LEDGF Activators
LEDGF, or Lens Epithelium-Derived Growth Factor, is a multifaceted protein encoded by the PSIP1 gene and is recognized for its diverse roles in cellular biology. It is primarily known for its part in transcriptional coactivation, where it functions as a molecular tether, bridging specific transcription factors to their target genes, thus facilitating the transcription process. LEDGF is also pivotal in cellular defense mechanisms, aiding cells in managing stress by upregulating the expression of heat shock proteins and contributing to DNA repair. Its involvement extends to the realm of virology, where it is a critical player in the HIV replication cycle by anchoring viral preintegration complexes to the host's chromatin. Yet, LEDGF is not only about its binding capabilities; it also has implications in the regulation of gene expression, with potential effects on cell survival and proliferation.
The expression of LEDGF can be influenced by various chemical activators that interact with cellular pathways, leading to potential upregulation of the protein. Specific chemical compounds are capable of altering the epigenetic landscape, thereby unlocking the transcriptional machinery required for LEDGF synthesis. For instance, agents that inhibit DNA methyltransferases or histone deacetylases can remove epigenetic silencing marks, promoting gene expression. On a different note, molecules that activate intracellular signaling cascades can lead to the transcription of stress response genes, including those encoding proteins like LEDGF. Antioxidants and compounds that modulate kinase activity have also been shown to play a role in gene expression regulation. Such chemicals can indirectly stimulate the production of LEDGF by creating an intracellular environment that favors the transcription of stress response elements or by inhibiting enzymes that would otherwise repress this process. Understanding the broad scope of interactions between these chemical activators and the cellular pathways governing gene expression is essential for appreciating the complex regulation of proteins like LEDGF.
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| Product Name | CAS # | Catalog # | QUANTITY | Price | Citations | RATING |
|---|---|---|---|---|---|---|
5-Azacytidine | 320-67-2 | sc-221003 | 500 mg | $280.00 | 4 | |
5-Azacytidine may upregulate LEDGF by inhibiting DNA methyltransferases, leading to decreased methylation and subsequent transcriptional activation of the PSIP1 gene. | ||||||
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 | |
Trichostatin A could increase LEDGF expression by inhibiting histone deacetylases (HDACs), which would enhance histone acetylation and promote transcriptional activity at the PSIP1 locus. | ||||||
Resveratrol | 501-36-0 | sc-200808 sc-200808A sc-200808B | 100 mg 500 mg 5 g | $60.00 $185.00 $365.00 | 64 | |
Resveratrol might stimulate LEDGF production through the activation of the SIRT1 pathway, which has been associated with the upregulation of genes involved in cellular stress defenses. | ||||||
Cholecalciferol | 67-97-0 | sc-205630 sc-205630A sc-205630B | 1 g 5 g 10 g | $70.00 $160.00 $290.00 | 2 | |
Cholecalciferol can induce the expression of LEDGF by binding to the Vitamin D receptor, leading to the recruitment of transcriptional machinery to the PSIP1 gene promoter region. | ||||||
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 might promote LEDGF expression through its ability to upregulate transcription factors such as NF-κB, which can enhance the transcription of a variety of stress response genes, including PSIP1. | ||||||
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 an increase in LEDGF levels by promoting histone hyperacetylation, thereby creating an open chromatin state that is conducive to gene transcription at the PSIP1 gene. | ||||||
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 may enhance LEDGF expression by activating retinoic acid receptors (RARs) that bind to retinoic acid response elements (RAREs) in gene promoters, including potentially the promoter of PSIP1. | ||||||
D,L-Sulforaphane | 4478-93-7 | sc-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 | |
DL-Sulforaphane could induce LEDGF expression by activating the transcription factor Nrf2, which translocates to the nucleus and binds antioxidant response elements in the promoters of target genes. | ||||||
(−)-Epigallocatechin Gallate | 989-51-5 | sc-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 | |
Epigallocatechin gallate may upregulate LEDGF by inhibiting DNA methyltransferases, similarly to 5-Azacytidine, leading to gene activation through reduced methylation. | ||||||
Genistein | 446-72-0 | sc-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 | |
Genistein has the potential to stimulate LEDGF expression by acting as a tyrosine kinase inhibitor, which could lead to altered phosphorylation patterns and activation of transcription factors that drive PSIP1 expression. | ||||||