Studies support a role for glucagon-like peptide 1 (GLP-1) as a potential treatment for diabetes. However, since GLP-1 is rapidly degraded in the circulation by cleavage at Ala(2), its clinical application is limited. Hence, understanding the structure-activity of GLP-1 may lead to the development of more stable and potent analogues. In this study, we investigated GLP-1 analogues including those with N-, C-, and midchain modifications and a series of secretin-class chimeric peptides. Peptides were analyzed in CHO cells expressing the hGLP-1 receptor (R7 cells), and in vivo oral glucose tolerance tests (OGTTs) were performed after injection of the peptides in normal and diabetic (db/db) mice. [D-Ala(2)]GLP-1 and [Gly(2)]GLP-1 showed normal or relatively lower receptor binding and cAMP activation but exerted markedly enhanced abilities to reduce the glycemic response to an OGTT in vivo. Improved biological effectiveness of [D-Ala(2)]GLP-1 was also observed in diabetic db/db mice. Similarly, improved biological activity of acetyl- and hexenoic-His(1)-GLP-1, glucagon((1-5)-, glucagon((1-10))-, PACAP(1-5)-, VIP(1-5)-, and secretin((1-10))-GLP-1 was observed, despite normal or lower receptor binding and activation in vitro. [Ala(8/11/12/16)] substitutions also increased biological activity in vivo over wtGLP-1, while C-terminal truncation of 4-12 amino acids abolished receptor binding and biological activity. All other modified peptides examined showed normal or decreased activity in vitro and in vivo. These results indicate that specific N- and midchain modifications to GLP-1 can increase its potency in vivo. Specifically, linkage of acyl-chains to the alpha-amino group of His(1) and replacement of Ala(2) result in significantly increased biological effects of GLP-1 in vivo, likely due to decreased degradation rather than enhanced receptor interactions. Replacement of certain residues in the midchain of GLP-1 also augment biological activity.
Background: Novel formulations of SN38 were developed and screened in vitro. The efficacy and tolerability of the best formulation was evaluated in vivo. SN38 is the active metabolite of irinotecan (CPT-11) a potent TOPO-I inhibitor. Despite its poor and variable hydrolysis into SN38 by carboxylesterases, CPT-11 is still a drug of choice for the treatment of metastatic colorectal cancer. Until now, the poor aqueous solubility of SN38 has precluded its development. To address this formulation challenge, we used our library of block copolymers of polyethyleneglycol-polymethacrylate (PEG-PMA) to prepare pH-sensitive micellar formulations of SN38 for oral administration. Material and Methods: Formulations were screened in vitro for their ability to improve SN38 permeability using Caco-2 monolayers. The pharmacokinetics of SN38 as delivered by oral DDS-06E (50mg/kg) or by IV CPT11 (6.2 (mg/kg) were evaluated in fasted Sprague Dawley rats. Plasma profile of CPT11, SN38 and SN-38 glucuronide were determined. DDS-06E was evaluated in tolerability studies conducted in HCT-116 tumor bearing Swiss nude mice (Q1Dx5) × 2 weeks. Chronic toxicity of the excipient PEG-PMA given orally daily was also evaluated in Swiss nude mice for 28 days. Efficacy studies were performed in HCT-116 and Mia-PaCa-2 xenografts (n = 12/group). Micellar SN38 (50 and 75 mg/kg/d) and vehicle control were administered orally [(Q1Dx5) × 2 weeks] every 21 days for at least 2 cycles. CPT-11 was administered IV at 50 mg/kg [(Q7D) × 2 weeks] every 21 days for at least 2 cycles. Body weights and tumor volumes were monitored thrice a week. Results: Permeability of SN38 was significantly increased in 4 out of 6 micellar formulations compared to SN38 in DMSO. The best formulation (DDS-06E) was selected based on its in vitro behavior and in vivo studies were performed. Intravenous (IV) administration of CPT-11 to rats resulted in extensive metabolism to SN38 and SN38-Glu (AUCSN38-Glu/AUCSN38 = 2.60). Conversely, when DDS-06E was administered orally, negligible conversion to SN38-Glu occurred (AUCSN38-Glu/AUCSN38 = 0.03). Orally administered DDS-06E was well tolerated after single dose (> 200 mg/kg) and repeated doses (between 50 and 100 mg/kg/d). Body weights and hematologic/biochemical parameters did not reveal any sign of toxicity after administration of PEG-PMA alone for doses up to 2700 mg/kg/d. Overall, DDS-06E was well tolerated after repeated administration to animal bearing colon (HCT-116) and pancreatic (Mia-PaCa-2) tumors. Significant reductions in relative tumor growth were observed in the HCT-116 and Mia-Pa-Ca model compared to vehicle control (p<0.05). In these models, DDS-06E displayed equivalent efficacy than CPT-11 given IV (p>0.5). Conclusions: Labopharm has developed an oral micellar formulation of SN38 that is well tolerated in tumor-bearing animals and displays efficacy equivalent to CPT-11 given IV. These results suggest that DDS-06E is a promising agent and should be evaluated in clinical trials. Citation Information: Mol Cancer Ther 2009;8(12 Suppl):C218.
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