Andreas Staempfli

Degradation of polysorbates 20 and 80: Studies on thermal autoxidation and hydrolysis

The purpose of this work was to study the mechanistic pathways of degradation of polysorbates (PS) 20 and PS80 in parenteral formulations. The fate of PS in typical protein formulations was monitored and analyzed by a variety of methods, including (1)H NMR, high-performance liquid chromatography/evaporative light scattering detection, and ultraviolet-visible spectroscopy. Oxidative degradation of PS in neat raw material was studied using thermogravimetric analysis (TGA), differential scanning calorimetry (DSC), and headspace gas chromatography-mass spectrometry. TGA-DSC studies revealed that autoxidation via a radical mechanism is dominated by statistical random scission in PS20 and PS80. Thermal initiation of radical formation occurs at the polyoxyethylene (POE) as well as the olefin sites. In PS80, radical initiation at the olefinic site precedes initiation at the POE site, leading to modified degradation profile. Corresponding to these results, in aqueous formulations, a surge peroxide content was detected in PS20-containing samples and in higher concentrations in those containing PS80. Hydrolysis in aqueous formulations, as followed by (1)H NMR, was found to have a half-life of 5 months at 40°C. On the basis of the obtained results, PSs degrade mainly via autoxidation and also via hydrolysis at higher temperatures. Further studies are required to investigate on potential effects of degradation on surface activity and protein stability in PS-containing formulations.

Differential regulation of bile acid and cholesterol metabolism by the farnesoid X receptor in Ldlr / mice versus hamsters

Modulating bile acid synthesis has long been considered a good strategy by which to improve cholesterol homeostasis in humans. The farnesoid X receptor (FXR), the key regulator of bile acid synthesis, was, therefore, identified as an interesting target for drug discovery. We compared the effect of four, structurally unrelated, synthetic FXR agonists in two fat-fed rodent species and observed that the three most potent and selective agonists decreased plasma cholesterol in LDL receptor-deficient (Ldlr −/−) mice, but none did so in hamsters. Detailed investigation revealed increases in the expression of small heterodimer partner (Shp) in their livers and of intestinal fibroblast growth factor 15 or 19 (Fgf15/19) in mice only. Cyp7a1 expression and fecal bile acid (BA) excretion were strongly reduced in mice and hamsters by all four FXR agonists, whereas bile acid pool sizes were reduced in both species by all but the X-Ceptor compound in hamsters. In Ldlr −/− mice, the predominant bile acid changed from cholate to the more hydrophilic β-muricholate due to a strong repression of Cyp8b1 and increase in Cyp3a11 expression. However, FXR agonists caused only minor changes in the expression of Cyp8b1 and in bile acid profiles in hamsters. In summary, FXR agonist-induced decreases in bile acid pool size and lipophilicity and in cholesterol absorption and synthesis could explain the decreased plasma cholesterol in Ldlr −/− mice. In hamsters, FXR agonists reduced bile acid pool size to a smaller extent with minor changes in bile acid profile and reductions in sterol absorption, and consequently, plasma cholesterol was unchanged.

Effect of dalcetrapib, a CETP modulator, on non-cholesterol sterol markers of cholesterol homeostasis in healthy subjects.

OBJECTIVE Subjects with high HDL-C show elevated plasma markers of cholesterol absorption and reduced markers of cholesterol synthesis. We evaluated the effect of dalcetrapib, a cholesteryl ester transfer protein modulator, on markers of cholesterol homeostasis in healthy subjects. METHODS Dalcetrapib was administered daily with or without ezetimibe in a randomized, open-label, crossover study in 22 healthy subjects over three 7-day periods: dalcetrapib 900 mg, ezetimibe 10mg, dalcetrapib 900 mg plus ezetimibe 10mg. Plasma non-cholesterol sterols lathosterol and desmosterol (cholesterol synthesis markers) and campesterol, β-sitosterol and cholestanol (intestinal cholesterol absorption markers) were measured. A hamster model was used to compare the effect of dalcetrapib and torcetrapib with or without ezetimibe on these markers and determine the effect of dalcetrapib on cholesterol absorption. RESULTS Dalcetrapib increased campesterol, β-sitosterol, and cholestanol by 27% (p = 0.001), 32% (p < 0.001), and 12% (p = 0.03), respectively, in man (non-cholesterol sterol/cholesterol ratio). Dalcetrapib+ezetimibe reduced campesterol by 11% (p = 0.02); β-sitosterol and cholestanol were unaffected. Lathosterol and desmosterol were unchanged with dalcetrapib, but both increased with ezetimibe alone (56-148%, p < 0.001) and with dalcetrapib + ezetimibe (32-38%, p < 0.001). In hamsters, dalcetrapib and torcetrapib increased HDL-C by 49% (p = 0.04) and 72% (p = 0.003), respectively. Unlike torcetrapib, dalcetrapib altered cholesterol homeostasis towards increased markers of cholesterol absorption; cholesterol synthesis markers were unaffected by either treatment. Dalcetrapib did not change plasma (3)H-cholesterol level but increased (3)H-cholesterol in plasma HDL vs non-HDL, after oral dosing of labeled cholesterol. CONCLUSION Dalcetrapib specifically increased markers of cholesterol absorption, most likely reflecting nascent HDL lipidation by intestinal ABCA1, without affecting markers of synthesis.

Effect of Compounds Affecting ABCA1 Expression and CETP Activity on the HDL Pathway Involved in Intestinal Absorption of Lutein and Zeaxanthin

The antioxidant xanthophylls lutein and zeaxanthin are absorbed from the diet in a process involving lipoprotein formation. Selective mechanisms exist for their intestinal uptake and tissue-selective distribution, but these are poorly understood. We investigated the role of high-density lipoprotein (HDL), apolipoprotein (apo) A1 and ATP-binding cassette transporter (ABC) A1 in intestinal uptake of lutein in a human polarized intestinal cell culture and a hamster model. Animals received dietary lutein and zeaxanthin and either a liver X receptor (LXR) agonist or statin, which up- or down-regulate intestinal ABCA1 expression, respectively. The role of HDL was studied following treatment with the cholesteryl ester transfer protein (CETP) modulator dalcetrapib or the CETP inhibitor anacetrapib. In vitro, intestinal ABCA1 at the basolateral surface of enterocytes transferred lutein and zeaxanthin to apoA1, not to mature HDL. In hamsters, plasma lutein and zeaxanthin levels were markedly increased with the LXR agonist and decreased with simvastatin. Dalcetrapib, but not anacetrapib, increased plasma and liver lutein and zeaxanthin levels. ABCA1 expression and apoA1 acceptor activity are important initial steps in intestinal uptake and maintenance of lutein and zeaxanthin levels by an HDL-dependent pathway. Their absorption may be improved by physiological and pharmacological interventions affecting HDL metabolism.

Lewy pathology in Parkinson's disease consists of a crowded organellar membranous medley

Parkinson’s disease, the most common age-related movement disorder, is a progressive neurodegenerative disease with unclear etiology. Key neuropathological hallmarks are Lewy bodies and Lewy neurites, which are neuronal inclusions that are immunopositive for the protein α-synuclein. In-depth ultrastructural analysis of this Lewy pathology is crucial to understanding pathogenesis and progression of the disease. Using correlative light and electron microscopy/tomography on brain tissue from five Parkinson’s disease brain donors to identify α-synuclein immunopositive structures, we show that the majority of Lewy pathology including Lewy bodies and Lewy neurites primarily consists of a crowded membranous medley of vesicular structures and dysmorphic organelles. Only a small fraction of observed Lewy bodies contained predominant proteinaceous filaments, as previously described. The crowding of organellar components was confirmed by STED-based super-resolution microscopy, and high lipid content within the α-synuclein immunopositive inclusions was corroborated by confocal imaging, CARS/FTIR imaging and lipidomics. Applying this correlative high-resolution imaging and biophysical approach, we discovered in the postmortem brain of Parkinson’s patients a subcellular protein-lipid compartmentalization not previously described in Lewy pathology.

Abstract LB-085: RG70099: A novel, highly potent dual IDO1/TDO inhibitor to reverse metabolic suppression of immune cells in the tumor micro-environment

IDO1/TDO* mediate substantial immunosuppressive effects through the metabolism of tryptophan (Trp) to kynurenine (Kyn). The consequent decrease in Trp suppresses T cell activity by multiple mechanisms, including the activation of GCN2 and mTOR pathways. Additionally, increased levels of Kyn further enhance the effect of Trp metabolism by engagement of aryl hydrocarbon receptor and potentially enhancing the number and activity of regulatory T cells. Taken together, expression of IDO1 and TDO in the tumor micro-environment dampens tumor-specific effector T cell response, and elevated expression of IDO1/TDO correlates with reduced survival of cancer patients. IDO1 selective inhibitors have already demonstrated clinical anti-tumor activity for certain tumor types. Therefore, targeting the Trp/Kyn pathway via simultaneous inhibition of IDO1 and TDO enzymes has the potential to bring enhanced benefit to cancer patients by relieving immunosuppression in a wide variety of tumor types. We have discovered a novel, highly potent, small molecule IDO1/TDO dual inhibitor, RG70099, with favorable preclinical oral bioavailability and safety profile. RG70099 potently inhibits both enzymes in cell based assays (IDO1 IC50: Our data show for the first time that a dual inhibition of IDO1 and TDO significantly reduces Kyn levels in preclinical tumor models. RG70099 is a potent, dual-selective IDO1 and TDO small molecule inhibitor with favorable pharmaceutical and pharmacokinetic properties that has the potential to relieve immunosuppression by both IDO1 and TDO and activate anti-tumor immune responses for a broad range of cancer types. *IDO1: Indoleamine 2,3-Dioxygenase 1; TDO: Tryptophan 2,3-Dioxygenase Citation Format: Gabor Gyulveszi, Christine Fischer, Massimiliano Mirolo, Martin Stern, Luke Green, Maurizio Ceppi, Haiyan Wang, Beatrice Burgi, Andreas Staempfli, Wolfgang Muster, Robert van Waterschoot, Andreas Gloge, Hadassah Sade, Irina Klaman, Gabriele Hoelzlvimmer, Arjun Surya, Monali Banerjee, Ritesh Shrivastava, Sandip Middya, Dharmendra Yadav, Sourav Basu, Gonzalo Acuna. RG70099: A novel, highly potent dual IDO1/TDO inhibitor to reverse metabolic suppression of immune cells in the tumor micro-environment. [abstract]. In: Proceedings of the 107th Annual Meeting of the American Association for Cancer Research; 2016 Apr 16-20; New Orleans, LA. Philadelphia (PA): AACR; Cancer Res 2016;76(14 Suppl):Abstract nr LB-085.

How Female Mice Attract Males: A Urinary Volatile Amine Activates a Trace Amine-Associated Receptor That Induces Male Sexual Interest

Individuals of many species rely on odors to communicate, find breeding partners, locate resources and sense dangers. In vertebrates, odorants are detected by chemosensory receptors of the olfactory system. One class of these receptors, the trace amine-associated receptors (TAARs), was recently suggested to mediate male sexual interest and mate choice. Here we tested this hypothesis in mice by generating a cluster deletion mouse (Taar2-9−/−) lacking all TAARs expressed in the olfactory epithelium, and evaluating transduction pathways from odorants to TAARs, neural activity and behaviors reflecting sexual interest. We found that a urinary volatile amine, isobutylamine (IBA), was a potent ligand for TAAR3 (but not TAAR1, 4, 5, and 6). When males were exposed to IBA, brain regions associated with sexual behaviors were less active in Taar2-9−/− than in wild type males. Accordingly, Taar2-9−/− males spent less time sniffing both the urine of females and pure IBA than wild type males. This is the first demonstration of a comprehensive transduction pathway linking odorants to TAARs and male sexual interest. Interestingly, the concentration of IBA in female urine varied across the estrus cycle with a peak during estrus. This variation in IBA concentration may represent a simple olfactory cue for males to recognize receptive females. Our results are consistent with the hypothesis that IBA and TAARs play an important role in the recognition of breeding partners and mate choice.