation in HPEpiC treated with 10-9 M BPA for 72 h. However, in HPrF, the identical BPA treatment could activate ERalpha, ERbeta, and NFKB1 gene expressions and down-regulated the expression of AR levels. bisphenol A estrogen receptor 1 Homo sapiens
7 Additionally, our results considered that androgen receptor (AR), estrogen receptor (ERalpha, ERbeta), and NFKB1 gene expressions exhibited up-regulation in HPEpiC treated with 10-9 M BPA for 72 h. However, in HPrF, the identical BPA treatment could activate ERalpha, ERbeta, and NFKB1 gene expressions and down-regulated the expression of AR levels. bisphenol A estrogen receptor 1 Homo sapiens
8 Additionally, our results considered that androgen receptor (AR), estrogen receptor (ERalpha, ERbeta), and NFKB1 gene expressions exhibited up-regulation in HPEpiC treated with 10-9 M BPA for 72 h. However, in HPrF, the identical BPA treatment could activate ERalpha, ERbeta, and NFKB1 gene expressions and down-regulated the expression of AR levels. bisphenol A estrogen receptor 1 Homo sapiens
9 Additionally, our results considered that androgen receptor (AR), estrogen receptor (ERalpha, ERbeta), and NFKB1 gene expressions exhibited up-regulation in HPEpiC treated with 10-9 M BPA for 72 h. However, in HPrF, the identical BPA treatment could activate ERalpha, ERbeta, and NFKB1 gene expressions and down-regulated the expression of AR levels. bisphenol A estrogen receptor 1 Homo sapiens