| Literature DB >> 27042052 |
Prakash G Avaji1, Jung Hyun Park2, Hyun Jeong Lee2, Yong Joo Jun3, Kyung Su Park4, Kyung Eun Lee4, Soo-Jin Choi5, Hwa Jeong Lee2, Youn Soo Sohn3.
Abstract
To develop a theranostic nanomedicine involving the antitumor-active moietyEntities:
Keywords: anticancer agent; nanomedicine; oxaliplatin; polyphosphazene; theranostics
Mesh:
Substances:
Year: 2016 PMID: 27042052 PMCID: PMC4780734 DOI: 10.2147/IJN.S99917
Source DB: PubMed Journal: Int J Nanomedicine ISSN: 1176-9114
Figure 1The synthetic reaction scheme for the drug carrier polyphosphazene and its conjugate Polyplatin involving the active moiety (dach)Pt of oxaliplatin.
Abbreviations: h, hour; MPEG, methoxy poly(ethylene glycol); rt, room temperature; DMSO, dimethyl sulfoxide.
Figure 2The particle size distributions of the polyphosphazene carrier polymer (5) (A) and Polyplatin (7) (B); the cryo-TEM image of Polyplatin in saline (C) and the CAC of Polyplatin (7) in saline measured by the fluorescence pyrene method (D).
Abbreviations: TEM, transmission electron microscopy; CAC, critical aggregation concentration.
Figure 3Comparative IR spectra of monomeric[(dach)Pt(OOCCH3)2], [(dach)Pt(AE)(AA)], and Polyplatin [(MPEG550)(AE)(AA)Pt(dach)]n in the region of carbonyl stretching frequencies.
Abbreviations: IR, infrared; AA, cis-aconitic acid; MPEG, methoxy poly(ethylene glycol); AE, 2-aminoethanol.
Figure 4Time-dependent biodistribution of Polyplatin in major organs of A549 lung-tumor-bearing mice.
Notes: Fluorescence images of major organs including tumor (A) and plasma (B) abstracted from the tumor-bearing mice from 12 to 72 hours postinjection, and the relative area-based fluorescence intensities (C) and the TTR (D).
Abbreviations: h, hour; TTR, tumor to tissue ratio.
Figure 5Clearance rates of Polyplatin from major organs after its injection in terms of fluorescence intensity.
Abbreviation: h, hours.
Figure 6Time-dependent biodistribution and clearance images of platinum metal of PP and OX in mouse kidney.
Abbreviations: PP, Polyplatin; OX, oxaliplatin.
Pharmacokinetic (PK) parameters after a single IV injection of Polyplatin and oxaliplatin at the dose of 1 mg (dach)Pt/kg to male rats
| PK parameters | Oxaliplatin | Polyplatin |
|---|---|---|
| 2,365.1 | 5,288.3 | |
| 0.08 | 0.62 | |
| 5.21 | 13.28 | |
| Cl (mL/h) | 116.36 | 6.30 |
| MRT (h) | 6.75 | 17.95 |
| 785.24 | 113.09 | |
| AUC (ng h/mL) | 2,320.42 | 42,850.76 |
Abbreviations: C0, initial plasma concentration; t1/2α, half-life in the α phase; t1/2β, half-life in the β phase; Cl, total clearance; MRT, mean residence time; Vss, volume of distribution at steady state; AUC, the area under the plasma concentration–time curve; IV, intravenous; h, hour.
Figure 7The release profiles of (dach)Pt(II) moiety from Polyplatin in pH 5.4 and pH 7.4 buffer solutions.
Figure 8The results of xenograft trials of Polyplatin and oxaliplatin as reference against the gastric MKN-28 cell line.
Note: Polyplatin was dosed at 8 and 16 mg/kg based on the (dach)Pt content, which are equivalent to 8 and 16 mg (dach)Pt/kg of oxaliplatin, respectively.