Radioimmunotherapy of Infectious Diseases

Overview

Journal Semin Nucl Med

Specialty Nuclear Medicine

Date 2009 Feb 4

PMID 19187806

Citations 17

Authors

Ekaterina Dadachova

Arturo Casadevall

Affiliations

Soon will be listed here.

Abstract

The need for novel approaches to treat infectious diseases is obvious and urgent. This situation has renewed interest in the use of monoclonal antibodies (mAbs) to treat infectious diseases. During the last 5 years, radioimmunotherapy (RIT), a modality developed for cancer treatment, has been successfully adapted for the treatment of experimental fungal (C. neoformans and H. capsulatum), bacterial (S. pneumoniae and B. anthracis), and viral (HIV-1) infections. RIT produced none or only transient hematological toxicity in experimental animals. Investigation of radiobiological mechanisms of RIT of infections showed that microbial cells are killed by both "direct-hit" and "cross-fire" radiation. mAbs radiolabeled with either alpha- or beta-emitters stimulated apoptosis-like cell death, whereas only mAbs radiolabeled with alpha-emitter (213)Bi also decreased the metabolic activity of microbial cells. The success of this approach in laboratory studies, combined with earlier nuclear medicine experience in preclinical and clinical studies using radiolabeled organism-specific antibodies for imaging of infections, provides encouragement for the feasibility of therapeutically targeting microbes with labeled antibodies. We envision that first the organism-specific mAbs will be radiolabeled with imaging radionuclides such as (99m)Tc or (111)In to localize the sites of infection with single-photon emission computed tomography, followed by RIT with (188)Re- or (90)Y-labeled mAb, respectively. Also, immuno-position emission tomogrpahy might be used to image infection before treatment if such positron-emitting radionuclides as (86)Y (matching pair for (90)Y) or (124)I (matching pair for (131)I) are available. It might be possible to create a so-called "pan-antibody" that would recognize an antigen shared by a particular class of human pathogens such as fungi, for example. The availability of such antibodies would eliminate the necessity of having antibodies specific for each particular microorganism and would enormously enhance the development of RIT of infectious diseases.

Citing Articles

Preclinical Models for Cryptococcosis of the CNS and Their Characterization Using In Vivo Imaging Techniques.

Roosen L, Maes D, Musetta L, Himmelreich U J Fungi (Basel). 2024; 10(2).

PMID: 38392818 PMC: 10890286. DOI: 10.3390/jof10020146.

Radionuclide Imaging of Fungal Infections and Correlation with the Host Defense Response.

Ankrah A, Sathekge M, Dierckx R, Glaudemans A J Fungi (Basel). 2021; 7(6).

PMID: 34067410 PMC: 8224611. DOI: 10.3390/jof7060407.

A theranostic approach based on radiolabeled antiviral drugs, antibodies and CRISPR-associated proteins for early detection and treatment of SARS-CoV-2 disease.

Shiri I, Abdollahi H, Atashzar M, Rahmim A, Zaidi H Nucl Med Commun. 2020; 41(9):837-840.

PMID: 32796470 PMC: 7485524. DOI: 10.1097/MNM.0000000000001269.

Radioimmunotherapy as a Novel Approach in HIV, Bacterial, and Fungal Infectious Diseases.

Helal M, Dadachova E Cancer Biother Radiopharm. 2018; 33(8):330-335.

PMID: 30133305 PMC: 6207155. DOI: 10.1089/cbr.2018.2481.

Characterization of the antifungal functions of a WGA-Fc (IgG2a) fusion protein binding to cell wall chitin oligomers.

Liedke S, Miranda D, Gomes K, Goncalves J, Frases S, Nosanchuk J Sci Rep. 2017; 7(1):12187.

PMID: 28939893 PMC: 5610272. DOI: 10.1038/s41598-017-12540-y.

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