Date published: 2025-10-26

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EMP-1 Activators

The chemical class of EMP-1 activators encompasses a diverse range of compounds that indirectly influence the activity of epithelial membrane protein 1 through various cellular signaling pathways and processes. These activators, which include both natural compounds and synthetic molecules, do not interact directly with EMP-1 but modulate its activity through their influence on cellular environments and signaling dynamics.

Retinoic acid, EPA, and vitamin D3 are prominent members of this class, known for their roles in influencing gene expression and cellular differentiation. These compounds can impact EMP-1 expression through their interaction with specific receptors and signaling pathways involved in cell growth and differentiation. The modulation of these pathways highlights the complexity of cellular signaling and the indirect methods through which EMP-1 activity can be influenced. Antioxidant and anti-inflammatory compounds like curcumin, EGCG, sulforaphane, resveratrol, quercetin, and N-acetylcysteine represent another aspect of this class. Their ability to modulate various signaling pathways, particularly those related to inflammation and oxidative stress, can indirectly impact EMP-1 activity. This modulation underscores the interconnected nature of cellular signaling and the potential of these compounds to influence a range of cellular processes, including those involving EMP-1.

SEE ALSO...

Product NameCAS #Catalog #QUANTITYPriceCitationsRATING

Retinoic Acid, all trans

302-79-4sc-200898
sc-200898A
sc-200898B
sc-200898C
500 mg
5 g
10 g
100 g
$65.00
$319.00
$575.00
$998.00
28
(1)

Retinoic acid, a metabolite of Vitamin A, influences gene expression and cell differentiation, potentially impacting EMP-1 expression through retinoic acid receptors and their signaling pathways.

Eicosa-5Z,8Z,11Z,14Z,17Z-pentaenoic Acid (20:5, n-3)

10417-94-4sc-200766
sc-200766A
100 mg
1 g
$102.00
$423.00
(0)

EPA, an omega-3 fatty acid, may influence EMP-1 activity indirectly by altering cellular lipid composition and signaling pathways related to inflammation and cell proliferation.

D,L-Sulforaphane

4478-93-7sc-207495A
sc-207495B
sc-207495C
sc-207495
sc-207495E
sc-207495D
5 mg
10 mg
25 mg
1 g
10 g
250 mg
$150.00
$286.00
$479.00
$1299.00
$8299.00
$915.00
22
(1)

Present in cruciferous vegetables, sulforaphane can modulate gene expression and cellular signaling pathways related to detoxification and oxidative stress, potentially influencing EMP-1.

Dexamethasone

50-02-2sc-29059
sc-29059B
sc-29059A
100 mg
1 g
5 g
$76.00
$82.00
$367.00
36
(1)

A glucocorticoid, dexamethasone can influence gene expression and cellular signaling pathways, potentially affecting EMP-1 activity through its anti-inflammatory effects.

Lithium

7439-93-2sc-252954
50 g
$214.00
(0)

Lithium impacts signaling pathways related to neuroprotection and cellular growth, potentially affecting EMP-1 expression or function in neural cells.

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)

Found in many fruits and vegetables, quercetin can modulate various signaling pathways, potentially impacting EMP-1 activity through its antioxidant and anti-inflammatory properties.

Cholecalciferol

67-97-0sc-205630
sc-205630A
sc-205630B
1 g
5 g
10 g
$70.00
$160.00
$290.00
2
(1)

Vitamin D3 can modulate gene expression and cellular signaling pathways, potentially impacting EMP-1 activity through its roles in cell growth and differentiation.

Zinc

7440-66-6sc-213177
100 g
$47.00
(0)

As an essential trace element, zinc can influence various cellular processes, potentially impacting EMP-1 expression or function through its roles in enzyme regulation and signal transduction.

N-Acetyl-L-cysteine

616-91-1sc-202232
sc-202232A
sc-202232C
sc-202232B
5 g
25 g
1 kg
100 g
$33.00
$73.00
$265.00
$112.00
34
(1)

An antioxidant, N-acetylcysteine can influence cellular redox states and signaling pathways, potentially affecting EMP-1 activity through its roles in oxidative stress modulation.