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2. Cleaner synthesis of preclinically validated vaccine adjuvants

Author

Alessio Romerio and Francesco Peri

Subjects
optimization, green chemistry, TLR4, glycolipid, medicinal chemistry, Chemistry, QD1-999
Abstract

We developed synthetic glycophospholipids based on a glucosamine core (FP compounds) with potent and selective activity in stimulating Toll-Like Receptor 4 (TLR4) as agonists. These compounds have activity and toxicity profiles similar to the clinically approved adjuvant monophosphoryl lipid A (MPLA), included in several vaccine formulations, and are now in the preclinical phase of development as vaccine adjuvants in collaboration with Croda International PLC. FP compound synthesis is shorter and less expensive than MPLA preparation but presents challenges due to the use of toxic solvents and hazardous intermediates. In this paper we describe the optimization of FP compound synthesis. The use of regio- and chemoselective reactions allowed us to reduce the number of synthesis steps and improve process scalability, overall yield, safety, and Process Mass Intensity (PMI), thus paving the way to the industrial scale-up of the process.

Published
2023
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3. Increasing the Chemical Variety of Small-Molecule-Based TLR4 Modulators: An Overview

Author

Alessio Romerio and Francesco Peri

Subjects
TLR4—Toll-like receptor 4, medicinal chemistry, inflammation, drug development, endotoxin, Immunologic diseases. Allergy, RC581-607
Abstract

Toll-Like Receptor 4 (TLR4) is one of the receptors of innate immunity. It is activated by Pathogen- and Damage-Associated Molecular Patterns (PAMPs and DAMPs) and triggers pro-inflammatory responses that belong to the repertoire of innate immune responses, consequently protecting against infectious challenges and boosting adaptive immunity. Mild TLR4 stimulation by non-toxic molecules resembling its natural agonist (lipid A) provided efficient vaccine adjuvants. The non-toxic TLR4 agonist monophosphoryl lipid A (MPLA) has been approved for clinical use. This suggests the development of other TLR4 agonists as adjuvants or drugs for cancer immunotherapy. TLR4 excessive activation by a Gram-negative bacteria lipopolysaccharide (LPS) leads to sepsis, while TLR4 stimulation by DAMPs is a common mechanism in several inflammatory and autoimmune diseases. TLR4 inhibition by small molecules and antibodies could therefore provide access to innovative therapeutics targeting sepsis as well as acute and chronic inflammations. The potential use of TLR4 antagonists as anti-inflammatory drugs with unique selectivity and a new mechanism of action compared to corticosteroids or other non-steroid anti-inflammatory drugs fueled the search for compounds of natural or synthetic origin able to block or inhibit TLR4 activation and signaling. The wide spectrum of clinical settings to which TLR4 inhibitors can be applied include autoimmune diseases (rheumatoid arthritis, inflammatory bowel diseases), vascular inflammation, neuroinflammations, and neurodegenerative diseases. The last advances (from 2017) in TLR4 activation or inhibition by small molecules (molecular weight

Published
2020
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4. New glucosamine-based TLR4 agonists: design, synthesis, mechanism of action, and in vivo activity as vaccine adjuvants

Author

Alessio Romerio, Nicole Gotri, Ana Rita Franco, Valentina Artusa, Mohammed Monsoor Shaik, Samuel T. Pasco, Unai Atxabal, Alejandra Matamoros-Recio, Marina Mínguez-Toral, Juan Diego Zalamea, Antonio Franconetti, Nicola G. A. Abrescia, Jesus Jimenez-Barbero, Juan Anguita, Sonsoles Martín-Santamaría, Francesco Peri, European Union, Agencia Estatal de Investigación (España), Ministerio de Economía y Competitividad (España), CIC bioGUNE, Instituto de Salud Carlos III, Romerio, Alessio, Artusa, Valentina, Shaik, Mohammed Monsoor, Pasco, Samuel T., Atxabal, Unai, Matamoros-Recio, Alejandra, Mínguez-Toral, Marina, Zalamea, Juan Diego, Franconetti, Antonio, Abrescia, Nicola G. A., Jiménez-Barbero, Jesús, Anguita, Juan, Martín-Santamaría, Sonsoles, Peri, Francesco, Romerio, A, Gotri, N, Franco, A, Artusa, V, Shaik, M, Pasco, S, Atxabal, U, Matamoros-Recio, A, Minguez-Toral, M, Zalamea, J, Franconetti, A, Abrescia, N, Jimenez-Barbero, J, Anguita, J, Martin-Santamaria, S, Peri, F, and European Commission

Subjects
glycolipids, medicinal chemistry, Drug Discovery, Vaccination, Molecular Medicine, vaccine adjuvant, TLR4, Peptides and proteins, Lipids, Agonists, Phosphates
Abstract

20 p.-15 fig.-1 graph. abst., We disclose here a panel of small-molecule TLR4 agonists (the FP20 series) whose structure is derived from previously developed TLR4 ligands (FP18 series). The new molecules have increased chemical stability and a shorter, more efficient, and scalable synthesis. The FP20 series showed selective activity as TLR4 agonists with a potency similar to FP18. Interestingly, despite the chemical similarity with the FP18 series, FP20 showed a different mechanism of action and immunofluorescence microscopy showed no NF-κB nor p-IRF-3 nuclear translocation but rather MAPK and NLRP3-dependent inflammasome activation. The computational studies related a 3D shape of FP20 series with agonist binding properties inside the MD-2 pocket. FP20 displayed a CMC value lower than 5 μM in water, and small unilamellar vesicle (SUV) formation was observed in the biological activity concentration range. FP20 showed no toxicity in mouse vaccination experiments with OVA antigen and induced IgG production, thus indicating a promising adjuvant activity., The authors acknowledge the European Union’s Horizon 2020 research and innovation program under the Marie Skłodowska-Curie, project BactiVax (www.bactivax.eu) grant agreement no. 860325; the consortium CINMPIS; the project of excellence CHRONOS, CHRonical multifactorial disorders explored by NOvel integrated Strategies of the Department of Biotechnology and Biosciences; the Agencia Estatal de Investigacion (Spain) for project PID2021-126130OB-I00 (N.G.A.A.), PID2020-113588RB-I00 (S.M.-S.), PRE2018-086249 (A.M.-R), PRE2021-097247 (M.M.-T.); and project FEDER MINECO, the EM-platform at the CIC bioGUNE for support in cryo-EM imaging. J.J.-B. also thanks funding by CIBERES, an initiative of Instituto de Salud Carlos III (ISCIII), Madrid, Spain. Perkin-Elmer Italia is also acknowledged for providing the cell imaging reagents.

Published
2023

5. Synthetic Glycolipids as Molecular Vaccine Adjuvants: Mechanism of Action in Human Cells and In Vivo Activity

Author

Nicole Gotri, Fabio A. Facchini, Alberto Minotti, Guanbo Wang, Grisha Pirianov, Marco De Andrea, Miguel A. Valvano, Alessio Romerio, Francesco Peri, Rebecca J. Ingram, Alejandra Matamoros-Recio, Charys Palmer, Sonsoles Martín-Santamaría, Andrea Luraghi, Andrea Iannucci, European Commission, Ministero dell'Istruzione, dell'Università e della Ricerca, Ministerio de Ciencia e Innovación (España), Facchini, Fabio A., Minotti, Alberto, Luraghi, Andrea, Matamoros-Recio, Alejandra, Iannucci, Andrea, Wang, Guanbo, Ingram, Rebecca, Martín-Santamaría, Sonsoles, Pirianov, Grisha, De Andrea, Marco, Valvano, Miguel A., Peri, Francesco, Facchini, F, Minotti, A, Luraghi, A, Romerio, A, Gotri, N, Matamoros-Recio, A, Iannucci, A, Palmer, C, Wang, G, Ingram, R, Martin-Santamaria, S, Pirianov, G, De Andrea, M, Valvano, M, Peri, F, Facchini, Fabio A. [0000-0002-4339-5845], Minotti, Alberto [0000-0002-0443-6472], Luraghi, Andrea [0000-0002-9452-7561], Matamoros-Recio, Alejandra [0000-0003-1563-9408], Iannucci, Andrea [0000-0001-5194-8959], Wang, Guanbo [0000-0001-8210-8805], Ingram, Rebecca [0000-0003-1832-2457], Martín-Santamaría, Sonsoles [0000-0002-7679-0155], Pirianov, Grisha [0000-0002-6480-7765], De Andrea, Marco [0000-0002-3188-5783], Valvano, Miguel A. [0000-0001-8229-3641], and Peri, Francesco [0000-0002-3417-8224]

Subjects
Macrophage, Inflammasomes, medicine.medical_treatment, Monophosphoryl Lipid A, Glycolipid, Article, Inflammasome, Lipid A, 03 medical and health sciences, 0302 clinical medicine, Immune system, Adjuvants, Immunologic, SDG 3 - Good Health and Well-being, In vivo, NLR Family, Pyrin Domain-Containing 3 Protein, Drug Discovery, medicine, Animals, Humans, 030304 developmental biology, Glucosamine, 0303 health sciences, Animal, Chemistry, Macrophages, Pattern recognition receptor, 3. Good health, Mice, Inbred C57BL, Toll-Like Receptor 4, Adaptor Proteins, Vesicular Transport, Mechanism of action, Biochemistry, Myeloid Differentiation Factor 88, Molecular Medicine, Female, Glycolipids, medicine.symptom, Adjuvant, Human, Interleukin-1, Signal Transduction, 030215 immunology, medicine.drug
Abstract

12 p.-7 fig.-1 schem.-1 graph. abst., Modern adjuvants for vaccine formulations are immunostimulating agents whose action is based on the activation of pattern recognition receptors (PRRs) by well-defined ligands to boost innate and adaptive immune responses. Monophosphoryl lipid A (MPLA), a detoxified analogue of lipid A, is a clinically approved adjuvant that stimulates toll-like receptor 4 (TLR4). The synthesis of MPLA poses manufacturing and quality assessment challenges. Bridging this gap, we report here the development and preclinical testing of chemically simplified TLR4 agonists that could sustainably be produced in high purity and on a large scale. Underpinned by computational and biological experiments, we show that synthetic monosaccharide-based molecules (FP compounds) bind to the TLR4/MD-2 dimer with submicromolar affinities stabilizing the active receptor conformation. This results in the activation of MyD88- and TRIF-dependent TLR4 signaling and the NLRP3 inflammasome. FP compounds lack in vivo toxicity and exhibit adjuvant activity by stimulating antibody responses with a potency comparable to MPLA., The support from European Union’s Horizon 2020 research and innovation programme under the Marie Skłodowska-Curie grant agreement No. 860325 (www.BactiVax.eu), Italian Ministry grant PRIN 2017, no. 2017E44A9P (BacHounds:Supramolecular nanostructures for bacteria detection), and the Spanish Ministry for Science and Innovation (grants CTQ2017-88353-R and PRE2018-086249) is acknowledged.

Published
2021

6. Highly Selective SERCA2a Activators: Preclinical Development of a Congeneric Group of First-in-Class Drug Leads against Heart Failure

Author

Andrea Luraghi, Mara Ferrandi, Paolo Barassi, Martina Arici, Shih-Che Hsu, Eleonora Torre, Carlotta Ronchi, Alessio Romerio, Gwo-Jyh Chang, Patrizia Ferrari, Giuseppe Bianchi, Antonio Zaza, Marcella Rocchetti, Francesco Peri, Luraghi, A, Ferrandi, M, Barassi, P, Arici, M, Hsu, S, Torre, E, Ronchi, C, Romerio, A, Chang, G, Ferrari, P, Bianchi, G, Zaza, A, Rocchetti, M, and Peri, F

Subjects
Heart Failure, Drug Discovery, Guinea Pigs, Molecular Medicine, Animals, Arrhythmias, Cardiac, Calcium, Myocytes, Cardiac, Medicinal chemistry, drug development, hearth failure, Serca 2a, steroids, istaroxime, Rats, Sarcoplasmic Reticulum Calcium-Transporting ATPases
Abstract

The stimulation of sarcoplasmic reticulum calcium ATPase SERCA2a emerged as a novel therapeutic strategy to efficiently improve overall cardiac function in heart failure (HF) with reduced arrhythmogenic risk. Istaroxime is a clinical-phase IIb compound with a double mechanism of action, Na+/K+ ATPase inhibition and SERCA2a stimulation. Starting from the observation that istaroxime metabolite PST3093 does not inhibit Na+/K+ ATPase while stimulates SERCA2a, we synthesized a series of bioisosteric PST3093 analogues devoid of Na+/K+ ATPase inhibitory activity. Most of them retained SERCA2a stimulatory action with nanomolar potency in cardiac preparations from healthy guinea pigs and streptozotocin (STZ)-treated rats. One compound was further characterized in isolated cardiomyocytes, confirming SERCA2a stimulation and in vivo showing a safety profile and improvement of cardiac performance following acute infusion in STZ rats. We identified a new class of selective SERCA2a activators as first-in-class drug candidates for HF treatment.

Published
2022

7. Highly Selective SERCA2a Activators: Preclinical Development of a Congeneric Group of First-in-Class Drug Leads against Heart Failure

Author

Luraghi, A, Ferrandi, M, Barassi, P, Arici, M, Hsu, S, Torre, E, Ronchi, C, Romerio, A, Chang, G, Ferrari, P, Bianchi, G, Zaza, A, Rocchetti, M, Peri, F, Andrea Luraghi, Mara Ferrandi, Paolo Barassi, Martina Arici, Shih-Che Hsu, Eleonora Torre, Carlotta Ronchi, Alessio Romerio, Gwo-Jyh Chang, Patrizia Ferrari, Giuseppe Bianchi, Antonio Zaza, Marcella Rocchetti, Francesco Peri, Luraghi, A, Ferrandi, M, Barassi, P, Arici, M, Hsu, S, Torre, E, Ronchi, C, Romerio, A, Chang, G, Ferrari, P, Bianchi, G, Zaza, A, Rocchetti, M, Peri, F, Andrea Luraghi, Mara Ferrandi, Paolo Barassi, Martina Arici, Shih-Che Hsu, Eleonora Torre, Carlotta Ronchi, Alessio Romerio, Gwo-Jyh Chang, Patrizia Ferrari, Giuseppe Bianchi, Antonio Zaza, Marcella Rocchetti, and Francesco Peri

Abstract

The stimulation of sarcoplasmic reticulum calcium ATPase SERCA2a emerged as a novel therapeutic strategy to efficiently improve overall cardiac function in heart failure (HF) with reduced arrhythmogenic risk. Istaroxime is a clinical-phase IIb compound with a double mechanism of action, Na+/K+ ATPase inhibition and SERCA2a stimulation. Starting from the observation that istaroxime metabolite PST3093 does not inhibit Na+/K+ ATPase while stimulates SERCA2a, we synthesized a series of bioisosteric PST3093 analogues devoid of Na+/K+ ATPase inhibitory activity. Most of them retained SERCA2a stimulatory action with nanomolar potency in cardiac preparations from healthy guinea pigs and streptozotocin (STZ)-treated rats. One compound was further characterized in isolated cardiomyocytes, confirming SERCA2a stimulation and in vivo showing a safety profile and improvement of cardiac performance following acute infusion in STZ rats. We identified a new class of selective SERCA2a activators as first-in-class drug candidates for HF treatment.

Published
2022

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