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1.
Mol Cancer Ther ; 20(10): 2008-2015, 2021 10.
Artículo en Inglés | MEDLINE | ID: mdl-34315765

RESUMEN

Advances in antibody engineering have enabled the construction of novel molecular formats in diverse shapes and sizes, providing new opportunities for cancer immunotherapeutic drug discovery while also revealing limitations in knowledge of structure-activity relationships. The current understanding of renal filtration originates largely from data reported for dextrans, IgG, albumin, and selected globular proteins. For a one-armed IgG-based T-cell imaging agent, we observed higher renal signal than typically observed for bivalent IgGs, prompting us to explore the factors governing renal filtration of biologics. We constructed a small representative library of IgG-like formats with varied shapes and hinge flexibilities falling broadly into two categories: branched molecules including bivalent IgG and (scFv)2Fc, and nonbranched molecules including one-armed IgG, one-armed IgG with stacked Fab, and one-armed IgG with a rigid IgA2 hinge. Transmission electron microscopy revealed Y-shaped structures for the branched molecules and pseudo-linear structures for the nonbranched molecules. Single-photon emission CT imaging, autoradiography, and tissue harvest studies demonstrated higher renal uptake and catabolism for nonbranched molecules relative to branched molecules. Among the nonbranched molecules, the one-armed IgG with rigid IgA2 hinge molecule demonstrated higher kidney uptake and decreased systemic exposure relative to molecules with a more flexible hinge. Our results show that differences in shape and hinge flexibility drive the increased glomerular filtration of one-armed relative to bivalent antibodies and highlight the practical advantages of using imaging to assess renal filtration properties. These findings are particularly relevant for T-cell-dependent bispecific molecules, many of which have nonstandard antibody structures.


Asunto(s)
Anticuerpos Biespecíficos/inmunología , Anticuerpos Monoclonales/inmunología , Barrera de Filtración Glomerular/metabolismo , Inmunoglobulina G/inmunología , Tomografía Computarizada por Tomografía Computarizada de Emisión de Fotón Único/métodos , Proteínas del Envoltorio Viral/inmunología , Animales , Anticuerpos Biespecíficos/administración & dosificación , Anticuerpos Monoclonales/administración & dosificación , Femenino , Barrera de Filtración Glomerular/efectos de los fármacos , Humanos , Inmunoglobulina G/clasificación , Ratones SCID
2.
Mol Cancer Ther ; 20(10): 1956-1965, 2021 10.
Artículo en Inglés | MEDLINE | ID: mdl-34253591

RESUMEN

T-cell-dependent bispecific antibodies (TDB) have been a major advancement in the treatment of cancer, allowing for improved targeting and efficacy for large molecule therapeutics. TDBs are comprised of one arm targeting a surface antigen on a cancer cell and another targeting an engaging surface antigen on a cytotoxic T cell. To impart this function, the antibody must be in a bispecific format as opposed to the more conventional bivalent format. Through in vitro and in vivo studies, we sought to determine the impact of changing antibody valency on solid tumor distribution and catabolism. A bivalent anti-HER2 antibody exhibited higher catabolism than its full-length monovalent binding counterpart in vivo by both invasive tissue harvesting and noninvasive single photon emission computed tomography/X-ray computed tomography imaging despite similar systemic exposures for the two molecules. To determine what molecular factors drove in vivo distribution and uptake, we developed a mechanistic model for binding and catabolism of monovalent and bivalent HER2 antibodies in KPL4 cells. This model suggests that observed differences in cellular uptake of monovalent and bivalent antibodies are caused by the change in apparent affinity conferred by avidity as well as differences in internalization and degradation rates of receptor bound antibodies. To our knowledge, this is the first study to directly compare the targeting abilities of monovalent and bivalent full-length antibodies. These findings may inform diverse antibody therapeutic modalities, including T-cell-redirecting therapies and drug delivery strategies relying upon receptor internalization.


Asunto(s)
Anticuerpos Biespecíficos/farmacología , Anticuerpos Biespecíficos/farmacocinética , Afinidad de Anticuerpos , Neoplasias de la Mama/tratamiento farmacológico , Receptor ErbB-2/antagonistas & inhibidores , Linfocitos T Citotóxicos/inmunología , Animales , Anticuerpos Biespecíficos/inmunología , Apoptosis , Neoplasias de la Mama/inmunología , Neoplasias de la Mama/patología , Proliferación Celular , Femenino , Humanos , Ratones , Ratones SCID , Receptor ErbB-2/inmunología , Distribución Tisular , Células Tumorales Cultivadas , Ensayos Antitumor por Modelo de Xenoinjerto
3.
Metab Eng Commun ; 9: e00098, 2019 Dec.
Artículo en Inglés | MEDLINE | ID: mdl-31720214

RESUMEN

Pseudomonas putida is a promising bacterial chassis for metabolic engineering given its ability to metabolize a wide array of carbon sources, especially aromatic compounds derived from lignin. However, this omnivorous metabolism can also be a hindrance when it can naturally metabolize products produced from engineered pathways. Herein we show that P. putida is able to use valerolactam as a sole carbon source, as well as degrade caprolactam. Lactams represent important nylon precursors, and are produced in quantities exceeding one million tons per year (Zhang et al., 2017). To better understand this metabolism we use a combination of Random Barcode Transposon Sequencing (RB-TnSeq) and shotgun proteomics to identify the oplBA locus as the likely responsible amide hydrolase that initiates valerolactam catabolism. Deletion of the oplBA genes prevented P. putida from growing on valerolactam, prevented the degradation of valerolactam in rich media, and dramatically reduced caprolactam degradation under the same conditions. Deletion of oplBA, as well as pathways that compete for precursors L-lysine or 5-aminovalerate, increased the titer of valerolactam from undetectable after 48 h of production to ~90 mg/L. This work may serve as a template to rapidly eliminate undesirable metabolism in non-model hosts in future metabolic engineering efforts.

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