Applying Antibodies Inside Cells: Principles and Recent Advances in Neurobiology, Virology and Oncology

Zhang, Congcong; Ötjengerdes, Rina M.; Roewe, Julian; Mejı́as, Rebeca; Marschall, Andrea L. J.

doi:10.1007/s40259-020-00419-w

Cited by 25 publications

(21 citation statements)

References 365 publications

(412 reference statements)

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“…In this study, intrabodies were expressed directly in the target tumor cells by electroporating tumors with scFv-expressing recombinant plasmids. However, direct delivery of scFvs as proteins is also feasible [ 28 ].…”

Section: Discussionmentioning

confidence: 99%

Intrabodies targeting human papillomavirus 16 E6 and E7 oncoproteins for therapy of established HPV-associated tumors

Paolini¹,

Amici

Carosi

et al. 2021

J Exp Clin Cancer Res

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Background The oncogenic activity of the high risk human papillomavirus type 16 (HPV16) is fully dependent on the E6 and E7 viral oncoproteins produced during viral infection. The oncoproteins interfere with cellular homeostasis by promoting proliferation, inhibiting apoptosis and blocking epithelial differentiation, driving the infected cells towards neoplastic progression. The causal relationship between expression of E6/E7 and cellular transformation allows inhibiting the oncogenic process by hindering the activity of the two oncoproteins. We previously developed and characterized some antibodies in single-chain format (scFvs) against the HPV16 E6 and E7 proteins, and demonstrated both in vitro and in vivo their antitumor activity consisting of protective efficacy against tumor progression of HPV16-positive cells. Methods Envisioning clinical application of the best characterized anti-HPV16 E6 and –HPV16 E7 scFvs, we verified their activity in the therapeutic setting, on already implanted tumors. Recombinant plasmids expressing the anti-HPV16 E6 scFvI7 with nuclear targeting sequence, or the anti-HPV16 E7 scFv43M2 with endoplasmic reticulum targeting sequence were delivered by injection followed by electroporation to three different preclinical models using C57/BL6 mice, and their effect on tumor growth was investigated. In the first model, the HPV16+ TC-1 Luc cells were used to implant tumors in mice, and tumor growth was measured by luciferase activity; in the second model, a fourfold number of TC-1 cells was used to obtain more aggressively growing tumors; in the third model, the HPV16+ C3 cells where used to rise tumors in mice. To highlight the scFv possible mechanism of action, H&E and caspase-3 staining of tumor section were performed. Results We showed that both the anti-HPV16 E6 and HPV16 E7 scFvs tested were efficacious in delaying tumor progression in the three experimental models and that their antitumor activity seems to rely on driving tumor cells towards the apoptotic pathway. Conclusion Based on our study, two scFvs have been identified that could represent a safe and effective treatment for the therapy of HPV16-associated lesions. The mechanism underlying the scFv effectiveness appears to be leading cells towards death by apoptosis. Furthermore, the validity of electroporation, a methodology allowed for human treatment, to deliver scFvs to tumors was confirmed.

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Section: Discussionmentioning

confidence: 99%

Intrabodies targeting human papillomavirus 16 E6 and E7 oncoproteins for therapy of established HPV-associated tumors

Paolini¹,

Amici

Carosi

et al. 2021

J Exp Clin Cancer Res

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“…Antibodies can be generated fairly rapidly once the protein (domain) under study can be obtained in suitable (recombinant) format for immunization. Single-chain variable fragments (scFvs) and nanobodies have been used to this end, but also synthetic alternatives are useful such as designed ankyrin repeat proteins (DARPins), affibodies (derived from protein A) or fibronectin folds (monobodies) (96,113,187).…”

Section: Manipulation Of Intracellular Proteins With Intrabodiesmentioning

confidence: 99%

Transforming nanobodies into high-precision tools for protein function analysis

Gettemans

Dobbelaer

2021

American Journal of Physiology-Cell Physiology

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Single domain antibodies, derived from camelid heavy antibodies (nanobodies®) or shark variable new antigen receptors, have attracted increasing attention in recent years due to their extremely versatile nature and opportunities they offer for downstream modification. Discovered more than three decades ago, these 120 amino acid (~15kDa) antibody fragments are known to bind their target with high specificity and affinity . Key features of nanobodies that make them very attractive include their single domain nature, small size, affordable high level expression in prokaroytes, and their cDNAs are routinely obtained in the process of their isolation. This facilitates and stimulates new experimental approaches. Hence, it allows researchers to formulate new answers to complex biomedical questions. Through elementary PCR-based technologies and chemical modification strategies, their primary structure can be altered almost at leisure whilst retaining their specificity and biological activity, transforming them into highly tailored tools that meet the increasing demands of current day biomedical research. In this review, various aspects of camelid Nanobodies are expounded, including intracellular delivery in recombinant format for manipulation of i.e. cytoplasmic targets, their derivatization to improve nanobody orientation as a capturing device, approaches to reversibly bind their target, their potential as protein silencing devices in cells, the development of strategies to transfer nanobodies through the blood brain barrier and their application in CAR-T experimentation. We also discuss some of their disadvantages and conclude with future prospects.

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“…Antibody engineering also allows cloning of scFv sequences into eukaryotic vectors equipped with intracellular localization signals, for the scFv expression in specific cell compartments as intrabodies. These can reach and recognize target antigens in the cellular compartments where they are located, with outcomes ranging from direct anti-gen blockade to indirect impairment of its activity through delocalization, to its targeted degradation [8,9].…”

Section: Different Antibody Formats: Mabs Scfvs and Nanobodiesmentioning

confidence: 99%

Targeting Human Papillomavirus-Associated Cancer by Oncoprotein-Specific Recombinant Antibodies

Donà

Bonito

Chiantore

et al. 2021

IJMS

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In recent decades, recombinant antibodies against specific antigens have shown great promise for the therapy of infectious diseases and cancer. Human papillomaviruses (HPVs) are involved in the development of around 5% of all human cancers and HPV16 is the high-risk genotype with the highest prevalence worldwide, playing a dominant role in all HPV-associated cancers. Here, we describe the main biological activities of the HPV16 E6, E7, and E5 oncoproteins, which are involved in the subversion of important regulatory pathways directly associated with all known hallmarks of cancer. We then review the state of art of the recombinant antibodies targeted to HPV oncoproteins developed so far in different formats, and outline their mechanisms of action. We describe the advantages of a possible antibody-based therapy against the HPV-associated lesions and discuss the critical issue of delivery to tumour cells, which must be addressed in order to achieve the desired translation of the antibodies from the laboratory to the clinic.

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Applying Antibodies Inside Cells: Principles and Recent Advances in Neurobiology, Virology and Oncology

Cited by 25 publications

References 365 publications

Intrabodies targeting human papillomavirus 16 E6 and E7 oncoproteins for therapy of established HPV-associated tumors

Intrabodies targeting human papillomavirus 16 E6 and E7 oncoproteins for therapy of established HPV-associated tumors

Transforming nanobodies into high-precision tools for protein function analysis

Targeting Human Papillomavirus-Associated Cancer by Oncoprotein-Specific Recombinant Antibodies

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