Radioimmunotherapy for the treatment of infectious diseases: a comprehensive update

INTRODUCTION

Corona Virus Disease of 2019 (COVID-19) pandemic has renewed interest in monoclonal antibodies for treating infectious diseases. During last two decades experimental data has been accumulated showing the potential of radioimmunotherapy (RIT) of infectious diseases. In addition, COVID-19 pandemic has created a novel landscape for opportunistic fungal infections in post-COVID-19 patients resulting from severe immune suppression.

AREAS COVERED

We analyze recent results on targeting "pan-antigens" shared by fungal pathogens in mouse models and in healthy dogs; on developing RIT of prosthetic joint infections (PJI); examine RIT as potential human immunodeficiency virus (HIV) cure strategy and analyze its mechanisms and safety. Literature review was performed using PubMed and Google Scholar and includes relevant articles from 2000 to 2022.

EXPERT OPINION

Some of the RIT of infection applications can, hopefully, be moved into the clinic earlier than others after preclinical development: (1) RIT of opportunistic fungal infections might contribute to saving lives as current antifungal drugs do not work in severely immunocompromised patients; (2) RIT of patients with PJI. Success of RIT in these patients will allow to expand the application of RIT to other similarly vulnerable patients' populations such as cancer patients with weakened immune system and organ transplant recipients.

The chemokines secretion and the oxidative stress are targets of low-level laser therapy in allergic lung inflammation

Recent studies show that low-level laser therapy (LLLT) has an important anti-inflammatory action in acute lung inflammation. The present work explored if laser therapy is able to antagonize eosinophils and allergic inflammation induced by oxidative stress in Balb/c mice. Forty-eight hours after challenge, the leukocyte counting, ROS and nitrite/nitrate level, RANTES, CCL3, CCL8 as well as eotaxins were measured in the bronchoalveolar lavage fluid (BALF) of laser-treated mice or not. Into the lung, some chemokines receptors, the iNOS activity and mRNA expression, and the activities of superoxide dismutase (SOD), catalase, gluthatione, NADPH oxidase activities and thiobarbituric acid reactive species (T-Bars) were measured. Laser-treated allergic mice presented reduction of both the ICAM-1 and eosinophil in the lungs. RANTES, CCL8, CCL3 and eotaxins were reduced in BALF of laser-treated allergic mice. In allergic mice lung LLLT decreased the CCR1 and CCR3 and restored the oxidative stress balance as well. Laser decreased the lipidic peroxidation in allergic mice lung as much as increased SOD, GPx and GR. It shows that LLLT on allergic lung inflammation involves leukocyte-attractant chemokines and endogenous antioxidant. Based on results, LLLT may ultimately become a non- invasive option in allergic lung disease treatment. The top figure illustrates the laser decreasing the eosinophils migration into BALF and the bottom figure shows the laser upregulating the expression of heme-oxygenase (anti-oxidant enzyme) in lung tissue anti-oxidant.