InAADR

Protein Information

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Protein Name: wild-type p53 (P00062)
Gene Name: Not Available
Description:
PDB ID:
Protein Family:
Protein Category:
Protein Name: wild-type p53 (P04637)
Gene Name: TP53
Description:
PDB ID: 1A1U
Protein Family:
Protein Category: Epigenetic regulator
Transcription Factor

This panel provides drug-protein interaction and their ADRs along with references

Interacting Drugs Toxicity Mechanism Reference
Arsenic trioxide Anemia The p53 protein was expressed in arsenic trioxide-treated cells, however, the densitometric analysis did not show any significant differences (p [ ADR Type 2 ] Arsenic trioxide-induced transcriptional activation of stress genes and expression of related proteins in human liver carcinoma cells (HepG2)
Arsenic trioxide Cardiovascular Disease The p53 protein was expressed in arsenic trioxide-treated cells, however, the densitometric analysis did not show any significant differences (p [ ADR Type 2 ] Arsenic trioxide-induced transcriptional activation of stress genes and expression of related proteins in human liver carcinoma cells (HepG2)
Arsenic trioxide Developmental Abnormalities The p53 protein was expressed in arsenic trioxide-treated cells, however, the densitometric analysis did not show any significant differences (p [ ADR Type 2 ] Arsenic trioxide-induced transcriptional activation of stress genes and expression of related proteins in human liver carcinoma cells (HepG2)
Arsenic trioxide Diabetes The p53 protein was expressed in arsenic trioxide-treated cells, however, the densitometric analysis did not show any significant differences (p [ ADR Type 2 ] Arsenic trioxide-induced transcriptional activation of stress genes and expression of related proteins in human liver carcinoma cells (HepG2)
Arsenic trioxide Eosinophilia The p53 protein was expressed in arsenic trioxide-treated cells, however, the densitometric analysis did not show any significant differences (p [ ADR Type 2 ] Arsenic trioxide-induced transcriptional activation of stress genes and expression of related proteins in human liver carcinoma cells (HepG2)
Arsenic trioxide Fibrosis Of Kidney The p53 protein was expressed in arsenic trioxide-treated cells, however, the densitometric analysis did not show any significant differences (p [ ADR Type 2 ] Arsenic trioxide-induced transcriptional activation of stress genes and expression of related proteins in human liver carcinoma cells (HepG2)
Arsenic trioxide Fibrosis Of Liver The p53 protein was expressed in arsenic trioxide-treated cells, however, the densitometric analysis did not show any significant differences (p [ ADR Type 2 ] Arsenic trioxide-induced transcriptional activation of stress genes and expression of related proteins in human liver carcinoma cells (HepG2)
Arsenic trioxide Hearing Loss The p53 protein was expressed in arsenic trioxide-treated cells, however, the densitometric analysis did not show any significant differences (p [ ADR Type 2 ] Arsenic trioxide-induced transcriptional activation of stress genes and expression of related proteins in human liver carcinoma cells (HepG2)
Arsenic trioxide Leukopenia The p53 protein was expressed in arsenic trioxide-treated cells, however, the densitometric analysis did not show any significant differences (p [ ADR Type 2 ] Arsenic trioxide-induced transcriptional activation of stress genes and expression of related proteins in human liver carcinoma cells (HepG2)
Arsenic trioxide Neurologic And Neurobehavioral Disorder The p53 protein was expressed in arsenic trioxide-treated cells, however, the densitometric analysis did not show any significant differences (p [ ADR Type 2 ] Arsenic trioxide-induced transcriptional activation of stress genes and expression of related proteins in human liver carcinoma cells (HepG2)
Chelerythrine chloride Tumor Cell Toxicity And Growth Delay In vitro and in vivo activity of protein kinase C inhibitor chelerythrine chloride induces tumor cell toxicity and growth delay in vivo p53-deficient SQ-20B HNSCC cells in vivo. [ ADR Type 2 ] In vitro and in vivo activity of protein kinase C inhibitor chelerythrine chloride induces tumor cell toxicity and growth delay in vivo
Cidofovir Apoptosis Induction of apoptosis in HPV-positive cells by HPMPC was associated with accumulation of the tumor suppressor protein p53 and the cyclin-dependent kinase inhibitor p21/WAF-1. [ ADR Type 2 ] Induction of apoptosis by cidofovir in human papillomavirus (HPV)-positive cells
Cisplatin Apoptosis Wild-type p53 and MDM2 (murine double minute 2) proteins was induced when cis-diamminedichloroplatinum (cisplatin) caused apoptosis in human glioblastoma U87-MG cells [ ADR Type 3 ] MDM2 protein confers the resistance of a human glioblastoma cell line to cisplatin-induced apoptosis
Didanosine Tumor Suppression Those patients with a mutated p53 did not enter remission of tumor suppression following treatment with ddI and patients disease relapse was associated with the selection of a tumor clone carrying mutated inactive p53. [ ADR Type 2 ] Persistent inhibition of telomerase reprograms adult T-cell leukemia to p53-dependent senescence
Indomethacin Apoptosis Differential apoptosis by indomethacin in gastric epithelial cells through the constitutive expression of wild-type p53 and/or up-regulation of c-myc [ ADR Type 2 ] Differential apoptosis by indomethacin in gastric epithelial cells through the constitutive expression of wild-type p53 and/or up-regulation of c-myc
Methotrexate Apoptosis Immunohistochemical overexpression of p53 was detected in the basal layer of the cultures treated with methotrexate,which induces apoptotic cell death in human keratinocytes. [ ADR Type 5 ] Methotrexate induces apoptotic cell death in human keratinocytes
Paclitaxel Mitotic Catastrophe Silencing of the novel p53 target gene serum inducible kinase (Snk/Plk2) leads to mitotic catastrophe in paclitaxel (taxol)-exposed cells [ ADR Type 2 ] Silencing of the novel p53 target gene Snk/Plk2 leads to mitotic catastrophe in paclitaxel (taxol)-exposed cells
Zalcitabine Tumor Suppression Those patients with a mutated p53 did not enter remission of tumor suppression following treatment with ddC and patients disease relapse was associated with the selection of a tumor clone carrying mutated inactive p53. [ ADR Type 2 ] Persistent inhibition of telomerase reprograms adult T-cell leukemia to p53-dependent senescence
Zidovudine Tumor Suppression Those patients with a mutated p53 did not enter remission of tumor suppression following treatment with AZT and patients disease relapse was associated with the selection of a tumor clone carrying mutated inactive p53. [ ADR Type 2 ] Persistent inhibition of telomerase reprograms adult T-cell leukemia to p53-dependent senescence

This panel provides information on drug category

Toxicity Source

InAADR: Drug-Protein-ADRs database