PRAMEF9 Activators
PRAMEF9, a member of the PRAME (Preferentially Expressed Antigen in Melanoma) gene family, has garnered attention in the scientific community due to its role in normal cellular processes and the aberrant expression observed in various malignancies. As a cancer-testis antigen, PRAMEF9 is typically restricted to the testis within the realm of normal tissue expression. However, the misregulation of this protein can occur in diverse cancer types, indicating its potential involvement in tumorigenesis. Understanding the regulatory mechanisms of PRAMEF9 expression is an ongoing research endeavor. While the epigenetic landscape and transcriptional control are pivotal in the governance of PRAMEF9 expression, external stimuli in the form of chemical compounds have been hypothesized to influence its expression levels. These chemical activators, which broadly range from DNA methyltransferase inhibitors to histone deacetylase inhibitors, can potentially upregulate PRAMEF9 by altering the chromatin state and making the gene more accessible for transcription.
In the exploration of the molecular underpinnings that could potentially stimulate PRAMEF9 expression, various chemical compounds have been identified. Compounds such as 5-Azacytidine and Trichostatin A, known for their roles in modifying the epigenetic marks on DNA and histones respectively, can lead to the upregulation of PRAMEF9 by removing repressive marks, thereby facilitating the recruitment of transcriptional machinery. Similarly, signaling molecules like Forskolin, which increases intracellular cAMP levels, might trigger a cascade effect culminating in the upsurge of PRAMEF9 transcription. Additionally, compounds such as Retinoic Acid, Beta-Estradiol, and Dexamethasone can potentially stimulate PRAMEF9 expression through their respective receptor-mediated pathways, which involve direct interactions with the promoter elements of the gene. Natural compounds, including Curcumin, Epigallocatechin gallate (EGCG), and Sulforaphane, have also been speculated to contribute to the upregulation of PRAMEF9, possibly by modulating the transcriptional control through epigenetic modifications. These compounds represent a fraction of the myriad of molecules that are part of the extensive network of cellular signaling and regulatory pathways, which can influence the expression of PRAMEF9. The exact molecular interactions and cellular contexts dictating the response of PRAMEF9 to these activators remain an active field of investigation, with the potential to reveal novel insights into gene expression dynamics.
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| Product Name | CAS # | Catalog # | QUANTITY | Price | Citations | RATING |
|---|---|---|---|---|---|---|
5-Azacytidine | 320-67-2 | sc-221003 | 500 mg | $280.00 | 4 | |
This DNA methyltransferase inhibitor could induce PRAMEF9 by promoting the demethylation of its promoter, facilitating transcriptional activation. | ||||||
Trichostatin A | 58880-19-6 | sc-3511 sc-3511A sc-3511B sc-3511C sc-3511D | 1 mg 5 mg 10 mg 25 mg 50 mg | $149.00 $470.00 $620.00 $1199.00 $2090.00 | 33 | |
As a histone deacetylase inhibitor, Trichostatin A may upregulate PRAMEF9 by increasing histone acetylation, thereby making the promoter region more accessible to transcription factors. | ||||||
Retinoic Acid, all trans | 302-79-4 | sc-200898 sc-200898A sc-200898B sc-200898C | 500 mg 5 g 10 g 100 g | $65.00 $319.00 $575.00 $998.00 | 28 | |
Retinoic acid could stimulate PRAMEF9 expression through activation of its nuclear receptors, which may bind to retinoic acid response elements in the gene's promoter. | ||||||
Cholecalciferol | 67-97-0 | sc-205630 sc-205630A sc-205630B | 1 g 5 g 10 g | $70.00 $160.00 $290.00 | 2 | |
May upregulate PRAMEF9 by activating its receptor, which then binds to vitamin D response elements, enhancing gene transcription. | ||||||
Forskolin | 66575-29-9 | sc-3562 sc-3562A sc-3562B sc-3562C sc-3562D | 5 mg 50 mg 1 g 2 g 5 g | $76.00 $150.00 $725.00 $1385.00 $2050.00 | 73 | |
This adenylate cyclase activator could increase PRAMEF9 expression by elevating intracellular cAMP, leading to activation of protein kinase A and subsequent transcriptional machinery. | ||||||
Sodium Butyrate | 156-54-7 | sc-202341 sc-202341B sc-202341A sc-202341C | 250 mg 5 g 25 g 500 g | $30.00 $46.00 $82.00 $218.00 | 19 | |
Sodium butyrate could stimulate PRAMEF9 transcription by causing histone hyperacetylation, thus promoting a more relaxed chromatin structure at the gene locus. | ||||||
β-Estradiol | 50-28-2 | sc-204431 sc-204431A | 500 mg 5 g | $62.00 $178.00 | 8 | |
This estrogen might upregulate PRAMEF9 through estrogen receptor-mediated recruitment of transcriptional coactivators to the gene's promoter. | ||||||
Dexamethasone | 50-02-2 | sc-29059 sc-29059B sc-29059A | 100 mg 1 g 5 g | $76.00 $82.00 $367.00 | 36 | |
Dexamethasone may stimulate PRAMEF9 expression by glucocorticoid receptor-mediated binding to glucocorticoid response elements in its promoter region. | ||||||
Mithramycin A | 18378-89-7 | sc-200909 | 1 mg | $54.00 | 6 | |
By inhibiting Sp1 transcription factor binding, Mithramycin A could indirectly stimulate PRAMEF9 expression if Sp1 normally represses its transcription. | ||||||
Curcumin | 458-37-7 | sc-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 | |
Curcumin could upregulate PRAMEF9 by inhibiting NF-κB signaling pathways that might otherwise suppress PRAMEF9 promoter activity. | ||||||