Filipin is a mixture of chemical compounds first isolated by chemists at the
Upjohn company in 1955 from the mycelium and culture filtrates of a previously unknown
actinomycete, Streptomyces filipinensis.[1] It was discovered in a soil sample collected in the
Philippine Islands, hence the name filipin. The isolate possessed potent antifungal activity. It was identified as a polyene macrolide based on its characteristic
UV-Vis and
IR spectra.
Functions
Although the
polyene macrolide antibiotics exhibit potent antifungal activity, most are too toxic for therapeutic applications, with the exceptions of
amphotericin B and
nystatin A1. Unlike amphotericin B and nystatin A1 which form sterol-dependent
ion channels, filipin is thought to be a simple membrane disrupter. Since filipin is highly
fluorescent and binds specifically to
cholesterol, it has found widespread use as a histochemical stain for cholesterol. This method of detecting cholesterol in cell membranes is used clinically in the study and diagnosis of Type C
Niemann-Pick disease.[citation needed]
It is also used in cellular biology as an inhibitor of the raft/caveolae endocytosis pathway on mammalian cells (at concentrations around 3 μg/mL)[citation needed]
Types
Filipin is a mixture of four components - filipin I (4%), II (25%), III (53%), and IV (18%) - and should be referred to as the filipin complex.[2][3]
The major component, filipin III, has the structure which was proposed by Ceder and Ryhage for the filipin complex.
Filipin I, which has been difficult to characterize, is probably a mixture of several components each having two hydroxyl groups fewer than filipin III.
Mass spectrometry and
NMR data indicate that Filipin II is 1'-deoxy-filipin III.
Filipin IV is isomeric to filipin III. Their NMR spectra are nearly identical with the major difference being the splitting pattern of the proton at C2. This indicates that filipin IV is probably epimeric to filipin III at either C1' or C3.
^Whitfield, G. B.;
Brock, T. D.; Ammann, A.; Gottlieb, D.; Carter, H. E. (1955). "Filipin, an Antifungal Antibiotic: Isolation and Properties". J. Am. Chem. Soc. 77 (18): 4799–4801.
doi:
10.1021/ja01623a032.
S2CID101457395.
^Rychnovsky, S. D.; Richardson, T. I. (1995). "Relative and Absolute Configuration of Filipin III". Angew. Chem. Int. Ed. Engl. 34 (11): 1227–1230.
doi:
10.1002/anie.199512271.