Your search keyword '"Süss,Regine"' showing total 7 results

1. Everolimus-Loaded Reconstituted High-Density Lipoprotein Prepared by a Novel Dual Centrifugation Approach for Anti-Atherosclerotic Therapy

Author

Deuringer,Benedikt, Härdtner,Carmen, Krebs,Katja, Thomann,Ralf, Holzer,Martin, Hilgendorf,Ingo, Süss,Regine, Deuringer,Benedikt, Härdtner,Carmen, Krebs,Katja, Thomann,Ralf, Holzer,Martin, Hilgendorf,Ingo, and Süss,Regine

Abstract

Benedikt Deuringer,1 Carmen Härdtner,2 Katja Krebs,2 Ralf Thomann,3 Martin Holzer,1 Ingo Hilgendorf,2,4,* Regine Süss1,* 1Department of Pharmaceutical Technology and Biopharmacy, Institute of Pharmaceutical Sciences, University of Freiburg, Freiburg, 79104, Germany; 2Department of Cardiology and Angiology, University Heart Center Freiburg-Bad Krozingen and Faculty of Medicine, University of Freiburg, Freiburg, 79106, Germany; 3FMF Materials Research Center, University of Freiburg, Freiburg, 79104, Germany; 4Institute for Experimental Cardiovascular Medicine, University Heart Center Freiburg-Bad Krozingen and Faculty of Medicine, University of Freiburg, Freiburg, 79110, Germany*These authors contributed equally to this workCorrespondence: Benedikt Deuringer, Pharmaceutical Technology and Biopharmacy, Sonnenstraße 5, Freiburg, 79104, Germany, Tel +49 761 203 6329, Fax +49 761 203 6326, Email bdeuringer@pharmazeutischetechnologie.dePurpose: The conventional techniques for the preparation of reconstituted high-density lipoprotein (rHDL) are hampered by long process times, the need for large amounts of starting material, and harsh preparation conditions. Here, we present a novel rHDL preparation method to overcome these challenges. Furthermore, we propose a dual mode of action for rHDL loaded with the immunosuppressant drug everolimus (Eve-rHDL) in the context of atherosclerosis and cardiovascular disease.Methods: We use dual centrifugation for rHDL nanoparticle preparation and characterize the physicochemical properties by NS-TEM, N-PAGE, DLS, AF4, and HPLC. In addition, we determine the biological efficacy in human and murine cell culture with regard to cellular uptake, cholesterol efflux, and proliferation.Results: We confirm the characteristic particle size of 10 nm, discoidal morphology, and chemical composition of the rHDL preparations and identify dual centrifugation as an ideal method for cost-effective aseptic rHDL manufacturing. rHDL

Published

2022

2. Hemorrhage in mouse tumors induced by dodecaborate cluster lipids intended for boron neutron capture therapy

Author

Schaffran,Tanja, Jiang,Nan, Bergmann,Markus, Küstermann,Ekkehard, Süss,Regine, Schubert,Rolf, Wagner,Franz M, Awad,Doaa, Gabel,Detlef, Schaffran,Tanja, Jiang,Nan, Bergmann,Markus, Küstermann,Ekkehard, Süss,Regine, Schubert,Rolf, Wagner,Franz M, Awad,Doaa, and Gabel,Detlef

Abstract

Tanja Schaffran,1 Nan Jiang,1 Markus Bergmann,2,3 Ekkehard Küstermann,4 Regine Süss,5 Rolf Schubert,5 Franz M Wagner,6 Doaa Awad,7 Detlef Gabel1,2,8 1Department of Chemistry, University of Bremen, 2Institute of Neuropathology, Klinikum Bremen-Mitte; 3Cooperative Center Medicine, University of Bremen, 4“In-vivo-MR” AG, FB2, University of Bremen, Bremen, 5Pharmaceutical Technology, University of Freiburg, Freiburg im Breisgau, 6Forschungsneutronenquelle Heinz Maier-Leibnitz (FRM II), Technische Unversitaet Muenchen, Garching, Germany; 7Department of Biochemistry, Alexandria University, Alexandria, Egypt; 8School of Engineering and Science, Jacobs University Bremen, Bremen, Germany Abstract: The potential of boron-containing lipids with three different structures, which were intended for use in boron neutron capture therapy, was investigated. All three types of boron lipids contained the anionic dodecaborate cluster as the headgroup. Their effects on two different tumor models in mice following intravenous injection were tested; for this, liposomes with boron lipid, distearoyl phosphatidylcholine, and cholesterol as helper lipids, and containing a polyethylene glycol lipid for steric protection, were administered intravenously into tumor-bearing mice (C3H mice for SCCVII squamous cell carcinoma and BALB/c mice for CT26/WT colon carcinoma). With the exception of one lipid (B-THF-14), the lipids were well tolerated, and no other animal was lost due to systemic toxicity. The lipid which led to death was not found to be much more toxic in cell culture than the other boron lipids. All of the lipids that were well tolerated showed hemorrhage in both tumor models within a few hours after administration. The hemorrhage could be seen by in vivo magnetic resonance and histology, and was found to occur within a few hours. The degree of hemorrhage depended on the amount of boron administered and on the tumor model. The observed unwanted effect

Published

2014

3. Hemorrhage in mouse tumors induced by dodecaborate cluster lipids intended for boron neutron capture therapy

Author

Schaffran,Tanja, Jiang,Nan, Bergmann,Markus, Küstermann,Ekkehard, Süss,Regine, Schubert,Rolf, Wagner,Franz M, Awad,Doaa, Gabel,Detlef, Schaffran,Tanja, Jiang,Nan, Bergmann,Markus, Küstermann,Ekkehard, Süss,Regine, Schubert,Rolf, Wagner,Franz M, Awad,Doaa, and Gabel,Detlef

Abstract

Tanja Schaffran,1 Nan Jiang,1 Markus Bergmann,2,3 Ekkehard Küstermann,4 Regine Süss,5 Rolf Schubert,5 Franz M Wagner,6 Doaa Awad,7 Detlef Gabel1,2,8 1Department of Chemistry, University of Bremen, 2Institute of Neuropathology, Klinikum Bremen-Mitte; 3Cooperative Center Medicine, University of Bremen, 4“In-vivo-MR” AG, FB2, University of Bremen, Bremen, 5Pharmaceutical Technology, University of Freiburg, Freiburg im Breisgau, 6Forschungsneutronenquelle Heinz Maier-Leibnitz (FRM II), Technische Unversitaet Muenchen, Garching, Germany; 7Department of Biochemistry, Alexandria University, Alexandria, Egypt; 8School of Engineering and Science, Jacobs University Bremen, Bremen, Germany Abstract: The potential of boron-containing lipids with three different structures, which were intended for use in boron neutron capture therapy, was investigated. All three types of boron lipids contained the anionic dodecaborate cluster as the headgroup. Their effects on two different tumor models in mice following intravenous injection were tested; for this, liposomes with boron lipid, distearoyl phosphatidylcholine, and cholesterol as helper lipids, and containing a polyethylene glycol lipid for steric protection, were administered intravenously into tumor-bearing mice (C3H mice for SCCVII squamous cell carcinoma and BALB/c mice for CT26/WT colon carcinoma). With the exception of one lipid (B-THF-14), the lipids were well tolerated, and no other animal was lost due to systemic toxicity. The lipid which led to death was not found to be much more toxic in cell culture than the other boron lipids. All of the lipids that were well tolerated showed hemorrhage in both tumor models within a few hours after administration. The hemorrhage could be seen by in vivo magnetic resonance and histology, and was found to occur within a few hours. The degree of hemorrhage depended on the amount of boron administered and on the tumor model. The observed unwanted effect

Published

2014

4. Vitamin C-driven epirubicin loading into liposomes

Author

Lipka,Dominik, Gubernator,Jerzy, Filipczak,Nina, Barnert,Sabine, Süss,Regine, Legut,Mateusz, Kozubek,Arkadiusz, Lipka,Dominik, Gubernator,Jerzy, Filipczak,Nina, Barnert,Sabine, Süss,Regine, Legut,Mateusz, and Kozubek,Arkadiusz

Abstract

Dominik Lipka,1 Jerzy Gubernator,1 Nina Filipczak,1 Sabine Barnert,2 Regine Süss,2 Mateusz Legut,1 Arkadiusz Kozubek1 1Department of Lipids and Liposomes, University of Wroclaw, Wroclaw, Poland; 2Department of Pharmaceutical Technology, Albert Ludwigs University, Freiburg, Germany Abstract: The encapsulation of anticancer drugs in a liposome structure protects the drug during circulation and increases drug accumulation in the cancer tissue and antitumor activity while decreasing drug toxicity. This paper presents a new method of active drug loading based on a vitamin C pH/ion gradient. Formulations were characterized in terms of the following parameters: optimal external pH, time and drug-to-lipid ratio for the purpose of remote loading, and in vitro stability. In the case of the selected drug, epirubicin (EPI), its coencapsulation increases its anticancer activity through a possibly synergistic effect previously reported by other groups for a free nonencapsulated drug/vitamin C cocktail. The method also has another advantage over other remote-loading methods: it allows faster drug release through liposome destabilization at the tumor site, thanks to the very good solubility of the EPI vitamin C salt, as seen on cryogenic transmission electron microscopy images. This influences the drug-release process and increases the anticancer activity of the liposome formulation. The liposomes are characterized as stable, with very good pharmacokinetics (half-life 18.6 hours). The antitumor activity toward MCF-7 and 4T-1 breast cancer cells was higher in the case of EPI loaded via our gradient than via an ammonium sulfate gradient. Finally, the EPI liposomal formulation and the free drug were tested using the murine 4T-1 breast cancer model. The antitumor activity of the encapsulated drug was confirmed (tumor-growth inhibition over 40% from day 16 until the end of the experiment), and the free drug was shown to have no anticancer activity at the tested dose. Keywords

Published

2013

5. Treatment of neuroblastoma and rhabdomyosarcoma using RGD-modified liposomal formulations of patupilone (EPO906)

Author

Scherzinger-Laude,Karine, Schönherr,Carina, Lewrick,Felicitas, Süss,Regine, Francese,Giancarlo, Rössler,Jochen, Scherzinger-Laude,Karine, Schönherr,Carina, Lewrick,Felicitas, Süss,Regine, Francese,Giancarlo, and Rössler,Jochen

Abstract

Karine Scherzinger-Laude,1 Carina Schönherr,2,3 Felicitas Lewrick,3 Regine Süss,3 Giancarlo Francese,2,* Jochen Rössler1,* 1Clinic IV, Pediatric Hematology and Oncology, Center of Pediatrics and Adolescent Medicine, University Medical Hospital Freiburg, Germany; 2Department of Technical Research and Development, Novartis Pharma AG, Basel, Switzerland; 3Department of Pharmaceutical Technology, Albert-Ludwigs University, Freiburg, Germany *Both authors contributed equally to this work as senior scientists Background: Patupilone (EPO906) is a microtubule stabilizer with a potent antitumor effect. Integrin αVß3-binding (RGD) liposomes were loaded with EPO906, and their antitumor efficacy was evaluated in two pediatric tumor models, ie, neuroblastoma and rhabdomyosarcoma. Methods: Integrin αVß3 gene expression, RGD-liposome cellular association, and the effect of EPO906 and liposomal formulations of EPO906 on cell viability were assessed in vitro in human umbilical vein endothelial cells (HUVEC), in the RH-30 rhabdomyosarcoma cell line, and in the Kelly neuroblastoma cell line. In vivo, mice bearing neuroblastoma or rhabdomyosarcoma tumors were treated with EPO906, EPO906-liposomes, or EPO906-RGD-liposomes. Tumor growth, cumulative survival, and toxicity were monitored. Results: Integrin αVß3 was highly expressed in HUVEC and RH-30, but not in Kelly cells. Accordingly, RGD-liposomes were highly associated with HUVEC and RH-30 cells in vitro, but not with the Kelly cells. EPO906 and its liposomal formulations inhibited HUVEC, RH-30, and Kelly cell viability to the same extent. In vivo, EPO906 1.5 mg/kg and liposomal EPO906 potently inhibited tumor growth in both xenograft models without triggering major toxicity. At this dose, liposomal EPO906 did not enhance the antitumor effect of EPO906 in neuroblastoma, but tended to have an increased antitumor effect in rhabdomyosarcoma. Using a lo

Published

2013

6. Vitamin C-driven epirubicin loading into liposomes

Author

Lipka,Dominik, Gubernator,Jerzy, Filipczak,Nina, Barnert,Sabine, Süss,Regine, Legut,Mateusz, Kozubek,Arkadiusz, Lipka,Dominik, Gubernator,Jerzy, Filipczak,Nina, Barnert,Sabine, Süss,Regine, Legut,Mateusz, and Kozubek,Arkadiusz

Abstract

Dominik Lipka,1 Jerzy Gubernator,1 Nina Filipczak,1 Sabine Barnert,2 Regine Süss,2 Mateusz Legut,1 Arkadiusz Kozubek1 1Department of Lipids and Liposomes, University of Wroclaw, Wroclaw, Poland; 2Department of Pharmaceutical Technology, Albert Ludwigs University, Freiburg, Germany Abstract: The encapsulation of anticancer drugs in a liposome structure protects the drug during circulation and increases drug accumulation in the cancer tissue and antitumor activity while decreasing drug toxicity. This paper presents a new method of active drug loading based on a vitamin C pH/ion gradient. Formulations were characterized in terms of the following parameters: optimal external pH, time and drug-to-lipid ratio for the purpose of remote loading, and in vitro stability. In the case of the selected drug, epirubicin (EPI), its coencapsulation increases its anticancer activity through a possibly synergistic effect previously reported by other groups for a free nonencapsulated drug/vitamin C cocktail. The method also has another advantage over other remote-loading methods: it allows faster drug release through liposome destabilization at the tumor site, thanks to the very good solubility of the EPI vitamin C salt, as seen on cryogenic transmission electron microscopy images. This influences the drug-release process and increases the anticancer activity of the liposome formulation. The liposomes are characterized as stable, with very good pharmacokinetics (half-life 18.6 hours). The antitumor activity toward MCF-7 and 4T-1 breast cancer cells was higher in the case of EPI loaded via our gradient than via an ammonium sulfate gradient. Finally, the EPI liposomal formulation and the free drug were tested using the murine 4T-1 breast cancer model. The antitumor activity of the encapsulated drug was confirmed (tumor-growth inhibition over 40% from day 16 until the end of the experiment), and the free drug was shown to have no anticancer activity at the tested dose. Keywords

Published

2013

7. Treatment of neuroblastoma and rhabdomyosarcoma using RGD-modified liposomal formulations of patupilone (EPO906)

Author

Scherzinger-Laude,Karine, Schönherr,Carina, Lewrick,Felicitas, Süss,Regine, Francese,Giancarlo, Rössler,Jochen, Scherzinger-Laude,Karine, Schönherr,Carina, Lewrick,Felicitas, Süss,Regine, Francese,Giancarlo, and Rössler,Jochen

Abstract

Karine Scherzinger-Laude,1 Carina Schönherr,2,3 Felicitas Lewrick,3 Regine Süss,3 Giancarlo Francese,2,* Jochen Rössler1,* 1Clinic IV, Pediatric Hematology and Oncology, Center of Pediatrics and Adolescent Medicine, University Medical Hospital Freiburg, Germany; 2Department of Technical Research and Development, Novartis Pharma AG, Basel, Switzerland; 3Department of Pharmaceutical Technology, Albert-Ludwigs University, Freiburg, Germany *Both authors contributed equally to this work as senior scientists Background: Patupilone (EPO906) is a microtubule stabilizer with a potent antitumor effect. Integrin αVß3-binding (RGD) liposomes were loaded with EPO906, and their antitumor efficacy was evaluated in two pediatric tumor models, ie, neuroblastoma and rhabdomyosarcoma. Methods: Integrin αVß3 gene expression, RGD-liposome cellular association, and the effect of EPO906 and liposomal formulations of EPO906 on cell viability were assessed in vitro in human umbilical vein endothelial cells (HUVEC), in the RH-30 rhabdomyosarcoma cell line, and in the Kelly neuroblastoma cell line. In vivo, mice bearing neuroblastoma or rhabdomyosarcoma tumors were treated with EPO906, EPO906-liposomes, or EPO906-RGD-liposomes. Tumor growth, cumulative survival, and toxicity were monitored. Results: Integrin αVß3 was highly expressed in HUVEC and RH-30, but not in Kelly cells. Accordingly, RGD-liposomes were highly associated with HUVEC and RH-30 cells in vitro, but not with the Kelly cells. EPO906 and its liposomal formulations inhibited HUVEC, RH-30, and Kelly cell viability to the same extent. In vivo, EPO906 1.5 mg/kg and liposomal EPO906 potently inhibited tumor growth in both xenograft models without triggering major toxicity. At this dose, liposomal EPO906 did not enhance the antitumor effect of EPO906 in neuroblastoma, but tended to have an increased antitumor effect in rhabdomyosarcoma. Using a lo

Published

2013