Date published: 2025-10-25

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PGP-I Inhibitors

PGP-I inhibitors, or P-glycoprotein inhibitors, represent a class of chemicals that interact with P-glycoprotein (P-gp), a membrane-associated protein belonging to the ATP-binding cassette (ABC) transporter family. P-glycoprotein plays a crucial role in the translocation of various substrates across cell membranes by utilizing the energy derived from ATP hydrolysis. Structurally, P-glycoprotein is characterized by two transmembrane domains and two nucleotide-binding domains (NBDs), which enable its ability to hydrolyze ATP and drive the active transport of substrates. This protein is highly expressed in a variety of biological barriers, such as the blood-brain barrier, intestinal epithelium, and placental tissue. The mechanism by which PGP-I inhibitors function is largely centered on their interaction with the transmembrane domains or nucleotide-binding domains of P-glycoprotein, thereby impairing its ability to bind or hydrolyze ATP, effectively halting its transport function.

PGP-I inhibitors encompass a wide range of molecular structures, including both small molecules and complex macromolecules. These inhibitors may work by directly blocking the substrate-binding site, modifying the protein's conformation to an inactive state, or impeding ATP hydrolysis. Structural analysis of various PGP-I inhibitors reveals that their binding sites often overlap with those of P-glycoprotein substrates, indicating a competitive interaction. Certain inhibitors exhibit high specificity for P-glycoprotein, while others may interact with multiple ABC transporters. This structural diversity in PGP-I inhibitors arises from their various chemical properties, such as hydrophobicity and molecular size, which influence their affinity and mode of interaction with the transporter protein. Additionally, environmental factors, such as pH and membrane composition, may affect the binding kinetics and efficiency of PGP-I inhibitors, further adding to the complexity of their behavior within biological systems.

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Items 1 to 10 of 11 total

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Product NameCAS #Catalog #QUANTITYPriceCitationsRATING

Curcumin

458-37-7sc-200509
sc-200509A
sc-200509B
sc-200509C
sc-200509D
sc-200509F
sc-200509E
1 g
5 g
25 g
100 g
250 g
1 kg
2.5 kg
$36.00
$68.00
$107.00
$214.00
$234.00
$862.00
$1968.00
47
(1)

Curcumin might downregulate PGP-I expression by interfering with the activation of the transcription factor NF-κB and decreasing the production of inflammatory cytokines.

Resveratrol

501-36-0sc-200808
sc-200808A
sc-200808B
100 mg
500 mg
5 g
$60.00
$185.00
$365.00
64
(2)

Resveratrol could reduce PGP-I levels by enhancing the activity of SIRT1, which subsequently suppresses NF-κB activity, leading to decreased protein expression.

Quercetin

117-39-5sc-206089
sc-206089A
sc-206089E
sc-206089C
sc-206089D
sc-206089B
100 mg
500 mg
100 g
250 g
1 kg
25 g
$11.00
$17.00
$108.00
$245.00
$918.00
$49.00
33
(2)

Quercetin could decrease PGP-I expression by inhibiting kinase pathways involved in cellular stress responses, leading to reduced transcriptional activity of related genes.

(−)-Epigallocatechin Gallate

989-51-5sc-200802
sc-200802A
sc-200802B
sc-200802C
sc-200802D
sc-200802E
10 mg
50 mg
100 mg
500 mg
1 g
10 g
$42.00
$72.00
$124.00
$238.00
$520.00
$1234.00
11
(1)

This compound from green tea might suppress PGP-I expression by inhibiting the MAPK pathway, which plays a crucial role in inflammatory processes and cellular proliferation.

Genistein

446-72-0sc-3515
sc-3515A
sc-3515B
sc-3515C
sc-3515D
sc-3515E
sc-3515F
100 mg
500 mg
1 g
5 g
10 g
25 g
100 g
$26.00
$92.00
$120.00
$310.00
$500.00
$908.00
$1821.00
46
(1)

Genistein could decrease PGP-I expression by interacting with estrogen receptors, which leads to alterations in hormone-regulated gene expression.

Kaempferol

520-18-3sc-202679
sc-202679A
sc-202679B
25 mg
100 mg
1 g
$97.00
$212.00
$500.00
11
(1)

Kaempferol might suppress the expression of PGP-I by interfering with the activity of transcription factors involved in the inflammatory response, leading to decreased transcriptional activity of inflammation-related genes.

Myricetin

529-44-2sc-203147
sc-203147A
sc-203147B
sc-203147C
sc-203147D
25 mg
100 mg
1 g
25 g
100 g
$95.00
$184.00
$255.00
$500.00
$1002.00
3
(1)

Myricetin could reduce PGP-I expression by decreasing oxidative stress and altering the activity of transcription factors that govern cellular defense mechanisms.

Indole-3-carbinol

700-06-1sc-202662
sc-202662A
sc-202662B
sc-202662C
sc-202662D
1 g
5 g
100 g
250 g
1 kg
$38.00
$60.00
$143.00
$306.00
$1012.00
5
(1)

This compound might suppress PGP-I expression by altering estrogen metabolism, which leads to changes in the hormonal regulation of gene expression.

Apigenin

520-36-5sc-3529
sc-3529A
sc-3529B
sc-3529C
sc-3529D
sc-3529E
sc-3529F
5 mg
100 mg
1 g
5 g
25 g
100 g
1 kg
$32.00
$210.00
$720.00
$1128.00
$2302.00
$3066.00
$5106.00
22
(1)

Apigenin could decrease PGP-I expression by inhibiting kinase signaling pathways, which are crucial for the survival and proliferation of cells, leading to lower transcriptional activation.

Luteolin

491-70-3sc-203119
sc-203119A
sc-203119B
sc-203119C
sc-203119D
5 mg
50 mg
500 mg
5 g
500 g
$26.00
$50.00
$99.00
$150.00
$1887.00
40
(1)

Luteolin might downregulate PGP-I expression through its strong antioxidant and anti-inflammatory properties, which decrease the transcription of genes involved in inflammatory pathways.