PLGA/PLA-Based Long-Acting Injectable Depot Microspheres in Clinical Use: Production and Characterization Overview for Protein/Peptide Delivery

Over the past few decades, long acting injectable (LAI) depots of polylactide-co-glycolide (PLGA) or polylactic acid (PLA) based microspheres have been developed for controlled drug delivery to reduce dosing frequency and to improve the therapeutic effects. Biopharmaceuticals such as proteins and peptides are encapsulated in the microspheres to increase their bioavailability and provide a long release period (days or months) with constant drug plasma concentration. The biodegradable and biocompatible properties of PLGA/PLA polymers, including but not limited to molecular weight, end group, lactide to glycolide ratio, and minor manufacturing changes, could greatly affect the quality attributes of microsphere formulations such as release profile, size, encapsulation efficiency, and bioactivity of biopharmaceuticals. Besides, the encapsulated proteins/peptides are susceptible to harsh processing conditions associated with microsphere fabrication methods, including exposure to organic solvent, shear stress, and temperature fluctuations. The protein/peptide containing LAI microspheres in clinical use is typically prepared by double emulsion, coacervation, and spray drying techniques. The purpose of this review is to provide an overview of the formulation attributes and conventional manufacturing techniques of LAI microspheres that are currently in clinical use for protein/peptides. Furthermore, the physicochemical characteristics of the microsphere formulations are deliberated

The influence of the structural orientation of amide linkers on the serum compatibility and lung transfection properties of cationic amphiphiles

Understanding the structural parameters of cationic amphiphiles which can influence gene transfer efficiencies of cationic amphiphiles continues to remain important for designing efficient liposomal gene delivery reagents. Previously we demonstrated the influence of structural orientation of the ester linker (widely used in covalently tethering the polar head and the non-polar tails) in modulating in vitro gene transfer efficiencies of cationic amphiphiles. However, our previously described cationic amphiphiles with ester linkers failed to deliver genes under in vivo conditions. Herein we report on the development of a highly serum compatible cationic amphiphile with circulation stable amide linker which shows remarkable selectivity in transfecting mouse lung. We also demonstrate that reversing structural orientation of the amide linker adversely affects both serum compatibility and the lung selective gene transfer property. Dynamic laser light scattering and atomic force microscopic studies revealed smaller average hydrodynamic sizes of the liposomes of transfection efficient lipid than those for the liposomes of transfection incompetent analog (148 ± 1 nm vs 214 ± 4 nm). Average surface potential of the liposomes of transfection competent amphiphiles were found to be significantly higher than that for the liposomes of transfection incompetent analog (10.7 ± 5.4 mV vs 2.8 ± 1.3 mV, respectively). Findings in fluorescence resonance energy transfer and dye entrapment experiments support lower rigidity and higher biomembrane fusogenicity of the liposomes of the transfection efficient amphiphiles. Importantly, cationic lipoplexes of the novel amide-linker based amphiphile exhibited higher mouse lung selective gene transfer properties than DOTAP, one of the widely used commercially available liposomal lung transfection kits. In summary, the present findings demonstrate for the first time that amide linker structural orientation profoundly influences the serum compatibility and lung transfection efficiencies of cationic amphiphiles

An Evaluation of the Anticancer Properties of SYA014, a Homopiperazine-Oxime Analog of Haloperidol in Triple Negative Breast Cancer Cells

Triple negative breast cancer (TNBC) is a type of breast cancer associated with early metastasis, poor prognosis, high relapse rates, and mortality. Previously, we demonstrated that SYA013, a selective σ2RL, could inhibit cell proliferation, suppress migration, reduce invasion, and induce mitochondria-mediated apoptosis in MDA-MB-231 cell lines, although we were unable to demonstrate the direct involvement of sigma receptors. This study aimed to determine the anticancer properties and mechanisms of action of SYA014, [4-(4-(4-chlorophenyl)-1,4-diazepan-1-yl)-1-(4-fluorophenyl)butan-1-one oxime], an oxime analogue of SYA013, the contribution of its sigma-2 receptor (σ2R) binding, and its possible synergistic use with cisplatin to improve anticancer properties in two TNBC cell lines, MDA-MB-231 (Caucasian) and MDA-MB-468 (Black). In the present investigation, we have shown that SYA014 displays anticancer properties against cell proliferation, survival, metastasis and apoptosis in the two TNBC cell lines. Furthermore, a mechanistic investigation was conducted to identify the apoptotic pathway by which SYA014 induces cell death in MDA-MB-231 cells. Since SYA014 has a higher binding affinity for σ2R compared to σ1R, we tested the role of σ2R on the antiproliferative property of SYA014 with a σ2R blockade. We also attempted to evaluate the combination effect of SYA014 with cisplatin in TNBC cells

Enhanced Spacer Length between Mannose Mimicking Shikimoyl and Quinoyl Headgroups and Hydrophobic Region of Cationic Amphiphile Increases Efficiency of Dendritic Cell Based DNA Vaccination: A Structure–Activity Investigation

In the field of dendritic cell based genetic immunization, previously we showed that liposomes of cationic amphiphiles containing mannose-mimicking shikimoyl headgroup are promising DNA vaccine carriers for dendritic cell (DC) transfection. The present structure–activity study reports on the influence of spacer length (between mannose-mimicking headgroups and quaternary nitrogen centers) in modulating the DC-transfection efficiencies. Further, we report on the anti-melanoma immune response inducing properties of the promising cationic amphiphiles in syngeneic C57BL/6J mice under prophylactic settings

Cationic amphiphiles with fatty acyl chain asymmetry of coconut oil deliver genes selectively to mouse lung

Recent structure-activity studies have revealed a dramatic influence of hydrophobic chain asymmetry in enhancing gene delivery efficacies of synthetic cationic amphiphiles (Nantz, M. H. et al. Mol. Pharmaceutics 2010, 7, 786-794; Koynova, R. et al. Mol. Pharmaceutics2009, 6, 951-958). The present findings demonstrate for the first time that such a transfection enhancing influence of asymmetric hydrocarbon chains observed in pure synthetic cationic amphiphiles also works for cationic amphiphiles designed with natural, asymmetric fatty acyl chains of a food-grade oil. Herein, we demonstrate that cationic amphiphiles designed with the natural fatty acyl chain asymmetry of food-grade coconut oil are less cytotoxic and deliver genes selectively to mouse lung. Despite lauroyl chains being the major fatty acyl chains of coconut oil, both the in vitro and In vivo gene transfer efficiencies of such cationic amphiphiles were found to be remarkably superior (>4-fold) to those of their pure dilauroyl analogue. Mechanistic studies involving the technique of fluorescence resonance energy transfer (FRET) revealed higher biomembrane fusibility of the cationic liposomes of the coconut amphiphiles than that of the symmetric dilauroyl analogue. AFM study revealed pronounced fusogenic nonlamellar structures of the liposomes of coconut amphiphiles. Findings in the FRET and cellular uptake study, taken together, support the notion that the higher cellular uptake resulting from the more fusogenic nature of the liposomes of coconut amphiphiles 1 are likely to play a dominant role in making the coconut amphiphiles transfection competent

Pharmacological and Behavioral Characterization of D-473, an Orally Active Triple Reuptake Inhibitor Targeting Dopamine, Serotonin and Norepinephrine Transporters

<div><p>Major depressive disorder (MDD) is a debilitating disease affecting a wide cross section of people around the world. The current therapy for depression is less than adequate and there is a considerable unmet need for more efficacious treatment. Dopamine has been shown to play a significant role in depression including production of anhedonia which has been one of the untreated symptoms in MDD. It has been hypothesized that drugs acting at all three monoamine transporters including dopamine transporter should provide more efficacious antidepressants activity. This has led to the development of triple reuptake inhibitor D-473 which is a novel pyran based molecule and interacts with all three monoamine transporters. The monoamine uptake inhibition activity in the cloned human transporters expressed in HEK-293 cells (70.4, 9.18 and 39.7 for DAT, SERT and NET, respectively) indicates a serotonin preferring triple reuptake inhibition profile for this drug. The drug D-473 exhibited good brain penetration and produced efficacious activity in rat forced swim test under oral administration. The optimal efficacy dose did not produce any locomotor activation. Microdialysis experiment demonstrated that systemic administration of D-473 elevated extracellular level of the three monoamines DA, 5-HT, and NE efficaciously in the dorsal lateral striatum (DLS) and the medial prefrontal cortex (mPFC) area, indicating in vivo blockade of all three monoamine transporters by D-473. Thus, the current biological data from D-473 indicate potent antidepressant activity of the molecule.</p></div

Synthesis of D-473.

<p>Synthesis of D-473.</p

Time dependent effect of administration of D-473 (10 mg/kg, i.p) at time 0 (shown by arrow) on extracellular level of DOPAC (Ο), HVA (▪), and 5HIAA (Δ); a) in rats Prefrontal cortex; and b) Dorso lateral striatum.

<p>Results are expressed as percent baseline with baseline values all averaging 100%. Each point represents mean ± standard error (SE) of the percentage of baseline from five rats. Statistical analysis was performed by t-test analysis of every point relative to baseline values (i.e. 100%) using Prism 6 (Graphpad Software Inc, La Jolla, CA). * (DOPAC) p<0.02-0.0004. # (HVA) p<0.02–0.001. P values <0.05 were considered to be statistically significant.</p

Inhibition of [³H]monoamine uptake by D-473 and D-142 in cells heterologously expressing hDAT, hSERT, or hNET (▪-, D-473; Δ-, D-142).

<p>A) Monoamine uptake by DAT, B) Monoamine uptake by SERT, and C) Monoamine uptake by NET was assessed as described in Methods and plotted according to the Logistics equation in the Origin fitting software (see Reith et al., 2012). Points shown are those obtained in a representative experiment, performed in triplicate, which was replicated 8–16 times.</p

Effect of sub-chronic oral administration of vehicle and D-473 on the duration of immobility in the forced swimming test in rats.

<p>One way ANOVA analysis demonstrates significant effect among treatments: F (4, 24) = 10.33 (P<0.0001). Dunnett’s analysis showed that the effect of <b>D-473</b> at three doses (10, 25 and 50 mg/kg) on immobility was statistically significant different compared to vehicle (P<0.01).</p