Targeted alpha therapy using short-lived alpha-particles and the promise of nanobodies as targeting vehicle

Yana Dekempeneer; Marleen Keyaerts; Ahmet Krasniqi; Janik Puttemans; Serge Muyldermans; Tony Lahoutte; Matthias D'huyvetter; Nick Devoogdt

doi:10.1080/14712598.2016.1185412

Targeted alpha therapy using short-lived alpha-particles and the promise of nanobodies as targeting vehicle

Yana Dekempeneer, Marleen Keyaerts, Ahmet Krasniqi, Janik Puttemans, Serge Muyldermans, Tony Lahoutte, Matthias D'huyvetter, Nick Devoogdt

Research output: Contribution to journal › Article › peer-review

152 Citations (Scopus)

Abstract

INTRODUCTION: The combination of a targeted biomolecule that specifically defines the target and a radionuclide that delivers a cytotoxic payload offers a specific way to destroy cancer cells. Targeted radionuclide therapy (TRNT) aims to deliver cytotoxic radiation to cancer cells and causes minimal toxicity to surrounding healthy tissues. Recent advances using α-particle radiation emphasizes their potential to generate radiation in a highly localized and toxic manner because of their high level of ionization and short range in tissue.

AREAS COVERED: We review the importance of targeted alpha therapy (TAT) and focus on nanobodies as potential beneficial vehicles. In recent years, nanobodies have been evaluated intensively as unique antigen-specific vehicles for molecular imaging and TRNT.

EXPERT OPINION: We expect that the efficient targeting capacity and fast clearance of nanobodies offer a high potential for TAT. More particularly, we argue that the nanobodies' pharmacokinetic properties match perfectly with the interesting decay properties of the short-lived α-particle emitting radionuclides Astatine-211 and Bismuth-213 and offer an interesting treatment option particularly for micrometastatic cancer and residual disease.

Original language	English
Pages (from-to)	1035-47
Number of pages	13
Journal	Expert Opinion on Biological Therapy
Volume	16
Issue number	8
DOIs	https://doi.org/10.1080/14712598.2016.1185412
Publication status	Published - Aug 2016

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title = "Targeted alpha therapy using short-lived alpha-particles and the promise of nanobodies as targeting vehicle",

abstract = "INTRODUCTION: The combination of a targeted biomolecule that specifically defines the target and a radionuclide that delivers a cytotoxic payload offers a specific way to destroy cancer cells. Targeted radionuclide therapy (TRNT) aims to deliver cytotoxic radiation to cancer cells and causes minimal toxicity to surrounding healthy tissues. Recent advances using α-particle radiation emphasizes their potential to generate radiation in a highly localized and toxic manner because of their high level of ionization and short range in tissue.AREAS COVERED: We review the importance of targeted alpha therapy (TAT) and focus on nanobodies as potential beneficial vehicles. In recent years, nanobodies have been evaluated intensively as unique antigen-specific vehicles for molecular imaging and TRNT.EXPERT OPINION: We expect that the efficient targeting capacity and fast clearance of nanobodies offer a high potential for TAT. More particularly, we argue that the nanobodies' pharmacokinetic properties match perfectly with the interesting decay properties of the short-lived α-particle emitting radionuclides Astatine-211 and Bismuth-213 and offer an interesting treatment option particularly for micrometastatic cancer and residual disease.",

author = "Yana Dekempeneer and Marleen Keyaerts and Ahmet Krasniqi and Janik Puttemans and Serge Muyldermans and Tony Lahoutte and Matthias D'huyvetter and Nick Devoogdt",

year = "2016",

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language = "English",

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T1 - Targeted alpha therapy using short-lived alpha-particles and the promise of nanobodies as targeting vehicle

AU - Dekempeneer, Yana

AU - Keyaerts, Marleen

AU - Krasniqi, Ahmet

AU - Puttemans, Janik

AU - Muyldermans, Serge

AU - Lahoutte, Tony

AU - D'huyvetter, Matthias

AU - Devoogdt, Nick

PY - 2016/8

Y1 - 2016/8

N2 - INTRODUCTION: The combination of a targeted biomolecule that specifically defines the target and a radionuclide that delivers a cytotoxic payload offers a specific way to destroy cancer cells. Targeted radionuclide therapy (TRNT) aims to deliver cytotoxic radiation to cancer cells and causes minimal toxicity to surrounding healthy tissues. Recent advances using α-particle radiation emphasizes their potential to generate radiation in a highly localized and toxic manner because of their high level of ionization and short range in tissue.AREAS COVERED: We review the importance of targeted alpha therapy (TAT) and focus on nanobodies as potential beneficial vehicles. In recent years, nanobodies have been evaluated intensively as unique antigen-specific vehicles for molecular imaging and TRNT.EXPERT OPINION: We expect that the efficient targeting capacity and fast clearance of nanobodies offer a high potential for TAT. More particularly, we argue that the nanobodies' pharmacokinetic properties match perfectly with the interesting decay properties of the short-lived α-particle emitting radionuclides Astatine-211 and Bismuth-213 and offer an interesting treatment option particularly for micrometastatic cancer and residual disease.

AB - INTRODUCTION: The combination of a targeted biomolecule that specifically defines the target and a radionuclide that delivers a cytotoxic payload offers a specific way to destroy cancer cells. Targeted radionuclide therapy (TRNT) aims to deliver cytotoxic radiation to cancer cells and causes minimal toxicity to surrounding healthy tissues. Recent advances using α-particle radiation emphasizes their potential to generate radiation in a highly localized and toxic manner because of their high level of ionization and short range in tissue.AREAS COVERED: We review the importance of targeted alpha therapy (TAT) and focus on nanobodies as potential beneficial vehicles. In recent years, nanobodies have been evaluated intensively as unique antigen-specific vehicles for molecular imaging and TRNT.EXPERT OPINION: We expect that the efficient targeting capacity and fast clearance of nanobodies offer a high potential for TAT. More particularly, we argue that the nanobodies' pharmacokinetic properties match perfectly with the interesting decay properties of the short-lived α-particle emitting radionuclides Astatine-211 and Bismuth-213 and offer an interesting treatment option particularly for micrometastatic cancer and residual disease.

U2 - 10.1080/14712598.2016.1185412

DO - 10.1080/14712598.2016.1185412

M3 - Article

C2 - 27145158

SN - 1471-2598

VL - 16

SP - 1035

EP - 1047

JO - Expert Opinion on Biological Therapy

JF - Expert Opinion on Biological Therapy

IS - 8

ER -

Targeted alpha therapy using short-lived alpha-particles and the promise of nanobodies as targeting vehicle

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