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As part of the parasympathetic nervous system, muscarinic receptors are involved in the regulation of numerous functions in the human body. However, targeting a specific subtype of muscarinic receptors is challenging due to the high degree of similarity within the binding site of the endogenous neurotransmitter acetylcholine. Therefore, this study focused on the investigation of dualsteric ligands. Such hybrid ligands target the orthosteric acetylcholine binding site and, simultaneously, a distinct allosteric binding site. Since allosteric binding regions show significant structural differences throughout muscarinic receptor subtypes, it was aimed to produce selective ligands by means of combination of two pharmacophores in one molecule. Herein, the thienopyridine derivatives LY2033298 and LY2119620 were chosen as allosteric moieties. Based on literature studies, the investigated allosteric modulators were analyzed in terms of adequate attachment points for the combination with an orthosteric agonist. As orthosteric units, muscarinic superagonist iperoxo, xanomeline, and TMA were applied in this work. Since the distance between orthosteric and allosteric moieties plays a crucial role for dualsteric ligand binding, the linker chain length was also varied. Pharmacological investigations of the synthesized hybrid ligands were perfomed via FRET- and BRET-assay measurements.
Azobenzene derivatives with activity against drug‐resistant Candida albicans and Candida auris
(2023)
Increasing resistance against antimycotic drugs challenges anti‐infective therapies today and contributes to the mortality of infections by drug‐resistant Candida species and strains. Therefore, novel antifungal agents are needed. A promising approach in developing new drugs is using naturally occurring molecules as lead structures. In this work, 4,4'‐dihydroxyazobenzene, a compound structurally related to antifungal stilbene derivatives and present in Agaricus xanthodermus (yellow stainer), served as a starting point for the synthesis of five azobenzene derivatives. These compounds prevented the growth of both fluconazole‐susceptible and fluconazole‐resistant Candida albicans and Candida auris strains. Further in vivo studies are required to confirm the potential therapeutic value of these compounds.
The aim of this study was to determine the potential of some Ghanaian underutilized legumes in helping to reduce the problems of poverty, hunger and malnutrition among the vulnerable group of the Ghanaian population. The study looked into the functional properties, fat and fatty acid distribution, raffinose, sucrose, glucose, fructose, calcium, magnesium, sodium, potassium, iron, copper, manganese, zinc, cyanide and isoflavone contents of raw and processed seed flours of Cajanus cajan, Canavalia ensiformis, Canavalia gladiata, Mucuna pruriens, Parkia biglobosa, Phaseolus lunatus and Vigna subterranea. The parameters mentioned above were also determined for raw fruit flour of Dialium guineense. In addition to these, the study also looked into the crude protein and starch contents of the raw and processed seed flours of Canavalia gladiata, Parkia biglobosa and Vigna subterranea. The obtained results suggest that the legumes may have untapped potential, which may be exploited to help assist in reducing hunger, malnutrition and poverty in Ghana. Results of the functional properties reveal that the legumes may serve useful roles in various food products. For instance, velvet tamarind (Dialium guineense) flour may be useful in infant food formulations because of it high solubility and low bulk density. African Locust bean (Parkia biglobosa) flour had the highest fat content among the studied flours, recording a fat content of approximately 14%. It may therefore be economical to express the oil and use the oil as an edible oil or for industrial applications for products such as soaps, shampoos, paints, etc. This means the properties of the oil of African Locust bean flour need to be studied to know the uses of the oil. Unsaturated fatty acids in the cis configuration formed more than 50% of the fatty acids in all the legumes. This observation coupled with the low sodium content of all the legumes suggest that these legumes may be suitable for consumption to prevent cardiovascular diseases. The daily nutrient needs of individuals can be met by the consumption of the appropriate amounts of these legumes. For example, 375.25 g of processed velvet beans (Mucuna pruriens) flour may be able to meet the adequate intake (AI) of 350 mg/day magnesium for adult males.
In all the projects presented, it is evident that the selection of suitable separation conditions is only one side of the coin. Equally crucial in the development of methods for the quality assessment of APIs/drugs is the right detection system.
The application of CAD as an alternative to UV detection at low wavelength of the two weak chromophore main degradation products of the very polar, zwitterionic API carbocisteine requires the volatility of the mobile phase. Therefore, as a substitute for the non-volatile ion pairing reagent tetrabutylammonium hydroxide (TBAOH), six different volatile alkylamines as well as a RP/SAX mixed-mode column were evaluated. The best selectivity and separation performance comparable to TBAOH was achieved with the RP/SAX column and a mixture of formic acid and trifluoroacetic acid. For the simultaneous optimisation of the evaporation temperature of the CAD as a function of two chromatographic parameters, a central composite design was chosen and the “desirability function” was subsequently applied for modelling. In addition, column bleeding was investigated with a second RP/SAX column (different batch) with the result that the acetonitrile percentage had to be adjusted and preconditioning by injection of concentrated samples is essential. The final mixed-mode method was finally validated with both columns according to the ICH Q2 (R1) guideline.
Based on this, an MS-compatible method was developed with little effort using an identical RP/SAX column in UPLC dimension for the untargeted analysis by HRMS of two carbocisteine-containing prototype syrup formulations. For a comprehensive characterisation, HRMS and MS/HRMS data were recorded simultaneously by information dependent acquisition mode. Based on the exact masses, isotope patterns and an in silico plausibility check of the fragment spectra, the prediction of the structures of the unknown impurities was possible. In both syrup samples, which had been stored for nine months at 40 °C and 75 % r.h., two additional impurities of carbocisteine (i.e. lactam of the sulfoxides and disulphide between cysteine and thioglycolic acid) were identified by comparison with the corresponding prototype placebo samples using general unknown comparative screening. In addition, the formation of Maillard products by binary mixtures with 13C-labelled sugars was revealed in the sucrose-containing formulation.
For the promising hyphenation of the UV detector with the CAD for the simultaneous detection of all UV-active impurities of the cholesterol-lowering drug simvastatin and the only weak chromophore dihydrosimvastatin, the Ph. Eur. method had to be adapted. Besides replacing phosphoric acid with trifluoroacetic acid, the gradient also had to be adjusted and a third critical peak pair was observed. Based on validation experiments (according to the ICH Q2 (R1) guideline), the suitability of the CAD for sensitive detection (LOQ = 0.0175 % m/m) was proven.
To further investigate the robustness of the adapted method and CAD, a Plackett-Burman design was chosen. None of the factors had a statistically significant effect on the S/N of the CAD in the ranges tested. Regarding the three critical peak pairs, on the other hand, the factors to be controlled were statistically established, so that a targeted correction is possible if the system suitability test is not passed. The idea of employing a hyphenated UV-CAD system was finally applied to the structurally closely related lovastatin and its specified impurity dihydrolovastatin. Here, the CAD showed a significantly better S/N compared to the compendial UV detection at 200 nm.
The suitability of CAD for the analysis of non-volatile fatty acids in polysorbate 80 (PS80) as favourable alternative to the Ph. Eur. GC method (no time-consuming, error-prone and toxic derivatisation) has already been demonstrated. The aim of this project was therefore to develop a robust method with a focus on the AQbD principles, which can be used for the analysis of other excipients with similar fatty acid composition. After the definition of the analytical target profile and a risk assessment by means of an Ishikawa diagram, a suitable C18 column and the chromatographic framework conditions (formic acid concentration and initial/final gradient conditions) were selected after only few preliminary runs. The remaining critical method parameters were then investigated with the help of DoE and RSM. Using the obtained model equations, Monte Carlo simulations were performed to create the method operable design region as a region of theoretical robustness. After validation according to ICH Q2 (R1), the fatty acid composition of a magnesium stearate batch was successfully analysed as a further application example in addition to PS80.
The CAD was able to prove its potential in all the issues investigated in the context of this doctoral thesis. As a cost-effective alternative compared to MS instruments, it thus closes a gap in the quality assessment of APIs or excipients without a suitable chromophore. The easy method transfer to (HR)MS instruments also allows for a unique degree of sample characterisation through untargeted approaches in case of new impurities. For resource- and time-efficient work, the possibilities and limitations of software tools for method development and data evaluation as well as the application of risk-based approaches such as AQbD should also be considered.
Oral antineoplastic drugs are an important component in the treatment of solid tumour diseases, haematological and immunological malignancies. Oral drug administration is associated with positive features (e.g., non-invasive drug administration, outpatient care with a high level of independence for the patient and reduced costs for the health care system). The systemic exposure after oral intake however is prone to high IIV as it strongly depends on gastrointestinal absorption processes, which are per se characterized by high inter-and intraindividual variability. Disease and patient-specific characteristics (e.g., disease state, concomitant diseases, concomitant medication, patient demographics) may additionally contribute to variability in plasma concentrations between individual patients. In addition, many oral antineoplastic drugs show complex PK, which has not yet been fully investigated and elucidated for all substances. All this may increase the risk of suboptimal plasma exposure (either subtherapeutic or toxic), which may ultimately jeopardise the success of therapy, either through a loss of efficacy or through increased, intolerable adverse drug reactions. TDM can be used to detect suboptimal plasma levels and prevent permanent under- or overexposure. It is essential in the treatment of ACC with mitotane, a substance with unfavourable PK and high IIV. In the current work a HPLC-UV method for the TDM of mitotane using VAMS was developed. A low sample volume (20 µl) of capillary blood was used in the developed method, which facilitates dense sampling e.g., at treatment initiation. However, no reference ranges for measurements from capillary blood are established so far and a simple conversion from capillary concentrations to plasma concentrations was not possible. To date the therapeutic range is established only for plasma concentrations and observed capillary concentrations could not be reliable interpretated.The multi-kinase inhibitor cabozantinib is also used for the treatment of ACC. However, not all PK properties, like the characteristic second peak in the cabozantinib concentration-time profile have been fully understood so far. To gain a mechanistic understanding of the compound, a PBPK model was developed and various theories for modelling the second peak were explored, revealing that EHC of the compound is most plausible. Cabozantinib is mainly metabolized via CYP3A4 and susceptible to DDI with e.g., CYP3A4 inducers. The DDI between cabozantinib and rifampin was investigated with the developed PBPK model and revealed a reduced cabozantinib exposure (AUC) by 77%. Hence, the combination of cabozantinib with strong CYP inducers should be avoided. If this is not possible, co administration should be monitored using TDM. The model was also used to simulate cabozantinib plasma concentrations at different stages of liver injury. This showed a 64% and 50% increase in total exposure for mild and moderate liver injury, respectively.Ruxolitinib is used, among others, for patients with acute and chronic GvHD. These patients often also receive posaconazole for invasive fungal prophylaxis leading to CYP3A4 mediated DDI between both substances. Different dosing recommendations from the FDA and EMA on the use of ruxolitinib in combination with posaconazole complicate clinical use. To simulate the effect of this relevant DDI, two separate PBPK models for ruxolitinib and posaconazole were developed and combined. Predicted ruxolitinib exposure was compared to observed plasma concentrations obtained in GvHD patients. The model simulations showed that the observed ruxolitinib concentrations in these patients were generally higher than the simulated concentrations in healthy individuals, with standard dosing present in both scenarios. According to the developed model, EMA recommended RUX dose reduction seems to be plausible as due to the complexity of the disease and intake of extensive co-medication, RUX plasma concentration can be higher than expected.
Characterization of binding properties of ephedrine derivatives to human alpha-1-acid glycoprotein
(2023)
Most drugs, especially those with acidic or neutral moieties, are bound to the plasma protein albumin, whereas basic drugs are preferentially bound to human alpha-1-acid glycoprotein (AGP). The protein binding of the long-established drugs ephedrine and pseudoephedrine, which are used in the treatment of hypotension and colds, has so far only been studied with albumin. Since in a previous study a stereoselective binding of ephedrine and pseudoephedrine to serum but not to albumin was observed, the aim of this study was to check whether the enantioselective binding behavior of ephedrine and pseudoephedrine, in addition to the derivatives methylephedrine and norephedrine, is due to AGP and to investigate the influence of their different substituents and steric arrangement. Discontinuous ultrafiltration was used for the determination of protein binding. Characterization of ligand-protein interactions of the drugs was obtained by saturation transfer difference nuclear magnetic resonance spectroscopy. Docking experiments were performed to analyze possible ligand-protein interactions. The more basic the ephedrine derivative is, the higher is the affinity to AGP. There was no significant difference in the binding properties between the individual enantiomers and the diastereomers of ephedrine and pseudoephedrine.
Alzheimer´s disease (AD) is a neurodegenerative disease and the most common form of dementia with still no preventive or curative treatment. Besides several risk factors, age is one of the major risks for AD and with an aging society, there is an urgent need for disease modifying agents. The strategy to address only one target within the intertwined network of AD failed so far.
Natural products especially the phytochemical flavonoids, which are poly-phenolic natural products, have shown great potential as disease modifying agents against neurodegenerative disorders like Alzheimer´s disease (AD) with activities even in vivo. Flavonoids are produced by many plants and the native Californian plant Eriodictyon californicum is particularly rich in flavonoids. One of the major flavonoids of E. californicum is sterubin, a very potent agent against oxidative stress and inflammation, two hallmarks and drivers of AD and neurodegeneration. Herein, racemic sterubin was synthesized and separated into its pure (R)- and (S)-enantiomer by chiral HPLC. The pure enantiomers showed comparable neuroprotection in vitro with no significant differences. The stereoisomers were configurationally stable in methanol, but fast racemization was observed in culture medium. Moreover, the activity of sterubin was investigated in vivo, in an AD mouse model. Sterubin showed a significant positive impact on short- and long-term memory at low dosages.
A promising concept for the increase of activity of single flavonoids is hybridization with aromatic acids like cinnamic or ferulic acids. Hybridization of the natural products taxifolin and silibinin with cinnamic acid led to an overadditive effect of these compounds in phenotypic screening assays related to neurodegeneration and AD. Because there are more potent agents as taxifolin or silibinin, the hybrids were further developed, and different flavonoid cinnamic acid hybrids were synthesized. The connection between flavonoids and cinnamic acid was achieved by an amide instead of a labile ester to improve the stability towards hydrolysis to gain better “druggability” of the compounds. To investigate the oxidation state of the C-ring of the flavonoid part, the dehydro analogues of the respective hybrids were also synthesized. The compounds show neuroprotection against oxytosis, ferroptosis and ATP-depletion in the murine hippocampal cell line HT22. While no overall trend within the flavanones compared to the flavones could be assigned, the taxifolin and the quercetin derivative were the most active compounds in course of all assays. The quercetin derivate even shows greater activity than the taxifolin derivate in every assay. As desired no hydrolysis product was found in cellular uptake experiments after 4h, whereas different metabolites were found. The last part of this work focused on synthetic bioisoteres of the natural product curcumin. Due to the drawbacks of curcumin and flavonoids arising from poor pharmacokinetics, rapid metabolism and sometimes instability in aqueous medium, we have examined the biological activity of azobenzene compounds designed as bioisoteres of curcumin, carrying the pharmacophoric catechol group of flavonoids. These bioisosteres exceeded their parent compounds in counteracting intracellular oxidative stress, neuroinflammation and amyloid-beta aggregation. By incorporating an azobenzene moiety and the isosteric behaviour to the natural parent compounds, these compounds may act as molecular tools for further investigation towards the molecular mode of action of natural products.
A variety of in vitro dissolution and gastrointestinal transfer models have been developed aiming to predict drug supersaturation and precipitation. Further, biphasic, one-vessel in vitro systems are increasingly applied to simulate drug absorption in vitro. However, to date, there is a lack of combining the two approaches. Therefore, the first aim of this study was to develop a dissolution-transfer-partitioning system (DTPS) and, secondly, to assess its biopredictive power. In the DTPS, simulated gastric and intestinal dissolution vessels are connected via a peristaltic pump. An organic layer is added on top of the intestinal phase, serving as an absorptive compartment. The predictive power of the novel DTPS was assessed to a classical USP II transfer model using a BCS class II weak base with poor aqueous solubility, MSC-A. The classical USP II transfer model overestimated simulated intestinal drug precipitation, especially at higher doses. By applying the DTPS, a clearly improved estimation of drug supersaturation and precipitation and an accurate prediction of the in vivo dose linearity of MSC-A were observed. The DTPS provides a useful tool taking both dissolution and absorption into account. This advanced in vitro tool offers the advantage of streamlining the development process of challenging compounds.
Muscarinic acetylcholine receptors (mAChRs) are involved in signal transmission at the synapses of the parasympathetic nervous system. The five subtypes of mAChRs regulate various body functions such as heart function, gland secretion, memory, and learning. For the development of drugs with the least side-effects possible, the molecular causes of subtype selectivity and signalling bias are under investigation. In this context, the study of dualsteric ligands binding simultaneously to the orthosteric and the allosteric binding sites of the receptor is of high interest.
To date, dualsteric ligands were synthesised as hybrids of full agonists or superagonists being the orthosteric element, linked to known subtype selective allosteric fragments. In this work, the existing library was expanded to hybrid ligands based on the partial agonist pilocarpine. A suitable linker attachment point to pilocarpine was investigated.
For this aim, pilocarpine (2), isopilocarpine (15), pilosinine (16) and desmethyl pilosinine (35) were synthesised as orthosteric ligands and orthosteric fragments for the construction of the hybrid molecules (Figure 42). Pilocarpine was liberated from the commercial hydrochloride or nitrate salt and isopilocarpine was generated by epimerisation of pilocarpine. Pilosinine was synthesised in a Michael addition reaction of a dithiane carrying the imidazole moiety 82 onto the lactone precursor furan-2(5H)-one (83) followed by complete deprotection (Figure 43a).[133] The desmethyl pilosinine (35) was obtained in a newly developed synthetic route based on a Horner-Wadsworth-Emmons (HWE) reaction to build the methylene bridge between the imidazole aldehyde and the precursor of the lactone moiety 57 (Figure 43b). All four orthosters were converted to the respective dualsteric compounds with a naphmethonium fragment as allosteric moiety.
The four orthosteric fragments and the four hybrid molecules with a linker length of six methylene units were tested for their dose dependent G protein recruitment at the receptor subtypes M1–5 using a mini-G nanoBRET assay. The study of the orthosteric ligands revealed that pilocarpine has the highest ability of all four orthosters to induce activity at all receptor subtypes. A change of the cis- to a trans-configuration of the lactone substituents or a complete removal of the ethyl substituent provoked a significant reduction of activity. Removal of the methyl substituent of the imidazole moiety led to improved receptor activation.
The efficacies of the hybrid ligands show that the linker attachment at the imidazole moiety of pilocarpine and its analogues does not abolish activity and hybrid formation of isopilocarpine even improved receptor activation. Thus, the linker attachment point seems a valid choice, but linker length might not be optimum. In contrast to the orthosters, the trans-substitution of the lactone was advantageous for receptor activation of the hybrid ligands. The hybrid without a methyl substituent at the imidazole (69) had an increased efficacy. Additionally, the naphmethonium fragment lowered the maximum effect of pilocarpine, whereas the activity of isopilocarpine was increased. The intensity of both effects was influenced by the subtype selectivity produced by naphmethonium leading, in the case of the pilocarpine hybrid, to less decreased responses or, in the case of the isopilocarpine hybrid, to more increased responses at the M2 and M4 receptors. The results generally lead to the assumption that the allosteric moiety strongly influences the binding poses of the hybrid ligands so that the orthosteric fragments do not interact with the binding site in the same way as the orthosters alone.
A second project was based on molecular dynamics simulations of the binding pose of pilocarpine,[73] leading to the hypothesis that the partial agonism of pilocarpine results from an equilibrium between an agonistic and an antagonistic binding pose at the orthosteric binding site of the receptor. The ratio of occupancy of both binding poses determines the observed efficacy of pilocarpine. The orthosteric binding site provides more space for the ethyl substituent in the supposed antagonistic pose than in the agonistic binding pose. This hypothesis was tested by the synthesis and pharmacological evaluation of pilocarpine analogues with alkyl substituents of different sizes at the lactone (16, 31a, c, d) (Figure 44). The analogues with larger alkyl residues are expected to shift the equilibrium towards the antagonistic binding pose, the analogues with smaller residues should have the inverse effect.
The synthesis of the pilocarpine analogues was first attempted as a mixture of stereoisomers which were supposed to be separated at the end of the synthetic route. The racemic mixture of the thermodynamically more stable trans-isomers of the target compounds was prepared in a one-pot Michael-addition–alkylation reaction of a dithiane imidazole onto furan-2(5H)-one similarly to the synthesis of pilosinine (Figure 45). The resulting enolate was quenched by an iodoalkane to achieve alkylation of the lactone and subsequent complete deprotection yielded the racemic trans-analogues of pilocarpine.[133] After unsuccessful attempts of chiral resolution, the mixture of trans-isomers was converted to a mixture of all four possible diastereomers in a kinetic epimerisation reaction.[95] A separation of the stereoisomers was not possible in this project so only the racemic molecule 16 (pilosinine, R = H) was obtained from this synthetic route.
For the selective synthesis of the cis-isomers following a patent from Reimann,[146] both stereocenters of the target molecules were produced in the last synthetic step by a syn-hydrogenation of the α,β-unsaturated precursor (Figure 46). The racemic pilocarpine analogues, except the butyl derivative (31d), were purified by crystallisation as their nitrate salts. This provided the racemic mixtures with less than 8% of the trans-isomers as impurity. The racemic pilocarpine (2), itself, was obtained with 15% trans-impurity and was used as reference compound. Additionally, the possibility of chiral resolution by chromatographic methods was demonstrated in the case of the methyl derivative (31a). The pharmacological testing of the desired enantiomer of 31a is in progress.
This dissertation focuses on Mip (macrophage infectivity potentiator protein) inhibitors in response to increasing antibiotic resistance. The study follows an antivirulence approach, which aims to inhibit the non-essential Mip protein without exerting too much selective pressure. Three focus areas were (1) development and synthesis of a fluorescent probe for screening Mip inhibitors via fluorescence polarization; (2) design and synthesis of broad spectrum Mip inhibitors bearing a side chain; and (3) understanding the metabolism of Mip inhibitors and identification of active metabolites.
A sub-study addressed the biotinylation of anti-leishmanial compounds from Valeriana wallichii rhizomes, with three tracer molecules synthesized for future pull-down experiments.