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30 results on '"Malo, Mackenzie E."'

5. Comparative Molecular Characterization and Pharmacokinetics of IgG1-Fc and Engineered Fc Human Antibody Variants to Insulin-like Growth Factor 2 Receptor (IGF2R).

Author

Prabaharan, Chandra B., Giri, Sabeena, Allen, Kevin J. H., Bato, Katrina E. M., Mercado, Therese R., Malo, Mackenzie E., Carvalho, Jorge L. C., Dadachova, Ekaterina, and Uppalapati, Maruti

Subjects
INSULIN-like growth factor receptors, SOMATOMEDIN A, ENDOCYTOSIS, ERGONOMICS, PHARMACOKINETICS, IMMUNOGLOBULINS, FC receptors
Abstract

Novel therapeutic approaches are much needed for the treatment of osteosarcoma. Targeted radionuclide therapy (TRT) and radioimmunotherapy (RIT) are promising approaches that deliver therapeutic radiation precisely to the tumor site. We have previously developed a fully human antibody, named IF3, that binds to insulin-like growth factor 2 receptor (IGF2R). IF3 was used in TRT to effectively inhibit tumor growth in osteosarcoma preclinical models. However, IF3's relatively short half-life in mice raised the need for improvement. We generated an Fc-engineered version of IF3, termed IF3δ, with amino acid substitutions known to enhance antibody half-life in human serum. In this study, we confirmed the specific binding of IF3δ to IGF2R with nanomolar affinity, similar to wild-type IF3. Additionally, IF3δ demonstrated binding to human and mouse neonatal Fc receptors (FcRn), indicating the potential for FcRn-mediated endocytosis and recycling. Biodistribution studies in mice showed a higher accumulation of IF3δ in the spleen and bone than wild-type IF3, likely attributed to abnormal spleen expression of IGF2R in mice. Therefore, the pharmacokinetics data from mouse xenograft models may not precisely reflect their behavior in canine and human patients. However, the findings suggest both IF3 and IF3δ as promising options for the RIT of osteosarcoma. [ABSTRACT FROM AUTHOR]

Published
2023
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6. A Theranostic Approach to Imaging and Treating Melanoma with 203 Pb/ 212 Pb-Labeled Antibody Targeting Melanin.

Author

Jiao, Rubin, Allen, Kevin J. H., Malo, Mackenzie E., Yilmaz, Orhan, Wilson, John, Nelson, Bryce J. B., Wuest, Frank, and Dadachova, Ekaterina

Subjects
THERAPEUTIC use of monoclonal antibodies, MOLECULAR diagnosis, MELANINS, IN vivo studies, MELANOMA, ANIMAL experimentation, DIAGNOSTIC imaging, RESEARCH funding, DOSE-effect relationship in pharmacology, MICE, RADIOIMMUNOTHERAPY
Abstract

Simple Summary: Metastatic melanoma is a deadly disease that claims thousands of lives each year despite the introduction of several new drugs into the clinic over the past decade, inspiring the need for novel therapeutics. We investigate targeting melanin pigment, which causes melanoma, with protein molecules called antibodies, which carry a radioactive payload to visualize or treat melanoma tumors. In this study, we imaged and treated melanoma in mice using a c8C3 antibody to melanin and two radioisotopes of lead—Lead-203 for imaging and Lead-212 for therapy. Imaging with Lead-203-bound antibodies allowed for visualization of the tumors in mice, while treatment with Lead-212-bound antibodies slowed down the growth of these aggressive tumors. The treatment was not toxic to mice. We concluded that the melanin-targeting Lead-203/Lead-212-bound c8C3 antibody is a promising agent for imaging and therapy of metastatic melanoma (so-called theranostic), which warrants further investigation. Metastatic melanoma is a deadly disease that claims thousands of lives each year despite the introduction of several immunotherapeutic agents into the clinic over the past decade, inspiring the development of novel therapeutics and the exploration of combination therapies. Our investigations target melanin pigment with melanin-specific radiolabeled antibodies as a strategy to treat metastatic melanoma. In this study, a theranostic approach was applied by first labeling a chimeric antibody targeting melanin, c8C3, with the SPECT radionuclide 203Pb for microSPECT/CT imaging of C57Bl6 mice bearing B16-F10 melanoma tumors. Imaging was followed by radioimmunotherapy (RIT), whereby the c8C3 antibody is radiolabeled with a 212Pb/212Bi "in vivo generator", which emits cytotoxic alpha particles. Using microSPECT/CT, we collected sequential images of B16-F10 murine tumors to investigate antibody biodistribution. Treatment with the 212Pb/212Bi-labeled c8C3 antibody demonstrated a dose-response in tumor growth rate in the 5–10 µCi dose range when compared to the untreated and radiolabeled control antibody and a significant prolongation in survival. No hematologic or systemic toxicity of the treatment was observed. However, administration of higher doses resulted in a biphasic tumor dose response, with the efficacy of treatment decreasing when the administered doses exceeded 10 µCi. These results underline the need for more pre-clinical investigation of targeting melanin with 212Pb-labeled antibodies before the clinical utility of such an approach can be assessed. [ABSTRACT FROM AUTHOR]

Published
2023
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7. Effects of Melanized Bacteria and Soluble Melanin on the Intestinal Homeostasis and Microbiome In Vivo.

Author

Zhang, Yong-guo, Malo, Mackenzie E., Tschirhart, Tanya, Xia, Yinglin, Wang, Zheng, Dadachova, Ekaterina, and Sun, Jun

Subjects
ESCHERICHIA coli, MELANINS, GUT microbiome, INTESTINAL physiology, BACTERIAL colonies, INFLAMMATORY bowel diseases, INTESTINAL mucosa
Abstract

Radiation damage is associated with inflammation and immunity in the intestinal mucosa, including gut microbiota. Melanin has a unique capacity to coordinate a biological reaction in response to environmental stimuli, such as radiation exposure. Thus, melanin and melanized microbes have potential to be used for mitigation of injury induced by radiation. The purpose of the current study is to examine the safety of these agents for future targeting gut microbiome to prevent radiation-induced injury. We administered mice with soluble allomelanin and observed its effect on the intestinal physiology and body weight. We then established a melanized bacterial strain in probiotic E. coli Nissle. We measured the body weight of the mice treated with melanized E. coli Nissle. We showed the enhanced bacterial abundance and colonization of the melanized bacteria E. coli Nissle in the intestine. Melanized E. coli Nissle colonized the colon in less than 3 h and showed consistent colonization over 24 h post one oral gavage. We did not find significant changes of bodyweight in the mice treated with melanized bacteria. We did not observe any inflammation in the intestine. These results demonstrate the safety of soluble melanin and melanin-producing bacteria and will support the future studies to treat radiation-induced injuries and restore dysbiosis. [ABSTRACT FROM AUTHOR]

Published
2023
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8. Targeting Melanin in Melanoma with Radionuclide Therapy.

Author

Allen, Kevin J. H., Malo, Mackenzie E., Jiao, Rubin, and Dadachova, Ekaterina

Subjects
*DACARBAZINE, *MELANINS, *RADIOISOTOPES, *CELL membranes, *LEAF development, *MELANOGENESIS, *MELANOMA
Abstract

Nearly 100,000 individuals are expected to be diagnosed with melanoma in the United States in 2022. Treatment options for late-stage metastatic disease up until the 2010s were few and offered only slight improvement to the overall survival. The introduction of B-RAF inhibitors and anti-CTLA4 and anti-PD-1/PD-L1 immunotherapies into standard of care brought measurable increases in the overall survival across all stages of melanoma. Despite the improvement in the survival statistics, patients treated with targeted therapies and immunotherapies are subject to very serious side effects, the development of drug resistance, and the high costs of treatment. This leaves room for the development of novel approaches as well as for the exploration of novel combination therapies for the treatment of metastatic melanoma. One such approach is targeting melanin pigment with radionuclide therapy. Advances in melanin-targeting radionuclide therapy of melanoma can be viewed from two spheres: (1) radioimmunotherapy (RIT) and (2) radiolabeled small molecules. The investigation of mechanisms of the action and efficacy of targeting melanin in melanoma treatment by RIT points to the involvement of the immune system such as complement dependent cytotoxicity. The combination of RIT with immunotherapy presents synergistic killing in mouse melanoma models. The field of radiolabeled small molecules is focused on radioiodinated compounds that have the ability to cross the cellular membranes to access intracellular melanin and can be applied in both therapy and imaging as theranostics. Clinical applications of targeting melanin with radionuclide therapies have produced encouraging results and clinical work is on-going. Continued work on targeting melanin with radionuclide therapy as a monotherapy, or possibly in combination with standard of care agents, has the potential to strengthen the current treatment options for melanoma patients. [ABSTRACT FROM AUTHOR]

Published
2022
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10. Physiological role and regulation of the [Na.sup.+]/[H.sup.+] exchanger

Author

Malo, Mackenzie E. and Fliegel, Larry

Subjects
Diagnosis, Physiological aspects, Research, Risk factors, Health aspects, Heart hypertrophy -- Risk factors -- Diagnosis -- Research, Cancer cells -- Physiological aspects -- Health aspects -- Research, Membrane proteins -- Physiological aspects -- Research -- Health aspects, Heart enlargement -- Risk factors -- Diagnosis -- Research
Abstract

In mammalian eukaryotic cells, the [Na.sup.+]/[H.sup.+] exchanger is a family of membrane proteins that regulates ions fluxes across membranes. Plasma membrane isoforms of this protein extrude 1 intracellular proton in [...]

Published
2006

11. Antagonistic Gcn5-Hda1 interactions revealed by mutations to the Anaphase Promoting Complex in yeast

Author

Malo Mackenzie E, Menzel Johannes, Turner Emma L, Islam Azharul, and Harkness Troy AA

Subjects
Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282, Cytology, QH573-671
Abstract

Abstract Background Histone post-translational modifications are critical for gene expression and cell viability. A broad spectrum of histone lysine residues have been identified in yeast that are targeted by a variety of modifying enzymes. However, the regulation and interaction of these enzymes remains relatively uncharacterized. Previously we demonstrated that deletion of either the histone acetyltransferase (HAT) GCN5 or the histone deacetylase (HDAC) HDA1 exacerbated the temperature sensitive (ts) mutant phenotype of the Anaphase Promoting Complex (APC) apc5CA allele. Here, the apc5CA mutant background is used to study a previously uncharacterized functional antagonistic genetic interaction between Gcn5 and Hda1 that is not detected in APC5 cells. Results Using Northerns, Westerns, reverse transcriptase PCR (rtPCR), chromatin immunoprecipitation (ChIP), and mutant phenotype suppression analysis, we observed that Hda1 and Gcn5 appear to compete for recruitment to promoters. We observed that the presence of Hda1 can partially occlude the binding of Gcn5 to the same promoter. Occlusion of Gcn5 recruitment to these promoters involved Hda1 and Tup1. Using sequential ChIP we show that Hda1 and Tup1 likely form complexes at these promoters, and that complex formation can be increased by deleting GCN5. Conclusions Our data suggests large Gcn5 and Hda1 containing complexes may compete for space on promoters that utilize the Ssn6/Tup1 repressor complex. We predict that in apc5CA cells the accumulation of an APC target may compensate for the loss of both GCN5 and HDA1.

Published
2011
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12. Evaluation of novel highly specific antibodies to cancer testis antigen Centrin‐1 for radioimmunoimaging and radioimmunotherapy of pancreatic cancer.

Author

Jiao, Rubin, Allen, Kevin J. H., Malo, Mackenzie E., Helal, Muath, Jiang, Zewei, Smart, Karishma, Buhl, Susan V., Rickles, David, Bryan, Ruth A., and Dadachova, Ekaterina

Subjects
TESTICULAR cancer, IMMUNE serums, PANCREATIC cancer, RADIOIMMUNOTHERAPY, IMMUNOGLOBULINS
Abstract

Background: Pancreatic ductal adenocarcinoma (PDAC) accounts for >90% of pancreatic malignancies, and has median survival of <6 months. There is an urgent need for diagnostic and therapeutic options for PDAC. Centrin1 (CETN1) is a novel member of Cancer/Testis Antigens, with a 25‐fold increase of CETN1 gene expression in PDX from PDAC patients. The absence of selective anti‐CETN1 antibodies is hampering CETN1 use for diagnosis and therapy. Here we report the generation of highly specific for CETN1 antibodies and their evaluation for radioimmunoimaging and radioimmunotherapy (RIT) of experimental PDAC. Methods: The antibodies to CETN1 were generated via mice immunization with immunogenic peptide distinguishing CETN1 from CETN2. Patient tumor microarrays were used to evaluate the binding of the immune serum to PDAC versus normal pancreas. The antibodies were tested for their preferential binding to CETN1 over CETN2 by ELISA. Mice bearing PDAC MiaPaCa2 xenografts were imaged with microSPECT/CT and treated with 213Bi‐ and 177Lu‐labeled antibodies to CETN1. Results: Immune serum bind to 50% PDAC cases on patient tumor microarrays with no specific binding to normal pancreas. Antibodies demonstrated preferential binding to CETN1 versus CETN2. Antibody 69‐11 localized to PDAC xenografts in mice in vivo and ex vivo. RIT of PDAC xenografts with 213Bi‐labeled antibodies was effective, safe, and CETN1‐specific. Conclusions: The results demonstrate the ability of these novel antibodies to detect CETN1 both in vitro and in vivo; as well, the RIT treatment of experimental PDAC when radiolabeled with 213Bi is highly efficient and safe. Further evaluation of these novel reagents for diagnosis and treatment of PDAC is warranted. [ABSTRACT FROM AUTHOR]

Published
2019
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15. The Anaphase Promoting Complex Regulates Yeast Lifespan and rDNA Stability by Targeting Fob1 for Degradation.

Author

Menzel, Johannes, Malo, Mackenzie E., Chan, Cynthia, Prusinkiewicz, Martin, Arnason, Terra G., and Harkness, Troy A. A.

Subjects
*GENOMICS, *YEAST research, *DNA replication, *PREMATURE aging (Medicine), *PROTEIN analysis
Abstract

Genomic stability, stress response, and nutrient signaling all play critical, evolutionarily conserved roles in lifespan determination. However, the molecular mechanisms coordinating these processes with longevity remain unresolved. Here we investigate the involvement of the yeast anaphase promoting complex (APC) in longevity. The APC governs passage through M and G1 via ubiquitin-dependent targeting of substrate proteins and is associated with cancer and premature aging when defective. Our twohybrid screen utilizing Apc5 as bait recovered the lifespan determinant Fob1 as prey. Fob1 is unstable specifically in G1, cycles throughout the cell cycle in a manner similar to Clb2 (an APC target), and is stabilized in APC (apc5CA) and proteasome (rpn10Δ) mutants. Deletion of FOB1 increased replicative lifespan (RLS) in wild type (WT), apc5CA, and apc10Δ cells, and suppressed apc5CA cell cycle progression and rDNA recombination defects. Alternatively, increased FOB1 expression decreased RLS in WT cells, but did not reduce the already short apc5CA RLS, suggesting an epistatic interaction between apc5CA and fob1Δ. Mutation to a putative L-Box (Fob1E420V), a Destruction Box-like motif, abolished Fob1 modifications, stabilized the protein, and increased rDNA recombination. Our work provides a mechanistic role played by the APC to promote replicative longevity and genomic stability in yeast. [ABSTRACT FROM AUTHOR]

Published
2014
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16. The Yeast Forkhead Transcription Factors Fkh1 and Fkh2 Regulate Lifespan and Stress Response Together with the Anaphase-Promoting Complex.

Author

Postnikoff, Spike D. L., Malo, Mackenzie E., Wong, Berchman, and Harkness, Troy A. A.

Subjects
*TRANSCRIPTION factors, *METAZOA, *YEAST, *CELL cycle, *OXIDATIVE stress
Abstract

Forkhead box O (FOXO) transcription factors have a conserved function in regulating metazoan lifespan. A key function in this process involves the regulation of the cell cycle and stress responses including free radical scavenging. We employed yeast chronological and replicative lifespan assays, as well as oxidative stress assays, to explore the potential evolutionary conservation of function between the FOXOs and the yeast forkhead box transcription factors FKH1 and FKH2. We report that the deletion of both FKH genes impedes normal lifespan and stress resistance, particularly in stationary phase cells, which are non-responsive to caloric restriction. Conversely, increased expression of the FKHs leads to extended lifespan and improved stress response. Here we show the Anaphase-Promoting Complex (APC) genetically interacts with the Fkh pathway, likely working in a linear pathway under normal conditions, as fkh1Δ fkh2Δ post-mitotic survival is epistatic to that observed in apc5CA mutants. However, under stress conditions, post-mitotic survival is dramatically impaired in apc5CA fkh1Δ fkh2Δ, while increased expression of either FKH rescues APC mutant growth defects. This study establishes the FKHs role as evolutionarily conserved regulators of lifespan in yeast and identifies the APC as a novel component of this mechanism under certain conditions, likely through combined regulation of stress response, genomic stability, and cell cycle regulation. [ABSTRACT FROM AUTHOR]

Published
2012
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17. Antagonistic Gcn5-Hda1 interactions revealed by mutations to the Anaphase Promoting Complex in yeast.

Author

Islam, Azharul, Turner, Emma L., Menzel, Johannes, Malo, Mackenzie E., and Harkness, Troy A. A.

Subjects
GENE expression, HISTONE deacetylase, GENETIC mutation, ENZYME regulation, GENETIC engineering, YEAST
Abstract

Background: Histone post-translational modifications are critical for gene expression and cell viability. A broad spectrum of histone lysine residues have been identified in yeast that are targeted by a variety of modifying enzymes. However, the regulation and interaction of these enzymes remains relatively uncharacterized. Previously we demonstrated that deletion of either the histone acetyltransferase (HAT) GCN5 or the histone deacetylase (HDAC) HDA1 exacerbated the temperature sensitive (ts) mutant phenotype of the Anaphase Promoting Complex (APC) apc5CA allele. Here, the apc5CA mutant background is used to study a previously uncharacterized functional antagonistic genetic interaction between Gcn5 and Hda1 that is not detected in APC5 cells. Results: Using Northerns, Westerns, reverse transcriptase PCR (rtPCR), chromatin immunoprecipitation (ChIP), and mutant phenotype suppression analysis, we observed that Hda1 and Gcn5 appear to compete for recruitment to promoters. We observed that the presence of Hda1 can partially occlude the binding of Gcn5 to the same promoter. Occlusion of Gcn5 recruitment to these promoters involved Hda1 and Tup1. Using sequential ChIP we show that Hda1 and Tup1 likely form complexes at these promoters, and that complex formation can be increased by deleting GCN5. Conclusions: Our data suggests large Gcn5 and Hda1 containing complexes may compete for space on promoters that utilize the Ssn6/Tup1 repressor complex. We predict that in apc5CA cells the accumulation of an APC target may compensate for the loss of both GCN5 and HDA1. [ABSTRACT FROM AUTHOR]

Published
2011
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18. Physiological role and regulation of the Na+/H+ exchanger.

Author

Malo, Mackenzie E. and Fliegel, Larry

Subjects
*EUKARYOTIC cells, *MEMBRANE proteins, *CELL membranes, *AMINO acids, *PROTEIN kinases
Abstract

In mammalian eukaryotic cells, the Na+/H+ exchanger is a family of membrane proteins that regulates ions fluxes across membranes. Plasma membrane isoforms of this protein extrude 1 intracellular proton in exchange for 1 extracellular sodium. The family of Na+/H+ exchangers (NHEs) consists of 9 known isoforms, NHE1–NHE9. The NHE1 isoform was the first discovered, is the best characterized, and exists on the plasma membrane of all mammalian cells. It contains an N-terminal 500 amino acid membrane domain that transports ions, plus a 315 amino acid C-terminal, the intracellular regulatory domain. The Na+/H+ exchanger is regulated by both post-translational modifications including protein kinase-mediated phosphorylation, plus by a number of regulatory-binding proteins including phosphatidylinositol-4,5-bisphosphate, calcineurin homologous protein, ezrin, radixin and moesin, calmodulin, carbonic anhydrase II, and tescalcin. The Na+/H+ exchanger is involved in a variety of complex physiological and pathological events that include regulation of intracellular pH, cell movement, heart disease, and cancer. This review summarizes recent advances in the understanding of the physiological role and regulation of this protein. [ABSTRACT FROM AUTHOR]

Published
2006
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19. Mechanistic Insights into Synergy between Melanin-Targeting Radioimmunotherapy and Immunotherapy in Experimental Melanoma.

Author

Malo, Mackenzie E., Allen, Kevin J. H., Jiao, Rubin, Frank, Connor, Rickles, David, and Dadachova, Ekaterina

Subjects
*RADIOIMMUNOTHERAPY, *MELANOMA, *IMMUNOTHERAPY, *TUMOR microenvironment, *TUMOR growth
Abstract

Melanoma incidence continues to rise, and while therapeutic approaches for early stage cases are effective, metastatic melanoma continues to be associated with high mortality. Immune checkpoint blockade (ICB) has demonstrated clinical success with approved drugs in cohorts of patients with metastatic melanoma and targeted radionuclide therapy strategies showed promise in several clinical trials against various cancers including metastatic melanoma. This led our group to investigate the combination of these two treatments which could be potentially offered to patients with metastatic melanoma not responsive to ICB alone. Previously, we have demonstrated that a combination of humanized anti-melanin antibody conjugated to 213Bismuth and anti-PD-1 ICB reduced tumor growth and increased survival in the Cloudman S91 murine melanoma DBA/2 mouse model. In the current study, we sought to improve the tumoricidal effect by using the long-lived radionuclides 177Lutetium and 225Actinium. Male Cloudman S91-bearing DBA/2 mice were treated intraperitoneally with PBS (Sham), unlabeled antibody to melanin, anti-PD-1 ICB, 177Lutetium or 225Actinium RIT, or a combination of ICB and RIT. Treatment with anti-PD-1 alone or low-dose 177Lutetium RIT alone resulted in modest tumor reduction, while their combination significantly reduced tumor growth and increased survival, suggesting synergy. 225Actinium RIT, alone or in combination with ICB, showed no therapeutic benefit, suggesting that the two radionuclides with different energetic properties work in distinct ways. We did not detect an increase in tumor-infiltrating T cells in the tumor microenvironment, which suggests the involvement of alternative mechanisms that improve the effect of combination therapy beyond that observed in the single therapies. [ABSTRACT FROM AUTHOR]

Published
2020
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20. Safety Evaluation of an Alpha-Emitter Bismuth-213 Labeled Antibody to (1→3)-β-Glucan in Healthy Dogs as a Prelude for a Trial in Companion Dogs with Invasive Fungal Infections.

Author

Helal, Muath, Allen, Kevin J. H., Burgess, Hilary, Jiao, Rubin, Malo, Mackenzie E., Hutcheson, Matthew, Dadachova, Ekaterina, Snead, Elisabeth, Boschi, Alessandra, and Martini, Petra

Subjects
MYCOSES, DOGS, BEAGLE (Dog breed), VIRUS diseases, IMMUNOGLOBULINS, MONOCLONAL antibodies
Abstract

Background: With the limited options available for therapy to treat invasive fungal infections (IFI), radioimmunotherapy (RIT) can potentially offer an effective alternative treatment. Microorganism-specific monoclonal antibodies have shown promising results in the experimental treatment of fungal, bacterial, and viral infections, including our recent and encouraging results from treating mice infected with Blastomyces dermatitidis with 213Bi-labeled antibody 400-2 to (1→3)-β-glucan. In this work, we performed a safety study of 213Bi-400-2 antibody in healthy dogs as a prelude for a clinical trial in companion dogs with acquired invasive fungal infections and later on in human patients with IFI. Methods: Three female beagle dogs (≈6.1 kg body weight) were treated intravenously with 155.3, 142.5, or 133.2 MBq of 213Bi-400-2 given as three subfractions over an 8 h period. RBC, WBC, platelet, and blood serum biochemistry parameters were measured periodically for 6 months post injection. Results: No significant acute or long-term side effects were observed after RIT injections; only a few parameters were mildly and transiently outside reference change value limits, and a transient atypical morphology was observed in the circulating lymphocyte population of two dogs. Conclusions: These results demonstrate the safety of systemic 213Bi-400-2 administration in dogs and provide encouragement to pursue evaluation of RIT of IFI in companion dogs. [ABSTRACT FROM AUTHOR]

Published
2020
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21. Daratumumab-225Actinium conjugate demonstrates greatly enhanced antitumor activity against experimental multiple myeloma tumors.

Author

Dawicki, Wojciech, Allen, Kevin J.H., Jiao, Rubin, Malo, Mackenzie E., Helal, Muath, Berger, Mark S., Ludwig, Dale L., and Dadachova, Ekaterina

Subjects
MULTIPLE tumors, MULTIPLE myeloma, ANTIBODY-dependent cell cytotoxicity, SEVERE combined immunodeficiency, DRUG side effects, THERAPEUTICS
Abstract

Daratumumab is an anti-CD38 directed monoclonal antibody approved for the treatment of multiple myeloma (MM) and functions primarily via Fc-mediated effector mechanisms such as complement-dependent cytotoxicity (CDC), antibody-dependent cell cytotoxicity (ADCC), antibody-dependent cellular phagocytosis, and T-cell activation. However, not all patients respond to daratumumab therapy and management of MM remains challenging. Radioimmunotherapy with alpha particle-emitting radionuclides represents a promising approach to significantly enhance the potency of therapeutic antibodies in cancer treatment. Here we report the results of mechanistic and feasibility studies using daratumumab radiolabeled with an alpha-emitter 225Actinium for therapy of MM. CD38-positivelymphoma Daudi cell line and MM cell lines KMS-28BM and KMS-28PE were treated in vitro with 225Ac-daratumumab. 225Ac-daratumumab Fc-functional properties were assessed with C1q binding and ADCC assays. The pharmacokinetics and tumor uptake of 111In-daratumumab in Daudi tumor-bearing severe combined immunodeficiency (SCID) mice were measured with microSPECT/CT. The therapeutic effects of 225Ac-daratumumab on Daudi and KSM28BM tumors in mice and treatment side effects were evaluated for 50 days posttreatment. The safety of 225Ac-labeled antimurine CD38 mAb in immunocompetent mice was also evaluated. 225Ac-daratumumab efficiently and specifically killed CD38-positive tumor cells in vitro, while its complement binding and ADCC functions remained unaltered. MicroSPECT/CT imaging demonstrated fast clearance of the radiolabeled daratumumab from the circulation and tissues, but prolonged retention in the tumor up to 10 days. Therapy and safety experiments with 225Ac-daratumumab showed a significant increase in the antitumor potency in comparison to naked antibody without any significant side effects. Our results highlight the potential of targeting alpha-emitters to tumors as a therapeutic approach and suggest that 225Ac-daratumumab may be a promising therapeutic strategy for the treatment of hematologic malignancies. [ABSTRACT FROM AUTHOR]

Published
2019
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22. Comparative Radioimmunotherapy of Experimental Melanoma with Novel Humanized Antibody to Melanin Labeled with 213Bismuth and 177Lutetium.

Author

Allen, Kevin J. H., Jiao, Rubin, Malo, Mackenzie E., Frank, Connor, Fisher, Darrell R., Rickles, David, and Dadachova, Ekaterina

Subjects
DACARBAZINE, RADIOIMMUNOTHERAPY, MELANINS, MELANOMA, DRUG side effects, IMMUNOGLOBULINS
Abstract

Melanoma is a cancer with increasing incidence and there is a need for alternatives to immunotherapy within effective approaches to treatment of metastatic melanoma. We performed comparative radioimmunotherapy (RIT) of experimental B16-F10 melanoma with novel humanized IgG to melanin h8C3 labeled with a beta emitter, 177Lu, and an alpha-emitter, 213Bi, as well as biodistribution, microSPECT/CT imaging, and mouse and human dosimetry calculations. microSPECT/CT imaging showed that a humanized antibody that targets "free" melanin in the tumor microenvironment had high tumor uptake in B16F10 murine melanoma in C57Bl/6 mice, with little to no uptake in naturally melanized tissues. Extrapolation of the mouse dosimetry data to an adult human demonstrated that doses delivered to major organs and the whole body by 177Lu-h8C3 would be approximately two times higher than those delivered by 213Bi-h8C3, while the doses to the tumor would be almost similar. RIT results indicated that 213Bi-h8C3 was more effective in slowing down the tumor growth than 177Lu-h8C3, while both radiolabeled antibodies did not produce significant hematologic or systemic side effects. We concluded that h8C3 antibody labeled with 213Bi is a promising reagent for translation into a clinical trial in patients with metastatic melanoma. [ABSTRACT FROM AUTHOR]

Published
2019
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24. In Vitro and In Vivo Comparison of Random versus Site-Specific Conjugation of Bifunctional Chelating Agents to the CD33-Binding Antibody for Use in Alpha- and Beta-Radioimmunotherapy.

Author

Allen KJH, Frank C, Jiao R, Malo ME, Bello M, De Nardo L, Meléndez-Alafort L, and Dadachova E

Abstract

Radiometal chelator conjugation is a cornerstone of radioimmunotherapy (RIT). Continued interest in selective placement of chelators remains an active topic of discussion in the field. With several simple site-specific methods being recently reported, it was of interest to investigate the benefits and potential drawbacks of the site-specific method with a full comparison to a more typical random conjugation method that is currently utilized in clinical applications. In this study, the conjugation methods were evaluated side by side to determine the utility of both methods using commercially available random and site-specific conjugation reagents by performing antigen binding; radiolabeling with 64 Cu, 177 Lu, and 225 Ac radioisotopes; antibody-conjugate stability, cytotoxicity, in vivo distribution, pharmacokinetics analyses, and dosimetry to gather a whole data set for preclinical investigation. Evaluation revealed that both methods performed similarly during most experiments with the site-specific method, resulting in higher binding capacity of the antibody conjugate via flow cytometry. Radiolabeling was not significantly different between two methods, while stability showed that the site-specifically conjugated antibody was somewhat more stable at 37 °C in human serum over 1 week. In vitro experiments demonstrated less cell killing with the random conjugation method, while in vivo experiments showed no statistical differences in tumor uptake between conjugation methods. Dosimetry calculations were performed using the acquired PET/CT data and showed that apart from the liver, there was no significant difference in radiation doses delivered by either antibody conjugate. These results demonstrate that both methods are viable for future work, while the site-specific method offers several potential advantages and, in some cases, improved efficacy., Competing Interests: The authors declare no competing financial interest., (© 2024 The Authors. Published by American Chemical Society.)

Published
2024
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25. Radioimmunotherapy as a pathogen-agnostic treatment method for opportunistic mucormycosis infections.

Author

Carvalho JLC, Malo ME, Allen KJH, Frank C, Xiao Z, Jiao R, and Dadachova E

Abstract

Invasive fungal infections (IFIs) such as mucormycosis are causing devastating morbidity and mortality in immunocompromised patients as anti-fungal agents do not work in the setting of a suppressed immune system. The coronavirus disease 2019 (COVID-19) pandemic has created a novel landscape for IFIs in post-pandemic patients, resulting from severe immune suppression caused by COVID-19 infection, comorbidities (diabetes, obesity) and immunosuppressive treatments such as steroids. The antigen-antibody interaction has been employed in radioimmunotherapy (RIT) to deliver lethal doses of ionizing radiation emitted by radionuclides to targeted cells and has demonstrated efficacy in several cancers. One of the advantages of RIT is its independence of the immune status of a host, which is crucial for immunosuppressed post-COVID-19 patients. In the present work we targeted the fungal pan-antigens 1,3-beta-glucan and melanin pigment, which are present in the majority of pathogenic fungi, with RIT, thus making such targeting pathogen-agnostic. We demonstrated in experimental murine mucormycosis in immunocompetent and immunocompromised mice that lutetium-177 ( 177 Lu)-labelled antibodies to these two antigens effectively decreased the fungal burden in major organs, including the brain. These results are encouraging because they show the effectiveness of pathogen-agnostic RIT in significantly decreasing fungal burden in vivo , while they can also potentially be applied to treat the broad range of invasive fungal infections that express the pan-antigens 1,3-beta-glucan or melanin., Competing Interests: The authors declare that there are no conflicts of interest., (© 2023 The Authors.)

Published
2023
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26. Effects of Melanized Bacteria and Soluble Melanin on the Intestinal Homeostasis and Microbiome In Vivo.

Author

Zhang YG, Malo ME, Tschirhart T, Xia Y, Wang Z, Dadachova E, and Sun J

Abstract

Radiation damage is associated with inflammation and immunity in the intestinal mucosa, including gut microbiota. Melanin has a unique capacity to coordinate a biological reaction in response to environmental stimuli, such as radiation exposure. Thus, melanin and melanized microbes have potential to be used for mitigation of injury induced by radiation. The purpose of the current study is to examine the safety of these agents for future targeting gut microbiome to prevent radiation-induced injury. We administered mice with soluble allomelanin and observed its effect on the intestinal physiology and body weight. We then established a melanized bacterial strain in probiotic E. coli Nissle. We measured the body weight of the mice treated with melanized E. coli Nissle. We showed the enhanced bacterial abundance and colonization of the melanized bacteria E. coli Nissle in the intestine. Melanized E. coli Nissle colonized the colon in less than 3 h and showed consistent colonization over 24 h post one oral gavage. We did not find significant changes of bodyweight in the mice treated with melanized bacteria. We did not observe any inflammation in the intestine. These results demonstrate the safety of soluble melanin and melanin-producing bacteria and will support the future studies to treat radiation-induced injuries and restore dysbiosis.

Published
2022
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27. Mitigating effects of sublethal and lethal whole-body gamma irradiation in a mouse model with soluble melanin.

Author

Malo ME, Frank C, Khokhoev E, Gorbunov A, Dontsov A, Garg R, and Dadachova E

Subjects
Animals, Gamma Rays, Mice, Radiation Dosage, Whole-Body Irradiation adverse effects, Acute Radiation Syndrome, Melanins
Abstract

The field of radiation countermeasures is growing, however, currently there are no effective and non-toxic compounds which could be administered orally to the individuals post exposure to high doses of ionising radiation. The pigment melanin is ubiquitous through all kingdoms of life and provides selective advantage under radiation stress through its role as a chemical and physical shield, and its capacity to respond and react to exposures. Soluble allomelanin was administered to mice following whole-body exposure to lethal or sublethal doses of gamma radiation to determine its capacity to mitigate the effects of acute radiation syndrome, and its utility as a radiation countermeasure. Allomelanin has shown a trend to improve survival post an 8 Gy sublethal radiation exposure when administered up to 48 h post-irradiation. Furthermore, it improved median and overall survival to a 10 Gy lethal radiation exposure, specifically when administered at 24 h post-irradiation. Histological analysis on the jejunum region of the small intestine of this treatment group indicated that alterations of the mucosal and submucosal architecture, and disruption of the lymphatic system associated with lethal radiation exposure were mitigated when allomelanin was administered at 24 h post-irradiation. Based on this work soluble allomelanin derived from a fungal source could serve as an easily sourced, cost-effective, and viable countermeasure to accidental radiation exposure and merits further investigation., (© 2022 Society for Radiological Protection. Published on behalf of SRP by IOP Publishing Limited. All rights reserved.)

Published
2022
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28. Biodistribution of a Radiolabeled Antibody in Mice as an Approach to Evaluating Antibody Pharmacokinetics.

Author

Allen KJH, Jiao R, Malo ME, Frank C, and Dadachova E

Abstract

(1) Background: Monoclonal antibodies are used in the treatment of multiple conditions including cancer, autoimmune disorders, and infectious diseases. One of the initial steps in the selection of an antibody candidate for further pre-clinical development is determining its pharmacokinetics in small animal models. The use of mass spectrometry and other techniques to determine the fate of these antibodies is laborious and expensive. Here we describe a straightforward and highly reproducible methodology for utilizing radiolabeled antibodies for pharmacokinetics studies. (2) Methods: Commercially available bifunctional linker CHXA" and 111 Indium radionuclide were used. A melanin-specific chimeric antibody A1 and an isotype matching irrelevant control A2 were conjugated with the CHXA", and then radiolabeled with 111 In. The biodistribution was performed at 4 and 24 h time points in melanoma tumor-bearing and healthy C57BL/6 female mice. (3) The biodistribution of the melanin-binding antibody showed the significant uptake in the tumor, which increased with time, and very low uptake in healthy melanin-containing tissues such as the retina of the eye and melanized skin. This biodistribution pattern in healthy tissues was very close to that of the isotype matching control antibody. (4) Conclusions: The biodistribution experiment allows us to assess the pharmacokinetics of both antibodies side by side and to make a conclusion regarding the suitability of specific antibodies for further development.

Published
2018
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29. Mitotic degradation of yeast Fkh1 by the Anaphase Promoting Complex is required for normal longevity, genomic stability and stress resistance.

Author

Malo ME, Postnikoff SD, Arnason TG, and Harkness TA

Subjects
Cell Cycle physiology, Saccharomyces cerevisiae, Anaphase-Promoting Complex-Cyclosome metabolism, Genome, Longevity physiology, Mitosis physiology, Saccharomyces cerevisiae Proteins metabolism, Stress, Physiological physiology
Abstract

The Saccharomyces cerevisiae Forkhead Box (Fox) orthologs, Forkheads (Fkh) 1 and 2, are conserved transcription factors required for stress response, cell cycle progression and longevity. These yeast proteins play a key role in mitotic progression through activation of the ubiquitin E3 ligase Anaphase Promoting Complex (APC) via transcriptional control. Here, we used genetic and molecular analyses to demonstrate that the APC E3 activity is necessary for mitotic Fkh1 protein degradation and subsequent cell cycle progression. We report that Fkh1 protein degradation occurs specifically during mitosis, requires APCCdc20 and proteasome activity, and that a stable Fkh1 mutant reduces normal chronological lifespan, increases genomic instability, and increases sensitivity to stress. Our data supports a model whereby cell cycle progression through mitosis and G1 requires the targeted degradation of Fkh1 by the APC. This is significant to many fields as these results impact our understanding of the mechanisms underpinning the control of aging and cancer.

Published
2016
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30. The Saccharomyces cerevisiae anaphase-promoting complex interacts with multiple histone-modifying enzymes to regulate cell cycle progression.

Author

Turner EL, Malo ME, Pisclevich MG, Dash MD, Davies GF, Arnason TG, and Harkness TA

Subjects
Anaphase-Promoting Complex-Cyclosome, Apc5 Subunit, Anaphase-Promoting Complex-Cyclosome, Cell Cycle genetics, Cell Cycle physiology, Chromatin Assembly and Disassembly, Histone Acetyltransferases genetics, Saccharomyces cerevisiae genetics, Saccharomyces cerevisiae metabolism, Saccharomyces cerevisiae Proteins genetics, Ubiquitin-Protein Ligase Complexes genetics, Gene Expression Regulation, Fungal, Histone Acetyltransferases metabolism, Histones metabolism, Mitosis physiology, Saccharomyces cerevisiae cytology, Saccharomyces cerevisiae Proteins metabolism, Ubiquitin-Protein Ligase Complexes metabolism
Abstract

The anaphase-promoting complex (APC), a large evolutionarily conserved ubiquitin ligase complex, regulates cell cycle progression through mitosis and G(1). Here, we present data suggesting that APC-dependent cell cycle progression relies on a specific set of posttranslational histone-modifying enzymes. Multiple APC subunit mutants were impaired in total and modified histone H3 protein content. Acetylated H3K56 (H3K56(Ac)) levels were as reduced as those of total H3, indicating that loading histones with H3K56(Ac) is unaffected in APC mutants. However, under restrictive conditions, H3K9(Ac) and dimethylated H3K79 (H3K79(me2)) levels were more greatly reduced than those of total H3. In a screen for histone acetyltransferase (HAT) and histone deacetylase (HDAC) mutants that genetically interact with the apc5(CA) (chromatin assembly) mutant, we found that deletion of GCN5 or ELP3 severely hampered apc5(CA) temperature-sensitive (ts) growth. Further analyses showed that (i) the elp3Δ gcn5Δ double mutant ts defect was epistatic to that observed in apc5(CA) cells; (ii) gcn5Δ and elp3Δ mutants accumulate in mitosis; and (iii) turnover of the APC substrate Clb2 is not impaired in elp3Δ gcn5Δ cells. Increased expression of ELP3 and GCN5, as well as genes encoding the HAT Rtt109 and the chromatin assembly factors Msi1 and Asf1, suppressed apc5(CA) defects, while increased APC5 expression partially suppressed elp3Δ gcn5Δ growth defects. Finally, we demonstrate that Gcn5 is unstable during G(1) and following G(1) arrest and is stabilized in APC mutants. We present our working model in which Elp3/Gcn5 and the APC work together to facilitate passage through mitosis and G(1). To progress into S, we propose that at least Gcn5 must then be targeted for degradation in an APC-dependent fashion.

Published
2010
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