Your search keyword '"Ahlstedt J"' showing total 2 results

1. Protection of Kidney Function with Human Antioxidation Protein α 1 -Microglobulin in a Mouse 177 Lu-DOTATATE Radiation Therapy Model.

Author

Kristiansson A, Ahlstedt J, Holmqvist B, Brinte A, Tran TA, Forssell-Aronsson E, Strand SE, Gram M, and Åkerström B

Subjects

Animals, Biomarkers, Gene Expression Profiling, Histones metabolism, Humans, Kidney pathology, Mice, Models, Animal, Octreotide administration & dosage, Survival Rate, Time Factors, Alpha-Globulins pharmacology, Antioxidants pharmacology, Kidney drug effects, Kidney radiation effects, Octreotide analogs & derivatives, Organometallic Compounds administration & dosage, Radiation-Protective Agents pharmacology

Abstract

Aims: Peptide receptor radionuclide therapy (PRRT) is in clinical use today to treat metastatic neuroendocrine tumors. Infused, radiolabeled, somatostatin analog peptides target tumors that are killed by irradiation damage. The peptides, however, are also retained in kidneys due to glomerular filtration, and the administered doses must be limited to avoid kidney damage. The human radical scavenger and antioxidant, α 1 -microglobulin (A1M), has previously been shown to protect bystander tissue against irradiation damage and has pharmacokinetic and biodistribution properties similar to somatostatin analogs. In this study, we have investigated if A1M can be used as a renal protective agent in PRRT., Results: We describe nephroprotective effects of human recombinant A1M on the short- and long-term renal damage observed following lutetium 177 ( 177 Lu)-DOTATATE (150 MBq) exposure in BALB/c mice. After 1, 4, and 8 days (short term), 177 Lu-DOTATATE injections resulted in increased formation of DNA double-strand breaks in the renal cortex, upregulated expression of apoptosis and stress response-related genes, and proteinuria (albumin in urine), all of which were significantly suppressed by coadministration of A1M (7 mg/kg). After 6, 12, and 24 weeks (long term), 177 Lu-DOTATATE injections resulted in increased animal death, kidney lesions, glomerular loss, upregulation of stress genes, proteinuria, and plasma markers of reduced kidney function, all of which were suppressed by coadministration of A1M. Innovation and Conclusion: This study demonstrates that A1M effectively inhibits radiation-induced renal damage. The findings suggest that A1M may be used as a radioprotector during clinical PRRT, potentially facilitating improved tumor control and enabling more patients to receive treatment.

Published

2019

2. rA1M-035, a Physicochemically Improved Human Recombinant α 1 -Microglobulin, Has Therapeutic Effects in Rhabdomyolysis-Induced Acute Kidney Injury.

Author

Åkerström B, Rosenlöf L, Hägerwall A, Rutardottir S, Ahlstedt J, Johansson ME, Erlandsson L, Allhorn M, and Gram M

Subjects

Acute Kidney Injury metabolism, Alpha-Globulins genetics, Animals, Female, Humans, K562 Cells, Mice, Mice, Inbred C57BL, Recombinant Proteins metabolism, Acute Kidney Injury complications, Acute Kidney Injury therapy, Alpha-Globulins metabolism, Rhabdomyolysis metabolism

Abstract

Aims: Human α 1 -microglobulin (A1M) is an endogenous reductase and radical- and heme-binding protein with physiological antioxidant protective functions. Recombinant human A1M (rA1M) has been shown to have therapeutic properties in animal models of preeclampsia, a pregnancy disease associated with oxidative stress. Recombinant A1M, however, lacks glycosylation, and shows lower solubility and stability than A1M purified from human plasma. The aims of this work were to (i) use site-directed mutagenesis to improve the physicochemical properties of rA1M, (ii) demonstrate that the physicochemically improved rA1M displays full in vitro cell protective effects as recombinant wild-type A1M (rA1M-wt), and (iii) show its therapeutic potential in vivo against acute kidney injury (AKI), another disease associated with oxidative stress., Results: A novel recombinant A1M-variant (rA1M-035) with three amino acid substitutions was constructed, successfully expressed, and purified. rA1M-035 had improved solubility and stability compared with rA1M-wt, and showed intact in vitro heme-binding, reductase, antioxidation, and cell protective activities. Both rA1M-035 and rA1M-wt showed, for the first time, potential in vivo protective effects on kidneys using a mouse rhabdomyolysis glycerol injection model of AKI., Innovation: A novel recombinant A1M-variant, rA1M-035, was engineered. This protein showed improved solubility and stability compared with rA1M-wt, full in vitro functional activity, and potential protection against AKI in an in vivo rhabdomyolysis mouse model., Conclusion: The new rA1M-035 is a better drug candidate than rA1M-wt for treatment of AKI and preeclampsia in human patients.

Published

2019