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1.
Int Immunopharmacol ; 126: 111186, 2024 Jan 05.
Artigo em Inglês | MEDLINE | ID: mdl-37979454

RESUMO

The immune system frequently comprises immunological checkpoints. They serve as a barrier to keep the immune system from overreacting and damaging cells that are robust. Immune checkpoint inhibitors (ICIs) are utilized in immunotherapy to prevent the synergy of partner proteins of checkpoint proteins with auxiliary proteins. Moreover, the T cells may target malignant cells since the "off" signal cannot be conveyed. ICIs, which are mostly composed of monoclonal antibodies (mAbs) against cytotoxic T lymphocyte-associated antigen-4 (CTLA-4) and anti- programmed death-1/programmed ligand 1 (anti-PD-1/PD-L1), might transform the context of cancer therapy. Further, more patients continued to exhibit adaptive resistance, even though several ICIs demonstrated convincing therapeutic benefits in selective tumor types. Immune checkpoint therapy's overall effectiveness is still lacking at this time. A popular area of study involves investigating additional immune checkpoint molecules. Recent research has found a number of fresh immune checkpoint targets, including NKG2A ligands, TIGIT, B7-H6 ligands, Galectin 3, TIM3, and so on. These targets have been focus of the study, and recent investigational approaches have shown encouraging outcomes. In this review article, we covered the development and present level understanding of these recently identified immune checkpoint molecules, its effectiveness and limitations.


Assuntos
Proteínas de Checkpoint Imunológico , Neoplasias , Humanos , Proteínas de Checkpoint Imunológico/metabolismo , Anticorpos Monoclonais/uso terapêutico , Anticorpos Monoclonais/metabolismo , Imunoterapia/efeitos adversos , Antígeno CTLA-4/metabolismo , Linfócitos T , Antígeno B7-H1/metabolismo , Neoplasias/tratamento farmacológico , Neoplasias/patologia
2.
Biomed Res Int ; 2022: 3682757, 2022.
Artigo em Inglês | MEDLINE | ID: mdl-36046462

RESUMO

For the treatment of various infections, a variety of antimicrobial drugs are formulated. Nevertheless, many bacterial infections now exhibit antibiotic resistance due to the widespread utilization antibiotics. Methicillin-resistant among the most dangerous multidrug-resistant bacteria is Staphylococcus aureus (MRSA). Vancomycin became a viable therapy option due to MRSA resistance to methicillin medicines. One of the well-informed antibacterial compounds with wideband antibacterial activity is silver nanoparticles (AgNPs). AgNPs are thus suitable candidates for usage in conjunction alongside vancomycin to increase its antibacterial effect. The goal of the present research work is to boost the antibacterial potency of the glycopeptide antibiotic vancomycin towards Gram-positive (Staphylococcus aureus) but also Gram-negative (Escherichia coli) bacteria. The chemical reduction approach is used to create a colloidal solution of silver nanoparticles utilizing silver nitrate as a precursor in the environment of the ionic surfactant trisodium citrate that serves as covering including reducing reagent. Vancomycin was used to functionalize the synthesized nanoparticles and create the nanodrug complex (Van@AgNPs). The synergistic antibacterial potential of silver nanoparticles coated with vancomycin on both test pathogens was investigated using the agar well diffusion technique. The antibacterial potency for both classes of bacteria has significantly increased, according to the well diffusion test. It has been noted that this improvement is synergistic instead of additive.


Assuntos
Nanopartículas Metálicas , Infecções Estafilocócicas , Antibacterianos/química , Antibacterianos/farmacologia , Bactérias , Escherichia coli , Humanos , Nanopartículas Metálicas/química , Testes de Sensibilidade Microbiana , Prata/farmacologia , Staphylococcus aureus , Vancomicina/química , Vancomicina/farmacologia
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