Milbemycin α10
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Category | Antibiotics |
Catalog number | BBF-01939 |
CAS | |
Molecular Weight | 651.78 |
Molecular Formula | C37H49NO9 |
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Description
Milbemycin α10 is a macrolide antibiotic produced by Str. hygroscopicus subsp. aureolacrimosus. It has insecticidal effects on agricultural harmful insects, pans, larvae, etc.
Specification
Synonyms | Milbemycin C2 |
IUPAC Name | [(1R,4S,5'S,6R,6'R,8R,10E,13R,14E,16E,20R,21R,24S)-6'-ethyl-21,24-dihydroxy-5',11,13-trimethyl-2-oxospiro[3,7,19-trioxatetracyclo[15.6.1.14,8.020,24]pentacosa-10,14,16,22-tetraene-6,2'-oxane]-22-yl]methyl 1H-pyrrole-2-carboxylate |
Canonical SMILES | CCC1C(CCC2(O1)CC3CC(O2)CC=C(CC(C=CC=C4COC5C4(C(C=C(C5O)COC(=O)C6=CC=CN6)C(=O)O3)O)C)C)C |
InChI | InChI=1S/C37H49NO9/c1-5-31-24(4)13-14-36(47-31)19-28-18-27(46-36)12-11-23(3)16-22(2)8-6-9-26-21-43-33-32(39)25(17-29(34(40)45-28)37(26,33)42)20-44-35(41)30-10-7-15-38-30/h6-11,15,17,22,24,27-29,31-33,38-39,42H,5,12-14,16,18-21H2,1-4H3/b8-6+,23-11+,26-9+/t22-,24-,27+,28-,29-,31+,32+,33+,36+,37+/m0/s1 |
InChI Key | GBWJSZIODNWKON-RAPOMDQCSA-N |
Properties
Antibiotic Activity Spectrum | parasites |
Reference Reading
1. Solvatomorphism of Moxidectin
Toni Grell, Mauro Barbero, Franco Pattarino, Giovanni Battista Giovenzana, Valentina Colombo Molecules. 2021 Aug 11;26(16):4869. doi: 10.3390/molecules26164869.
The solvatomorphism of the anthelmintic drug moxidectin is investigated, and a new solvatomorph with nitromethane is reported. Moreover, the hitherto unknown crystal structures of the solvatomorphs with ethanol and 2-propanol are reported and discussed. The thermal characterization of these solvatomorphs through variable-temperature powder X-ray diffraction analysis (VT-PXRD) is also described, providing new insights into the crystallochemistry of this active pharmaceutical ingredient.
2. Anthelmintic resistance in equine nematodes: Current status and emerging trends
M K Nielsen Int J Parasitol Drugs Drug Resist. 2022 Dec;20:76-88. doi: 10.1016/j.ijpddr.2022.10.005. Epub 2022 Oct 26.
Anthelmintic resistance is reported in equine nematodes with increasing frequency in recent years, and no new anthelmintic classes have been introduced during the past 40 years. This manuscript reviews published literature describing anthelmintic resistance in cyathostomins, Parascaris spp., and Oxyuris equi with special emphasis on larvicidal efficacy against encysted cyathostomin larvae and strongylid egg reappearance periods (ERP). Resistance to benzimidazoles and pyrimidines is highly prevalent in cyathostomin populations around the world, and macrocyclic lactone resistance has been documented in cyathostomins in recent years as well. Two recent studies have documented resistance to the larvicidal regimen of fenbendazole, whereas the larvicidal efficacy of moxidectin is variable, but with no evidence of a reduction from historic levels. In the 1990s, ERP estimates were 8-10 and 12-16 weeks for ivermectin and moxidectin, respectively, while several studies published after year 2000 found ERPs to be 5 weeks for both compounds. This is a clear change in anthelmintic performance, but it remains unclear if this is due to development of anthelmintic resistance or selection for other biological traits leading to a quicker resumption of strongylid egg shedding following anthelmintic treatment. Macrocyclic lactone resistance is common in Parascaris spp. around the world, but recent reports suggests that resistance to the two other classes should be monitored as well. Finally, O. equi has been reported resistant to ivermectin and moxidectin in countries representing four continents. In conclusion, multi-drug resistance is becoming the norm in managed cyathostomin populations around the world, and a similar pattern may be emerging in Parascaris spp. More work is required to understand the mechanisms behind the shortened ERPs, and researchers and veterinarians around the world are encouraged to routinely monitor anthelmintic efficacy against equine nematodes.
3. Moxidectin induces autophagy arrest in colorectal cancer
Yushan Mao, Hanhan Xie, Dan Shu, Lin Cheng, Jingbin Lan, Kejian Pan Med Oncol. 2022 Sep 29;39(12):211. doi: 10.1007/s12032-022-01799-5.
Colorectal cancer (CRC) is a cancer with a high morbidity and mortality worldwide. Hence, developing new therapeutic drugs for CRC is very important. Moxidectin (MOX) has shown good anti-glioblastoma effect both in vitro and in vivo. This study aimed to elucidate the anti-CRC effect of MOX and its potential mechanism by investigating the influence of MOX on the viability, apoptosis, necrosis and autophagy of colorectal cancer cells (HCT15 and SW620) and its underlying mechanisms. It was found that MOX can induce autophagy arrest, promote autophagy initiation, inhibit autophagic flux and cell proliferation, simultaneously PI3K-Akt-mTOR signaling pathway and microtubule acetylation. Furthermore, MOX suppressed the growth of xenograft tumors, which was consistent with the in vitro results.
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Bio Calculators
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Concentration (start) x Volume (start) = Concentration (final) x Volume (final)
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