Ekaterina Revskaya scite author profile

Purpose Protection of bone marrow against radiotoxicity during radioimmunotherapy and in some cases external beam radiation therapy such as hemi-body irradiation would permit administration of significantly higher doses to tumors, resulting in increased efficacy and safety of treatment. Melanin, a naturally occurring pigment, possesses radioprotective properties. We hypothesized that melanin, which is insoluble, could be delivered to the bone marrow by intravenously administrated melanin-covered nanoparticles (MNs) because of the human body's “self-sieving” ability, protecting it against ionizing radiation. Methods and Materials The synthesis of MNs was performed via enzymatic polymerization of 3,4-dihydroxyphenylalanine and/or 5-S-cysteinyl-3,4-dihydroxyphenylalanine on the surface of 20-nm plain silica nanoparticles. The biodistribution of radiolabeled MNs in mice was done at 3 and 24 h. Healthy CD-1 mice (Charles River Laboratories International, Inc., Wilmington, MA) or melanoma tumor–bearing nude mice were given MNs intravenously, 50 mg/kg of body weight, 3 h before either whole-body exposure to 125 cGy or treatment with 1 mCi of 188Re-labeled 6D2 melanin-binding antibody. Results Polymerization of melanin precursors on the surface of silica nanoparticles resulted in formation of a 15-nm-thick melanin layer as confirmed by light scattering, transmission electron microscopy, and immunofluorescence. The biodistribution after intravenous administration showed than MN uptake in bone marrow was 0.3% and 0.2% of injected dose per gram at 3 and 24 h, respectively, whereas pre-injection with pluronic acid increased the uptake to 6% and 3% of injected dose per gram, respectively. Systemic MN administration reduced hematologic toxicity in mice treated with external radiation or radioimmunotherapy, whereas no tumor protection by MNs was observed. Conclusions MNs or similar structures provide a novel approach to protection of bone marrow from ionizing radiation based on prevention of free radical formation by melanin.

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A Monoclonal Antibody to Bacillus anthracis Protective Antigen Defines a Neutralizing Epitope in Domain 1

Rivera

Nakouzi

Abboud³

et al. 2006

Infect Immun

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Antibody (Ab) responses to Bacillus anthracis toxins are protective, but relatively few protective monoclonal antibodies (MAbs) have been reported. Protective antigen (PA) is essential for the action of B. anthracis lethal toxin (LeTx) and edema toxin. In this study, we generated two MAbs to PA, MAbs 7.5G and 10F4. These MAbs did not compete for binding to PA, consistent with specificities for different epitopes. The MAbs were tested for their ability to protect a monolayer of cultured macrophages against toxin-mediated cytotoxicity. MAb 7.5G, the most-neutralizing MAb, bound to domain 1 of PA and reduced LeTx toxicity in BALB/c mice. Remarkably, MAb 7.5G provided protection without blocking the binding of PA or lethal factor or the formation of the PA heptamer complex. However, MAb 7.5G slowed the proteolytic digestion of PA by furin in vitro, suggesting a potential mechanism for Ab-mediated protection. These observations indicate that some Abs to domain 1 can contribute to host protection.Bacillus anthracis causes anthrax, a disease that primarily affects grazing animals. However, the fact that B. anthracis spores can be made into potent biological weapons has made this microbe a major focus of defense-related research. The primary B. anthracis virulence factors, toxin production and capsule formation, are encoded by two large plasmids, pXO1 and pXO2, respectively. B. anthracis toxins are made up of three proteins known as protective antigen (PA), lethal factor (LF), and edema factor (EF), which interact in a binary fashion to produce edema toxin (PA plus EF) and lethal toxin (PA plus LF; LeTx) (4). The three-dimensional structure of 83-kDa PA (PA 83 ) consists of four folding domains (20,23). PA 83 binds via domain 4 to anthrax toxin receptors in host cells. A cell-associated furin-like protease cleaves PA 83 domain 1, yielding 63-kDa and 20-kDa fragments known as PA 63 and PA 20 . The PA 63 fragment then polymerizes into a heptameric structure that binds EF or LF and promotes its entry into the cell.A role for antibody (Ab) in protection against B. anthracis toxins is strongly supported by experimental evidence (15,25). However, experiments with monoclonal Abs (MAbs) have produced mixed results. Several MAbs were tested in a guinea pig model, but only one was partially protective (12). Recently, Brossier et al. generated two neutralizing MAbs which bound domains 2 and 4 of PA 83 (2). The relative inefficacy of MAbs in comparison with immune sera may reflect the need for Abs to bind at multiple sites for optimal neutralization or to bind to nonneutralizing epitopes. The importance of understanding the relationship between specificity and neutralizing activity is further highlighted by the observation that some Abs can enhance LeTx toxicity (18). To this end, our group has generated two MAbs to PA 83 with one neutralizing MAb binding to domain 1, a location that would not be predicted to translate into protection, defining a new neutralizing epitope for this toxin component. MATERIALS AND METHODSB. anthracis P...

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Compton Scattering by Internal Shields Based on Melanin-Containing Mushrooms Provides Protection of Gastrointestinal Tract from Ionizing Radiation

Revskaya

Chu

Howell

et al. 2012

Cancer Biotherapy and Radiopharmaceuticals

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There is a need for radioprotectors that protect normal tissues from ionizing radiation in patients receiving high doses of radiation and during nuclear emergencies. We investigated the possibility of creating an efficient oral radioprotector based on the natural pigment melanin that would act as an internal shield and protect the tissues via Compton scattering followed by free radical scavenging. CD-1 mice were fed melanin-containing black edible mushrooms Auricularia auricila-judae before 9 Gy total body irradiation. The location of the mushrooms in the body before irradiation was determined by in vivo fluorescent imaging. Black mushrooms protected 80% of mice from the lethal dose, while control mice or those given melanin-devoid mushrooms died from gastrointestinal syndrome. The crypts of mice given black mushrooms showed less apoptosis and more cell division than those in control mice, and their white blood cell and platelet counts were restored at 45 days to preradiation levels. The role of melanin in radioprotection was proven by the fact that mice given white mushrooms supplemented with melanin survived at the same rate as mice given black mushrooms. The ability of melanincontaining mushrooms to provide remarkable protection against radiation suggests that they could be developed into oral radioprotectors.

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Pre-clinical evaluation and efficacy studies of a melanin-binding IgM antibody labeled with 188Re against experimental human metastatic melanoma in nude mice

Dadachova

Revskaya

Sesay

et al. 2008

Cancer Biology & Therapy

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Radiolabeled Melanin-Binding Peptides Are Safe and Effective in Treatment of Human Pigmented Melanoma in a Mouse Model of Disease

Dadachova

Moadel

Schweitzer

et al. 2006

Cancer Biotherapy and Radiopharmaceuticals

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The incidence of melanoma is rising, and therapeutic options for metastatic melanoma are limited. We report the results of experimental melanoma therapy with 188-Rhenium-labeled melanin-binding decapeptide ((188)RE-HYNIC-4B4) and a comprehensive safety evaluation of this treatment. (188)RE-HYNIC- 4B4 bound only to nonviable eumelanotic MNT1 and pheomelanotic SK-28-MEL human melanoma cells in vitro, as determined by immunofluorescence, which is consistent with the inaccessibility of intracellular melanin in live cells, and suggests specificity for tumors with a significant amount of extracellular melanin. Administration of 1 mCi (188)RE-HYNIC-4B4 to MNT1 tumor-bearing mice significantly slowed tumor growth, with the therapeutic effect being a result of specific binding to tumor melanin, as irrelevant (188)RE-labeled decapeptide did not produce therapeutic gain. Repeated doses of (188)RE-HYNIC-4B4 had a more profound effect on tumor growth than a single dose. Treatment of tumors with 0.3-0.4 cm diameter was more effective than of larger ones (0.5-0.7 cm). There was no difference in uptake of (188)REHYNIC- 4B4 in melanized tissues of black C57BL6 mice and no histologically apparent damage to these tissues in comparison with white BALB/C mice. Treatment of C57BL6 mice with (188)RE-HYNIC-4B4 did not change their behavior, as established by SHIRPA protocol, and did not cause damage to neurons and glial cells. These results indicate that radiolabeled melanin-binding peptides are efficient and safe in treatment of melanoma and could be potentially useful against this tumor.

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