Lorenzo Depau scite author profile

Human monoclonal antibodies are safe, preventive and therapeutic tools, that can be rapidly developed to help restore the massive health and economic disruption caused by the coronavirus disease 2019 (COVID-19) pandemic. By single cell sorting 4,277 SARS-CoV-2 spike protein specific memory B cells from 14 COVID-19 survivors, 453 neutralizing antibodies were identified. The most potent neutralizing antibodies recognized the spike protein receptor binding domain, followed in potency by antibodies that recognize the S1 domain, the spike protein trimer and the S2 subunit. Only 1.4% of them neutralized the authentic virus with a potency of 1-10 ng/mL. The most potent monoclonal antibody, engineered to reduce the risk of antibody dependent enhancement and prolong half-life, neutralized the authentic wild type virus and emerging variants containing D614G, E484K and N501Y substitutions. Prophylactic and therapeutic efficacy in the hamster model was observed at 0.25 and 4 mg/kg respectively in absence of Fc-functions.

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Insights into the role of sulfated glycans in cancer cell adhesion and migration through use of branched peptide probe

Brunetti

Depau

Falciani

et al. 2016

Sci Rep

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The tetra-branched peptide NT4 selectively binds to different human cancer cells and tissues. NT4 specifically binds to sulfated glycosaminoglycans on cancer cell membranes. Since sulfated glycosaminoglycans are involved in cancer cell interaction with the extracellular matrix, we evaluated the effect of NT4 on cancer cell adhesion and migration. We demonstrated here that the branched peptide NT4 binds sulfated glycosaminoglycans with high affinity and with preferential binding to heparan sulfate. NT4 inhibits cancer cell adhesion and migration on different proteins, without modifying cancer cell morphology or their ability to produce protrusions, but dramatically affecting the directionality and polarity of cell movement. Results obtained by taking advantage of the selective targeting of glycosaminoglycans chains by NT4, provide insights into the role of heparan sulfate proteoglycans in cancer cell adhesion and migration and suggest a determinant role of sulfated glycosaminoglycans in the control of cancer cell directional migration.

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Tumor-selective peptide-carrier delivery of Paclitaxel increases in vivo activity of the drug

Brunetti

Pillozzi

Falciani

et al. 2015

Sci Rep

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Taxanes are highly effective chemotherapeutic drugs against proliferating cancer and an established option in the standard treatment of ovarian and breast cancer. However, treatment with paclitaxel is associated with severe side effects, including sensory axonal neuropathy, and its poor solubility in water complicates its formulation. In this paper we report the in vitro and in vivo activity of a new form of paclitaxel, modified for conjugation with a tumor-selective tetrabranched peptide carrier (NT4). NT4 selectively targets tumor cells by binding to membrane sulfated glycosaminoglycans (GAG) and to endocytic receptors, like LRP1 and LRP6, which are established tumor markers. Biological activity of NT4-paclitaxel was tested in vitro on MDA-MB 231 and SKOV-3 cell lines, representing breast and ovarian cancer, respectively, and in vivo in an orthotopic mouse model of human breast cancer. Using in vivo bioluminescence imaging, we found that conjugation of paclitaxel with the NT4 peptide led to increased therapeutic activity of the drug in vivo. NT4-paclitaxel induced tumor regression, whereas treatment with unconjugated paclitaxel only produced a reduction in tumor growth. Moreover, unlike paclitaxel, NT4-paclitaxel is very hydrophilic, which may improve its pharmacokinetic profile and allow the use of less toxic dilution buffers, further decreasing its general chemotherapic toxicity.

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Cancer Selectivity of Tetrabranched Neurotensin Peptides Is Generated by Simultaneous Binding to Sulfated Glycosaminoglycans and Protein Receptors

et al. 2013

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In previous papers we demonstrated that tetrabranched peptides containing the sequence of human neurotensin, NT4, are much more selective than native monomeric analogues for binding to different human cancer cells and tissues. We show here that the much higher binding of NT4 peptides, with respect to native neurotensin, to either cancer cell lines or human cancer surgical samples is generated by a switch in selectivity toward additional membrane receptors, which are specifically expressed by different human cancers. We demonstrate that the branched structure provides NT4 with ability to bind heparin and receptors belonging to the low density lipoprotein receptor (LDLR) family, known to be involved in cancer biology. Systematic modification of neurotensin sequence in NT4 peptides led to identification of a multimeric positively charged motif, which mediates interaction with both heparin and endocytic receptors. Our findings provide the molecular basis for construction of cancer theranostics with high cancer selectivity.

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Extremely potent human monoclonal antibodies from convalescent Covid-19 patients

Andreano

Nicastri

Paciello

et al. 2020

Preprint

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SUMMARYHuman monoclonal antibodies are safe, preventive and therapeutic tools, that can be rapidly developed to help restore the massive health and economic disruption caused by the Covid-19 pandemic. By single cell sorting 4277 SARS-CoV-2 spike protein specific memory B cells from 14 Covid-19 survivors, 453 neutralizing antibodies were identified and 220 of them were expressed as IgG. Up to 65,9% of monoclonals neutralized the wild type virus at a concentration of >500 ng/mL, 23,6% neutralized the virus in the range of 100 - 500 ng/mL and 9,1% had a neutralization potency in the range of 10 - 100 ng/mL. Only 1,4% neutralized the authentic virus with a potency of 1-10 ng/mL. We found that the most potent neutralizing antibodies are extremely rare and recognize the RBD, followed in potency by antibodies that recognize the S1 domain, the S-protein trimeric structure and the S2 subunit. The three most potent monoclonal antibodies identified were able to neutralize the wild type and D614G mutant viruses with less than 10 ng/mL and are good candidates for the development of prophylactic and therapeutic tools against SARS-CoV-2.One Sentence SummaryExtremely potent neutralizing human monoclonal antibodies isolated from Covid-19 convalescent patients for prophylactic and therapeutic interventions.

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Lorenzo Depau

Extremely potent human monoclonal antibodies from COVID-19 convalescent patients

Insights into the role of sulfated glycans in cancer cell adhesion and migration through use of branched peptide probe

Tumor-selective peptide-carrier delivery of Paclitaxel increases in vivo activity of the drug

Cancer Selectivity of Tetrabranched Neurotensin Peptides Is Generated by Simultaneous Binding to Sulfated Glycosaminoglycans and Protein Receptors

Extremely potent human monoclonal antibodies from convalescent Covid-19 patients

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