In Vivo Imaging of Antileukemic Drug Asparaginase Reveals a Rapid Macrophage-Mediated Clearance from the Bone Marrow

Meer, Laurens T. van der; Terry, Samantha Y.A.; Schenau, Dorette S. van Ingen; Andree, Kiki; Franssen, Gerben M.; Roeleveld, Debbie M; Metselaar, Josbert M.; Reinheckel, Thomas; Hoogerbrugge, Peter M.; Boerman, Otto C.; Leeuwen, Frank N. van

doi:10.2967/jnumed.116.177741

Cited by 20 publications

(23 citation statements)

References 24 publications

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“…Therefore, as expected, staining peripheral blood cells from naïve mice with fluorochrome-labeled ASNase (Figure 1A) revealed no ASNase positive neutrophils, T cells, basophils, or B cells. Yet, consistent with the perceived mechanism of ASNase clearance involving macrophages of the reticuloendothelial system (RES), 25 a small percentage of macrophages/monocytes were ASNase positive (Figure 1A). Mice were given 100 mg of fluorochrome-labeled ASNase IV to verify its uptake by macrophages/monocytes.…”

Section: Resultssupporting

confidence: 78%

Hypersensitivity reactions to asparaginase in mice are mediated by anti-asparaginase IgE and IgG and the immunoglobulin receptors FcεRI and FcγRIII

et al. 2018

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Asparaginase is an important drug for the treatment of leukemias. However, anti-asparaginase antibodies often develop, which can decrease asparaginase drug levels and increase the risk of relapse. The aim of this study is to identify the immunoglobulin isotypes and receptors responsible for asparaginase hypersensitivities. Mice immunized with asparaginase developed anti-asparaginase IgG1 and IgE antibodies, and challenging the sensitized mice with asparaginase induced severe hypersensitivity reactions. Flow cytometry analysis indicated that macrophages/monocytes, neutrophils, and basophils bind asparaginase ex vivo through FcγRIII. In contrast, asparaginase binding to basophils was dependent on FcγRIII and IgE. Consistent with the asparaginase binding data, basophil activation by asparaginase occurred via both IgG/FcγRIII and IgE/FcεRI. Depleting >95% of B cells suppressed IgG but not IgE-dependent hypersensitivity, while depleting CD4+ T cells provided complete protection. Combined treatment with either anti-IgE mAb plus a platelet-activating factor receptor antagonist or anti-FcγRIII mAb plus a H1 receptor antagonist suppressed asparaginase hypersensitivity. The observations indicate that asparaginase hypersensitivity is mediated by antigen-specific IgG and/or IgE through the immunoglobulin receptors FcγRIII and FcεRI, respectively. Provided that these results apply to humans, they emphasize the importance of monitoring both IgE- and IgG-mediated asparaginase hypersensitivities in patients receiving this agent.

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Section: Resultssupporting

confidence: 78%

Hypersensitivity reactions to asparaginase in mice are mediated by anti-asparaginase IgE and IgG and the immunoglobulin receptors FcεRI and FcγRIII

et al. 2018

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“…In patients with ALL, ASNase is often administrated by intravenous infusion, where it is exposed to proteases that are necessary for hemostasis, fibrinolysis, and tissue repair [ 54 ]. ASNase is mostly inactivated by proteases such as cathepsin B and asparagine endopeptidase, expressed by leukemia cells and macrophages [ 55 , 56 , 57 , 58 ]. Therefore, the stability of non-PEGylated and PEGylated ASNase-P22 nanoreactors were evaluated in the presence of HBS at 37 °C and different times of incubation ( Figure 7 ).…”

Section: Resultsmentioning

confidence: 99%

Asparaginase-Phage P22 Nanoreactors: Toward a Biobetter Development for Acute Lymphoblastic Leukemia Treatment

et al. 2021

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Asparaginase (ASNase) is a biopharmaceutical for Acute Lymphoblastic Leukemia (ALL) treatment. However, it shows undesirable side effects such as short lifetimes, susceptibility to proteases, and immunogenicity. Here, ASNase encapsidation was genetically directed in bacteriophage P22-based virus-like particles (VLPs) (ASNase-P22 nanoreactors) as a strategy to overcome these challenges. ASNase-P22 was composed of 58.4 ± 7.9% of coat protein and 41.6 ± 8.1% of tetrameric ASNase. Km and Kcat values of ASNase-P22 were 15- and 2-fold higher than those obtained for the free enzyme, respectively. Resulting Kcat/Km value was 2.19 × 105 M−1 s−1. ASNase-P22 showed an aggregation of 60% of the volume sample when incubated at 37 °C for 12 days. In comparison, commercial asparaginase was completely aggregated under the same conditions. ASNase-P22 was stable for up to 24 h at 37 °C, independent of the presence of human blood serum (HBS) or whether ASNase-P22 nanoreactors were uncoated or PEGylated. Finally, we found that ASNase-P22 caused cytotoxicity in the leukemic cell line MOLT-4 in a concentration dependent manner. To our knowledge, this is the first work where ASNase is encapsulated inside of VLPs, as a promising alternative to fight ALL.

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“…It reaches plasma peak levels within 2 h after infusion, with accumulation in liver, spleen and bone marrow. Over time, l -asparaginase levels decrease in the circulation, remain constant in bone marrow and increase in spleen and liver – the residence of most phagocytic cells of the reticuloendothelial system ( van der Meer et al, 2017 ). l -Asparaginase degradation occurs possibly by means of plasmatic and intracellular proteases, such as lysosomal cysteine proteases B cathepsin and asparaginyl endopeptidase, which are expressed in macrophages ( Patel et al, 2009 ; van der Meer et al, 2017 ).…”

Section: Discussionmentioning

confidence: 99%

“…Over time, l -asparaginase levels decrease in the circulation, remain constant in bone marrow and increase in spleen and liver – the residence of most phagocytic cells of the reticuloendothelial system ( van der Meer et al, 2017 ). l -Asparaginase degradation occurs possibly by means of plasmatic and intracellular proteases, such as lysosomal cysteine proteases B cathepsin and asparaginyl endopeptidase, which are expressed in macrophages ( Patel et al, 2009 ; van der Meer et al, 2017 ). Macrophage depletion using clodronate prolongs the l -asparaginase half-life significantly, revealing the central role of these cells in the pharmacokinetics of this drug ( van der Meer et al, 2017 ).…”

Section: Discussionmentioning

confidence: 99%

“…l -Asparaginase degradation occurs possibly by means of plasmatic and intracellular proteases, such as lysosomal cysteine proteases B cathepsin and asparaginyl endopeptidase, which are expressed in macrophages ( Patel et al, 2009 ; van der Meer et al, 2017 ). Macrophage depletion using clodronate prolongs the l -asparaginase half-life significantly, revealing the central role of these cells in the pharmacokinetics of this drug ( van der Meer et al, 2017 ). The adjuvant effect of impurities that is likely to underlie the higher anti-asparaginase antibody titres observed in animals injected with Leuginase® may also be operative in the activation of the innate immune cells of the reticuloendothelial system, therefore contributing to faster l -asparaginase elimination.…”

Section: Discussionmentioning

confidence: 99%

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Low Bioavailability and High Immunogenicity of a New Brand of E. coli l-Asparaginase with Active Host Contaminating Proteins

et al. 2018

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The drug l-asparaginase is a cornerstone in the treatment of acute lymphoblastic leukemia (ALL). The native E. colil-asparaginase used in Brazil until recently has been manufactured by Medac/Kyowa. Then a decision was taken by the Ministry of Health in 2017 to supply the National Health System with a cheaper alternative l-asparaginase manufactured by Beijing SL Pharmaceutical, called Leuginase®. As opposed to Medac, the asparaginase that has been in use in Brazil under the trade name of Aginasa®, it was not possible to find a single entry with the terms Leuginase in the Pubmed repository. The apparent lack of clinical studies and the scarcity of safety information provided to the hospitals by the drug distributor created a debate among Brazilian pediatric oncologists about issues of safety and efficacy that culminated eventually in a court decision to halt the distribution of the new drug all over the country. Boldrini Children's Center, a non-profit pediatric oncohematology hospital, has conducted its own evaluation of Leuginase®. Mass spectrometry analyses found at least 12 different contaminating host-cell proteins (HCP) in Leuginase®. The presence of two HCP (beta-lactamase and malate dehydrogenase) was confirmed by orthogonal methodologies. The relative number of HCP peptides ranged from 19 to 37% of the total peptides identified by mass spectrometry. In vivo studies in mice injected with Leuginase® revealed a 3 times lower plasma bioavailability and the development of higher antibody titres against l-asparaginase in comparison to Aginasa®-injected animals. The decision to buy a new drug based on its price alone is not safe. Developing countries are especially vulnerable to cheaper alternatives that lack solid quality assurance.

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In Vivo Imaging of Antileukemic Drug Asparaginase Reveals a Rapid Macrophage-Mediated Clearance from the Bone Marrow

Cited by 20 publications

References 24 publications

Hypersensitivity reactions to asparaginase in mice are mediated by anti-asparaginase IgE and IgG and the immunoglobulin receptors FcεRI and FcγRIII

Hypersensitivity reactions to asparaginase in mice are mediated by anti-asparaginase IgE and IgG and the immunoglobulin receptors FcεRI and FcγRIII

Asparaginase-Phage P22 Nanoreactors: Toward a Biobetter Development for Acute Lymphoblastic Leukemia Treatment

Low Bioavailability and High Immunogenicity of a New Brand of E. coli l-Asparaginase with Active Host Contaminating Proteins

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