Navegando por Palavras-chave "antitumor peptides"
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- ItemSomente MetadadadosAntibodies as Crypts of Antiinfective and Antitumor Peptides(Bentham Science Publ Ltd, 2009-06-01) Magliani, W.; Conti, S.; Cunha, Rodrigo Luiz Oliveira Rodrigues [UNIFESP]; Travassos, Luiz Rodolpho [UNIFESP]; Polonelli, L.; Univ Parma; Universidade Federal de São Paulo (UNIFESP); Dept Microbiol Imunol & ParasitolAntibodies (Abs), often associated with antimicrobial and antitumor agents, have emerged as an important class of novel drugs for antigen-driven therapeutic purposes in diverse clinical settings, including oncology and infectious diseases. Abs commonly give rise in the treated host to anti-Ab responses, which may induce adverse reactions and limit their therapeutic efficacy. Their modular domain architecture has been exploited to generate alternative reduced formats (Fabs, scFvs, dAbs, minibodies, multibodies), essentially devoid of the Fc region. The presence of complementarity determining regions (CDRs) ensures the maintenance of selective binding to antigens and supports their use for biotechnological and therapeutic applications. Paradigmatic Abs mimicking the wide-spectrum antimicrobial activity of a yeast killer toxin (killer Abs) have revealed the existence of a family of Abs exerting a direct in vitro and/or in vivo microbicidal activity. Based on the variable sequence of an antiidiotypic recombinant killer Ab, CDR-related peptides have been synthesized, engineered by alanine-scanning and selected according to antimicrobial, antiviral and immunomodulatory properties. Irrespective of the native Ab specificity, synthetic CDRs from unrelated murine and human monoclonal Abs, have shown to display differential in vitro, in vivo and/or ex vivo antifungal (Candida albicans), antiviral (HIV-1) and antitumor (melanoma cells) activities. Alanine substitution of single residues of synthetic CDR peptides resulted in further differential increased/unaltered/decreased biological activity. The intriguing potential of Abs as source of antiinfective and antitumor therapeutics will be discussed, in light of recent advances in peptide design, stability and delivery.
- ItemSomente MetadadadosInhibition of melanoma metastasis by dual-peptlde PLGA NPS(Wiley, 2017) Arruda, Denise Costa; de Oliveira, Thais Dolzany; Fukuda Cursino, Patricia Harume [UNIFESP]; Carneiro Maia, Vera Susana; Berzaghi, Rodrigo [UNIFESP]; Travassos, Luiz R. [UNIFESP]; Tada, Dayane Batista [UNIFESP]Despite the positive results observed in vitro and in vivo, clinical trials with bioactive peptides are generally hampered by their fast degradation in the biological system. Two bioactive peptides, P20 (CSSRTMHHC and the combined peptide C (CVNHPAFACGYGHTMYYHHYQHHL) have been identified as anticancer therapeutics. Combined peptide C consists of peptide C (CVNHPAFAC), a tumor-homing peptide, conjugated to the antiangiogenic peptide HTMYYHHYQHHL with a GYG. In this work, PLGA NPs with peptide C were applied as a dual-peptide carrier for application in cancer therapy. Peptide P20 was loaded into the NPs and combined peptide C was conjugated to the NPs surface. These NPs were evaluated as a therapeutic system to treat metastatic melanoma. in vivo assays showed that P20 encapsulation in PLGA NPs enhanced its antitumor activity. The inhibitory activity of P20-PLGANPs was similar to the activity of non-encapsulated P20 in a dose fivefold higher. The inhibitory activity was even higher when P20PLGA NPs were functionalized with combined peptide C. P20PLGAPepC NPs reduced in 28% the number of lung nodules in a syngeneic model of metastatic melanoma as compared to untreated animals. Additionally to the better tumor targeting and the in situ release of P20, it is expected that the therapeutic efficiency of the dual-peptide PLGA NPs was further enhanced by a synergistic effect between P20 and combined peptide C. Our encouraging results showed that by enabling the co-delivery of two peptides and promoting tumor targeting, PLGA NPs coupled with peptide C is a promising platform for peptide-based cancer therapy.