RESUMO
Cell therapies such as CAR-T have demonstrated significant clinical successes, driving the investigation of immune cell surface engineering using natural and synthetic materials to enhance their therapeutic performance. However, many of these materials do not fully replicate the dynamic nature of the extracellular matrix (ECM). This study presents a cell surface engineering strategy that utilizes phase-separated peptide coacervates to decorate the surface of immune cells. We meticulously designed a tripeptide, Fmoc-Lys-Gly-Dopa-OH (KGdelta; Fmoc=fluorenylmethyloxycarbonyl; delta=Dopa, dihydroxyphenylalanine), that forms coacervates in aqueous solution via phase separation. These coacervates, mirroring the phase separation properties of ECM proteins, coat the natural killer (NK) cell surface with the assistance of Fe3+ ions and create an outer layer capable of encapsulating monoclonal antibodies (mAb), such as Trastuzumab. The antibody-embedded coacervate layer equips the NK cells with the ability to recognize cancer cells and eliminate them through enhanced antibody-dependent cellular cytotoxicity (ADCC). This work thus presents a unique strategy of cell surface functionalization and demonstrates its use in displaying cancer-targeting mAb for cancer therapies, highlighting its potential application in the field of cancer therapy.
Assuntos
Células Matadoras Naturais , Humanos , Células Matadoras Naturais/imunologia , Células Matadoras Naturais/metabolismo , Neoplasias/tratamento farmacológico , Neoplasias/terapia , Trastuzumab/química , Trastuzumab/farmacologia , Anticorpos Monoclonais/química , Oligopeptídeos/química , Engenharia Celular , Linhagem Celular Tumoral , Terapia Baseada em Transplante de Células e Tecidos/métodosRESUMO
Cellular membranes, including the plasma and endosome membranes, are barriers to outside proteins. Various vehicles have been devised to deliver proteins across the plasma membrane, but in many cases, the payload gets trapped in the endosome. Here we designed a photo-responsive phase-separating fluorescent molecule (PPFM) with a molecular weight of 666.8 daltons. The PPFM compound condensates as fluorescent droplets in the aqueous solution by liquid-liquid phase separation (LLPS), which disintegrate upon photoirradiation with a 405â nm light-emitting diode (LED) lamp within 20â min or a 405â nm laser within 3â min. The PPFM coacervates recruit a wide range of peptides and proteins and deliver them into mammalian cells. Photolysis disperses the payload from condensates into the cytosolic space. Altogether, a type of small molecules that are photo-responsive and phase separating are discovered; their coacervates can serve as transmembrane vehicles for intracellular delivery of proteins, whereas photo illumination triggers the cytosolic distribution of the payload.
Assuntos
Luz , Peptídeos , Membrana Celular , FotóliseRESUMO
In this work, we present a new strategy for the chemo-, regio-, and stereoselective synthesis of functionalized pyrrolidine derivatives via a hydroxy-assisted phosphine-catalyzed reaction of allenoates or substituted allenoates with o-hydroxyaryl azomethine ylides that offers a wide variety of 4-methylenepyrrolidine derivatives in synthetically useful yields with high stereoselctivities under mild conditions. Remarkably, it is the first example of highly regio- and stereoselective phosphine-catalyzed [3 + 2] cycloaddition of allenoates with o-hydroxyaryl azomethine ylides.
RESUMO
Serine-arginine (SR) proteins are splicing factors that play essential roles in both constitutive and alternative pre-mRNA splicing. Phosphorylation of their C-terminal RS domains by SR protein kinases (SRPKs) regulates their localization and diverse cellular activities. Dysregulation of phosphorylation has been implicated in many human diseases, including cancers. Here, we report the development of a covalent protein-protein interaction inhibitor, C-DBS, that targets a lysine residue within the SRPK-specific docking groove to block the interaction and phosphorylation of the prototypic SR protein SRSF1. C-DBS exhibits high specificity and conjugation efficiency both in vitro and in cellulo. This self-cell-penetrating inhibitor attenuates the phosphorylation of endogenous SR proteins and subsequently inhibits the angiogenesis, migration, and invasion of cancer cells. These findings provide a new foundation for the development of covalent SRPK inhibitors for combatting diseases such as cancer and viral infections and overcoming the resistance encountered by ATP-competitive inhibitors.
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Targeted immunotherapies capitalize on the exceptional binding capabilities of antibodies to stimulate a host response that effectuates long-lived tumor destruction. One example is the conjugation of immunoglobulins (IgGs) to immune effector cells, which equips the cells with the ability to recognize and accurately kill malignant cells through a process called antibody-dependent cellular cytotoxicity (ADCC). In this study, a chemoenzymatic reaction is developed that specifically functionalizes a single tyrosine (Tyr, Y) residue, Y296, in the Fc domain of therapeutic IgGs. A one-pot reaction that combines the tyrosinase-catalyzed oxidation of tyrosine to o-quinone with a subsequent [3+2] photoaddition with vinyl ether is employed. This reaction installs fluorescent molecules or bioorthogonal groups at Y296 of IgGs or the C-terminal Y-tag of an engineered nanobody. The Tyr-specific reaction is utilized in constructing monofunctionalized antibody-drug conjugates (ADCs) and antibody/nanobody-conjugated effector cells, such as natural killer cells or macrophages. These results demonstrate the potential of site-selective antibody reactions for enhancing targeted cancer immunotherapy.
Assuntos
Anticorpos , Tirosina , Imunoterapia/métodos , Citotoxicidade Celular Dependente de Anticorpos , Células Matadoras NaturaisRESUMO
Proximal crosslinking refers to the site-specific conjugation reaction between a synthetic ligand with a bioorthogonal reactive group incorporated at a particular site and a protein of interest (POI). The binding interaction positions a reactive group of a native amino acid of the POI to the proximity of the reactive group in the ligand. The covalent conjugation increases the molecular weight of the POI, shows an upshift in the polyacrylamide gel, and gives a fluorescent band if the ligand is fluorescently labeled. Here, we summarize a method to covalently conjugate phosphotyrosine peptides and SH2 domains that contain cysteine residues. This method yields covalent peptide blockers for a set of SH2 proteins and elucidates the binding interaction between phosphotyrosine peptides and SH2 domains.
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Peptídeos , Domínios de Homologia de src , Fosfotirosina , Ligantes , AminoácidosRESUMO
A key step in enteropathogenic Escherichia coli (EPEC) infection of intestinal cells involves a Tir-induced actin reorganization. Nck mediates this event by binding with WIP through its second SH3 domain (Nck-SH3.2). Recently we have developed a preventative antibacterial mechanism that safeguards intestinal cells by shutting down this intracellular signal through a site-selective covalent peptide-protein reaction, a new antibacterial strategy that acts on the host cells instead of bacterium cells. Here we present the experimental details of the design and synthesis of cysteine-reactive peptides to selectively block Nck-SH3.2 but not the other two SH3 domains. Procedures of EPEC infection, covalent reaction inside Caco-2 cells, and bacterial counting to check the antibacterial effect are also described.
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Infecções por Escherichia coli , Proteínas de Escherichia coli , Actinas/metabolismo , Antibacterianos , Células CACO-2 , Proteínas de Escherichia coli/metabolismo , Interações entre Hospedeiro e Microrganismos , HumanosRESUMO
Here we report a method to synthesize C-terminally modified peptides on resin. A four-component Ugi reaction of isocyanide resin, an Fmoc-protected amino acid, an amine, and a 6-nitroveratrylaldehyde gives C-terminal photocaged peptide amides, which can be photolyzed to generate C-terminal peptide amides. Changing the amine component in the Ugi reaction gives peptides with different C-terminal modifications including substituted anilides, alkyne, and azide. By installing an N-terminal azide and C-terminal alkyne, we synthesized a head-to-tail cyclized antibacterial peptide through copper(I)-catalyzed azide-alkyne cycloaddition (CuAAC). The cyclized peptide exhibited higher proteolytic stability and antibacterial activity than the linear peptide.
Assuntos
Reação de CicloadiçãoRESUMO
INTRODUCTION: Proton pump inhibitors (PPIs) are widely prescribed and generally well tolerated but can rarely cause severe allergic reactions, such as drug rash with eosinophilia and systemic symptoms (DRESS). We report a case of DRESS and renal injury induced by PPIs, and describe the therapeutic process. PATIENT CONCERNS: The patient was a 66-year-old female who complained of fever, pruritus, desquamation, erythema multiforme, and anuria caused by omeprazole taken for 2 weeks to treat abdominal distention. DIAGNOSIS: The clinical history revealed a similar episode of PPI-induced fever, eosinophilia, and acute kidney injury more than 1 year ago. The present laboratory tests revealed eosinophilia and oliguric renal failure. The renal biopsy was performed subsequently and proved the diagnosis of PPI-induced DRESS. INTERVENTIONS: After the suspected diagnosis of PPI-induced DRESS, omeprazole was discontinued and methylprednisolone infusion (40âmg qd) was initiated. Because of oliguric renal failure, the patient received intermittent hemodialysis. OUTCOMES: The patient initially responded to omeprazole discontinuation, hemodialysis, and glucocorticoids but later died from severe infection during the tapering of glucocorticoid therapy. CONCLUSION: Clinicians should remain on high alert for potential life-threatening complications when prescribing PPIs. If unexplained renal injury develops in a patient taking a PPI, renal biopsy may help in identifying the pathogenesis and might facilitate timely intervention.
Assuntos
Injúria Renal Aguda/induzido quimicamente , Síndrome de Hipersensibilidade a Medicamentos/etiologia , Omeprazol/efeitos adversos , Inibidores da Bomba de Prótons/efeitos adversos , Idoso , Evolução Fatal , Feminino , HumanosRESUMO
In this work, we present a strategy for the stereoselective synthesis of functionalized benzooxazepino[5,4- a]isoindolone derivatives via a Cs2CO3-catalyzed domino ß-addition and γ-aldol reaction of 2-(2-hydroxyphenyl)isoindoline-1,3-dione derivatives with allenoates, which offers an avenue for a combination of the structural unity between benzooxazepine and isoindolone motifs in synthetically useful yields with high stereoselectivities under mild conditions. Remarkably, it is the first example of highly stereoselective Cs2CO3-catalyzed formal [5 + 2] annulation of 2-(2-hydroxyphenyl)isoindoline-1,3-dione with allenoates.
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A highly regio- and stereoselective synthesis of ß-haloalkenyl sulfides using commercially available ketones and sulfonyl hydrazides as starting materials has been developed. This protocol obviates the need for alkynes and traditional sulfenylating agents and therefore opens up a new door to construct ß-iodoalkenyl sulfides in a highly simple manner. This study reveals that ketones could be used as vinyl iodide precursors in organic synthesis.
RESUMO
A phosphine-catalyzed reaction between o-hydroxyaryl azomethine ylides and MBH carbonates provides access to highly functionalized γ-aminobutyric acid derivatives in moderate to good yields. Mechanistically, the reaction involves a phosphine-catalyzed tandem SN2'/2-aza-Cope rearrangement/intramolecular addition process.