Assessing the Utility of In Vitro Screening Tools for Predicting Bio-Performance of Oral Peptide Delivery.

PURPOSE: In this study we evaluated the utility of in-vitro screening tools for predicting the in-vivo behavior of six cyclic peptides with different solubility and permeability properties (BCS class II and III), intended for oral delivery in presence of permeation enhancer Labrasol. METHODS: An in vitro flux assay was used to assess peptide permeation across a biomimetic, lipid-based membrane and in vivo studies in rats were used to determine oral peptide bioavailability in the presence of Labrasol. RESULTS: The in vitro flux was significantly increased for BCS class III peptides, while it significantly decreased or remained unchanged for BCS class II peptides with increasing Labrasol concentrations. The different flux responses were attributed to the combination of reduced effective free peptide concentration and increased membrane permeability in the presence of Labrasol. In vivo studies in male Wistar-Hans rats indicated improved oral bioavailability at different extents for all peptides in presence of Labrasol. On comparing the in vitro and in vivo data, a potential direct correlation for BCS class III peptides was seen but not for BCS class II peptides, due to lower free concentrations of peptides in this class. CONCLUSION: This study assessed the utility of in vitro screening tools for selecting peptides and permeation excipients early in drug product development. Graphical Abstract Graphical Abstract and Figure 1 contains small text.Graphical Abstract text is made larger. The Figure 1 text cannot be made larger.

The Evolving Druggability and Developability Space: Chemically Modified New Modalities and Emerging Small Molecules.

The druggability and developability space is rapidly evolving in the post-genomic era. In the past, Lipinski's rule-of-five (Ro5) emerged and served as a guide for drug-like molecule design for oral delivery in the traditional druggable target space. In contrast, in this new era, a transition is occurring in drug discovery towards novel approaches to bind and modulate challenging biological targets that have led to transformative treatments for patients. Consequently, drugging novel targets using a variety of emerging molecular modalities, namely beyond the Ro5 (bRo5) small molecules (such as protein-protein interaction modulators, protein-targeted chimeras, or PROTACs), peptide/peptidomimetics, and nucleic acid-based modalities, have become a key focus in drug discovery. Herein, the emerging druggability and developability space is discussed side by side to build a general understanding of the potential development challenges of these novel modalities. An overview is provided on the evolving novel targets and molecular modalities, followed by a detailed analysis of the druggability aspects as well as the strategies used to progress drug candidate, and the trending chemistry and formulation strategies used to assess developability.

Phosphaplatin Anti-tumor Effect Enhanced by Liposomes Partly via an Up-regulation of PEDF in Breast Cancer.

BACKGROUND/AIM: Phosphaplatin platinum (IV) (RRD4) complex has exceptional antitumor properties. The aim of this study was to investigate the effects and the mechanism of action of free and liposome-encapsulated RRD4 in breast cancer. MATERIALS AND METHODS: Liposome-encapsulated RRD4 prepared by thin-film dehydration: hydration and free RRD4 were tested in vivo and in vitro against 4T1 breast cancer cells. Cell proliferation, migration and viability were determined. Tissue and cell production and expression of pigment epithelium-derived factor (PEDF) were assessed by ELISA and western blot. 4T1 cells treated with PEDF siRNA were evaluated for viability and apoptosis. RESULTS: RRD4 inhibited tumor growth and prevented distant metastasis. Liposome formulation enhanced this therapeutic benefit without increasing toxicity and prolonged RRD4 retention in tumor tissues. In vitro, RRD4 induced 4T1 apoptosis through up-regulation of FAS, BAX, and PUMA, and down-regulation of BCL2. RRD4 facilitates a FAS-intrinsic signaling mechanism. PEDF up-regulation represents another antitumor mechanism associated with this phosphaplatin compound. DISCUSSION: Free RRD4 or formulated into liposomes, are excellent candidates for adjuvant therapy against breast tumor growth and metastasis.