IFT52 Inhibitors
Chemical inhibitors of IFT52 have been identified that can impede its function by targeting the cellular structures and processes it relies on. Cyclopamine, for instance, inhibits the Hedgehog signaling pathway, which is integral for ciliary development and maintenance where IFT52 operates. This inhibition can disrupt the proper assembly and function of cilia, and consequently, the activity of IFT52 within this structure. Similarly, curcumin disrupts microtubule assembly, which can lead to the functional inhibition of IFT52, as it is dependent on the microtubule network for intraflagellar transport. Colchicine, another inhibitor, binds to tubulin and inhibits its polymerization. This action can directly impair the microtubule tracks that IFT52 uses, leading to a cessation of its transport functions. Paclitaxel, while it stabilizes microtubules, can paradoxically restrict the dynamic movement of IFT52 by preventing microtubule disassembly, which is necessary for cilia function and IFT52 activity.
Moreover, nocodazole and vincristine function as microtubule-depolymerizing agents and tubulin assembly inhibitors, respectively. These chemicals can inhibit the transport activity of IFT52 by disrupting the microtubule architecture required for its function. Similarly, podophyllotoxin binds to tubulin and prevents microtubule formation, which can inhibit IFT52 function within cilia. Griseofulvin, by binding to polymerized microtubules, could affect the microtubule dynamics essential for IFT52-related transport. Epothilone B also stabilizes microtubules, which can hinder the dynamic processes required for the function of IFT52. Harmine, which disrupts several signaling pathways, can indirectly inhibit IFT52 by altering cellular processes that rely on functional cilia, thus affecting IFT52 activity. Mebendazole and thiabendazole both bind to components of the microtubules, which can lead to the inhibition of the microtubule assembly and, consequently, the inhibition of IFT52 function due to the compromised transport system within cilia and flagella that IFT52 utilizes. Each of these chemicals can contribute to the functional inhibition of IFT52 by specifically targeting the microtubule network or associated signaling pathways necessary for its activity.
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| Product Name | CAS # | Catalog # | QUANTITY | Price | Citations | RATING |
|---|---|---|---|---|---|---|
Cyclopamine | 4449-51-8 | sc-200929 sc-200929A | 1 mg 5 mg | $92.00 $204.00 | 19 | |
Cyclopamine is a steroidal alkaloid that specifically inhibits the Hedgehog (Hh) signaling pathway, which is crucial for ciliary development and function. Inhibition of this pathway can indirectly inhibit IFT52 by preventing the proper formation and function of cilia, where IFT52 is an essential component. | ||||||
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 is known to disrupt microtubule assembly. As IFT52 is involved in intraflagellar transport, which is dependent on microtubules, curcumin can inhibit IFT52 function by destabilizing the microtubules it uses for transport. | ||||||
Colchicine | 64-86-8 | sc-203005 sc-203005A sc-203005B sc-203005C sc-203005D sc-203005E | 1 g 5 g 50 g 100 g 500 g 1 kg | $98.00 $315.00 $2244.00 $4396.00 $17850.00 $34068.00 | 3 | |
Colchicine binds to tubulin, inhibiting its polymerization into microtubules. The IFT52 protein relies on intact microtubules for intraflagellar transport; thus, colchicine can inhibit IFT52 function by disrupting the microtubule tracks required for its transport processes. | ||||||
Taxol | 33069-62-4 | sc-201439D sc-201439 sc-201439A sc-201439E sc-201439B sc-201439C | 1 mg 5 mg 25 mg 100 mg 250 mg 1 g | $40.00 $73.00 $217.00 $242.00 $724.00 $1196.00 | 39 | |
Paclitaxel stabilizes microtubules and prevents their depolymerization, which can paradoxically inhibit microtubule dynamics. This stabilization can impede the movement of IFT52 along the axoneme of cilia and flagella, thereby functionally inhibiting it. | ||||||
Nocodazole | 31430-18-9 | sc-3518B sc-3518 sc-3518C sc-3518A | 5 mg 10 mg 25 mg 50 mg | $58.00 $83.00 $140.00 $242.00 | 38 | |
Nocodazole is a microtubule-depolymerizing agent that can inhibit IFT52 by disrupting the microtubule tracks necessary for its proper function in intraflagellar transport. | ||||||
Podophyllotoxin | 518-28-5 | sc-204853 | 100 mg | $82.00 | 1 | |
Podophyllotoxin inhibits microtubule assembly by binding to tubulin. By disrupting the microtubule dynamics, podophyllotoxin can inhibit the function of IFT52, which relies on microtubules for transport within cilia. | ||||||
Griseofulvin | 126-07-8 | sc-202171A sc-202171 sc-202171B | 5 mg 25 mg 100 mg | $83.00 $216.00 $586.00 | 4 | |
Griseofulvin disrupts microtubule function by binding to polymerized microtubules and may inhibit IFT52 indirectly by affecting the microtubule dynamics that are critical for its transport activities. | ||||||
Epothilone B, Synthetic | 152044-54-7 | sc-203944 | 2 mg | $176.00 | ||
Epothilone B stabilizes microtubules similarly to paclitaxel and can inhibit IFT52 by hindering the microtubule dynamics required for its transport mechanisms to function properly within cilia. | ||||||
Harmine | 442-51-3 | sc-202644 sc-202644A sc-202644B sc-202644C sc-202644D sc-202644E sc-202644F | 250 mg 500 mg 1 g 10 g 50 g 100 g 500 g | $52.00 $102.00 $124.00 $540.00 $1438.00 $2560.00 $11230.00 | 2 | |
Harmine has been reported to disrupt various signaling pathways, including those related to cellular division and structure. It can indirectly inhibit IFT52 by altering cellular processes that rely on functional cilia, where IFT52 is active. | ||||||
Mebendazole | 31431-39-7 | sc-204798 sc-204798A | 5 g 25 g | $45.00 $87.00 | 2 | |
Mebendazole disrupts microtubule synthesis by binding to beta-tubulin, which can functionally inhibit IFT52 by interfering with the microtubule-based transport system within cilia and flagella. | ||||||