Sulpiride


Curated chemical-gene interactions from CTD
Entrez gene IDGene symbolInteraction typeReference
1154 CISH Increases expression PMID:18162529
1543 CYP1A1 Decreases expression PMID:26466350
1544 CYP1A2 Decreases expression PMID:26466350
15497 HSD3B6 Increases expression PMID:21427058
1583 CYP11A1 Increases expression PMID:21427058
16333 INS1 Decreases expression PMID:26466350
1813 DRD2 Decreases activity PMID:7644023; PMID:8774428
196 AHR Decreases expression PMID:26466350
2213 FCGR2B Decreases expression PMID:10075867
2494 NR5A2 Increases expression PMID:21427058
2688 GH1 Decreases expression PMID:26466350
3320 HSP90AA1 Increases expression PMID:26466350
3630 INS Increases expression PMID:16601995
3667 IRS1 Decreases expression PMID:29551354
3756 KCNH1 Decreases activity PMID:17982510
5617 PRL Increases expression PMID:21427058; PMID:21427058; PMID:26466350; PMID:7106173
5618 PRLR Increases expression PMID:18162529
6715 SRD5A1 Increases expression PMID:18978642
6716 SRD5A2 Increases expression PMID:18978642
6770 STAR Increases expression PMID:21427058
7054 TH Increases activity PMID:2884129
760 CA2 Decreases activity PMID:17826101
761 CA3 Decreases activity PMID:17826101
8644 AKR1C3 Decreases expression PMID:21427058
8651 SOCS1 Increases expression PMID:18162529
9021 SOCS3 Increases expression PMID:18162529
949 SCARB1 Increases expression PMID:21427058
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We have built a comprehensive resource which compiles potential endocrine disrupting chemicals (EDCs) based on the observed adverse effects or endocrine-mediated endpoints in published experiments on humans or rodents to support basic research. We are not responsible for any errors or omissions in the published research articles or supporting literature on potential EDCs compiled in this resource. Users are advised to exercise their own judgement on the weight of evidence for potential EDCs compiled in this resource. Importantly, our sole goal to build this resource on potential EDCs is to enable future basic research towards better understanding of the systems-level perturbations upon chemical exposure rather than influencing regulatory advice on chemical use.