Patents by Inventor Marlon Hinner
Marlon Hinner has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 11919931Abstract: The disclosure provides a fusion polypeptide specific for both CD137 and GPC3, which fusion polypeptide can be useful for directing CD137 clustering and activation to GPC3-positive tumor cells. Such fusion polypeptide can be used in many pharmaceutical applications, for example, as anti-cancer agents and/or immune modulators for the treatment or prevention of human diseases such as a variety of tumors. The present disclosure also concerns methods of making the fusion polypeptide described herein as well as compositions comprising such fusion polypeptide. The present disclosure further relates to nucleic acid molecules encoding such fusion polypeptide and to methods for generation of such fusion polypeptide and nucleic acid molecules. In addition, the application discloses therapeutic and/or diagnostic uses of such fusion polypeptide as well as compositions comprising one or more of such fusion polypeptides.Type: GrantFiled: February 5, 2021Date of Patent: March 5, 2024Assignee: Pieris Pharmaceuticals GMBHInventors: Marlon Hinner, Rachida Siham Bel Aiba, Christine Rothe, Shane Olwill, Corinna Schlosser
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Publication number: 20220296690Abstract: Lipocalin muteins specific to a predetermined antigen can be transduced into a T cell to bring therapeutic benefits to patients in need. In one example, a lipocalin mutein specific to a predetermined antigen (e.g., a target differentially expressed on the surface of a tumor cell) can be transduced into a T cell membrane to serve as an antigen receptor, offering benefits over conventionally deployed antibody-derived protein moieties such as a single chain variable fragment (scFv). Benefits include a more stable structure, leading to superior target engagement, for example. Further, lipocalin muteins specific to a predetermined antigen (e.g. an immunomodulatory target such as an immune checkpoint or costimulatory molecule) can be transduced into a T cell for secretion thereby, bringing an added therapeutic benefit. Specific examples of such modified T cells and methods of making and using the same are provided herein.Type: ApplicationFiled: May 24, 2022Publication date: September 22, 2022Inventor: Marlon Hinner
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Patent number: 11382963Abstract: Lipocalin muteins specific to a predetermined antigen can be transduced into a T cell to bring therapeutic benefits to patients in need. In one example, a lipocalin mutein specific to a predetermined antigen (e.g., a target differentially expressed on the surface of a tumor cell) can be transduced into a T cell membrane to serve as an antigen receptor, offering benefits over conventionally deployed antibody-derived protein moieties such as a single chain variable fragment (scFv). Benefits include a more stable structure, leading to superior target engagement, for example. Further, lipocalin muteins specific to a predetermined antigen (e.g. an immunomodulatory target such as an immune checkpoint or costimulatory molecule) can be transduced into a T cell for secretion thereby, bringing an added therapeutic benefit. Specific examples of such modified T cells and methods of making and using the same are provided herein.Type: GrantFiled: January 11, 2016Date of Patent: July 12, 2022Assignee: Pieris Pharmaceuticals GmbHInventor: Marlon Hinner
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Patent number: 11345728Abstract: The present invention relates to novel, specific-binding therapeutic and/or diagnostic polypeptides directed against the target of Swiss Prot Q16552 and novel, specific-binding therapeutic and/or diagnostic polypeptides directed against the target of Swiss Prot Q9NPF7. In addition, the present invention relates to novel, specific-binding therapeutic and/or diagnostic polypeptides directed against one or both of Swiss Prot Q16552 and Swiss Prot Q9NPF7. The invention also relates to nucleic acid molecules encoding such polypeptides and to methods for generation of such polypeptides and nucleic acid molecules. In addition, the invention is directed to compositions comprising the polypeptides, and therapeutic and/or diagnostic uses of these polypeptides.Type: GrantFiled: August 6, 2020Date of Patent: May 31, 2022Assignee: Pieris Pharmaceuticals GmbHInventors: Marlon Hinner, Alexander Wiedenmann, Andrea Allersdorfer
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Publication number: 20220144901Abstract: The present disclosure provides human lipocalin muteins that bind CD137 and can be used in pharmaceutical applications, for example, as anti-cancer agents and/or immune modulators for the treatment or prevention of human diseases such as cancer, infectious diseases, and autoimmune diseases. The present disclosure also concerns methods of making CD137 binding lipocalin muteins described herein as well as compositions comprising such lipocalin muteins. The present disclosure further relates to nucleic acid molecules encoding such lipocalin muteins and to methods for generation of such lipocalin muteins and nucleic acid molecules. In addition, the application discloses therapeutic and/or diagnostic uses of these lipocalin muteins as well as compositions comprising one or more of such lipocalin muteins.Type: ApplicationFiled: January 19, 2022Publication date: May 12, 2022Inventors: Marlon HINNER, Christine ROTHE, Shane OLWILL, Andrea ALLERSDORFER, Rachida Siham BEL AIBA
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Patent number: 11261221Abstract: The present disclosure provides human lipocalin muteins that bind CD137 and can be used in pharmaceutical applications, for example, as anti-cancer agents and/or immune modulators for the treatment or prevention of human diseases such as cancer, infectious diseases, and autoimmune diseases. The present disclosure also concerns methods of making CD137 binding lipocalin muteins described herein as well as compositions comprising such lipocalin muteins. The present disclosure further relates to nucleic acid molecules encoding such lipocalin muteins and to methods for generation of such lipocalin muteins and nucleic acid molecules. In addition, the application discloses therapeutic and/or diagnostic uses of these lipocalin muteins as well as compositions comprising one or more of such lipocalin muteins.Type: GrantFiled: May 4, 2016Date of Patent: March 1, 2022Assignee: Pieris Pharmaceuticals GmbHInventors: Marlon Hinner, Christine Rothe, Shane Olwill, Andrea Allersdorfer, Rachida Siham Bel Aiba
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Publication number: 20210403516Abstract: The disclosure provides a fusion polypeptide specific for both CD137 and GPC3, which fusion polypeptide can be useful for directing CD137 clustering and activation to GPC3-positive tumor cells. Such fusion polypeptide can be used in many pharmaceutical applications, for example, as anti-cancer agents and/or immune modulators for the treatment or prevention of human diseases such as a variety of tumors. The present disclosure also concerns methods of making the fusion polypeptide described herein as well as compositions comprising such fusion polypeptide. The present disclosure further relates to nucleic acid molecules encoding such fusion polypeptide and to methods for generation of such fusion polypeptide and nucleic acid molecules. In addition, the application discloses therapeutic and/or diagnostic uses of such fusion polypeptide as well as compositions comprising one or more of such fusion polypeptides.Type: ApplicationFiled: February 5, 2021Publication date: December 30, 2021Inventors: Marlon Hinner, Rachida Siham Bel Aiba, Christine Rothe, Shane Olwill, Corinna Schlosser
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Publication number: 20210363257Abstract: The disclosure provides fusion proteins specific for both CD 137 and PD-L1, which fusion protein can be used to co-stimulate lymphocyte activation in a PD-L1-target-dependent manner. Such fusion proteins can be used in many pharmaceutical applications, for example, as anti-cancer agents and/or immune modulators for the treatment or prevention of human diseases such as a variety of tumors. The present disclosure also concerns methods of making the fusion proteins described herein as well as compositions comprising such fusion proteins. The present disclosure further relates to nucleic acid molecules encoding such fusion proteins and to methods for generation of such fusion proteins and nucleic acid molecules. In addition, the application discloses therapeutic and/or diagnostic uses of such fusion proteins as well as compositions comprising one or more of such fusion proteins.Type: ApplicationFiled: July 31, 2019Publication date: November 25, 2021Inventors: Marina Pavlidou, Christine Rothe, Shane Olwill, Rachida Bel Aiba, Marlon Hinner, Janet Peper, Lucia Pattarini, Alix Scholer-Dahirel
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Publication number: 20210198380Abstract: The disclosure provides a fusion polypeptide specific for both CD137 and HER2/neu, which fusion polypeptide can be useful for directing CD137 clustering and activation to HER2/neu-positive tumor cells. Such fusion polypeptide can be used in many pharmaceutical applications, for example, as anti-cancer agents and/or immune modulators for the treatment or prevention of human diseases such as a variety of tumors. The present disclosure also concerns methods of making the fusion polypeptide described herein as well as compositions comprising such fusion polypeptide. The present disclosure further relates to nucleic acid molecules encoding such fusion polypeptide and to methods for generation of such fusion polypeptide and nucleic acid molecules. In addition, the application discloses therapeutic and/or diagnostic uses of such fusion polypeptide as well as compositions comprising one or more of such fusion polypeptides.Type: ApplicationFiled: November 12, 2020Publication date: July 1, 2021Inventors: Marlon Hinner, Christine Rothe, Shane Olwill, Rachida Siham Bel Aiba, Ulrich Moebius, Corinna Schlosser, Thomas Jean Jaquin
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Patent number: 11034737Abstract: The present disclosure provides hNGAL muteins that bind CGRP and can be used in various application including pharmaceutical applications, for example, migraine. The present disclosure also concerns methods of making one or more muteins described herein as well as compositions and combinations comprising one or more of such muteins. The present disclosure further relates to nucleic acid molecules encoding such muteins and to methods for generation of such muteins and nucleic acid molecules. In addition, the application discloses therapeutic and/or diagnostic uses of these muteins as well as compositions and combinations comprising one or more of such muteins.Type: GrantFiled: July 8, 2019Date of Patent: June 15, 2021Assignee: Pieris Pharmaceuticals GmbHInventors: Gabriele Matschiner, Christine Rothe, Alexander Wiedenmann, Rachida Siham Bel Aiba, Marlon Hinner, Andrea Allersdorfer, Bradley Lunde, Kazufumi Kubota, Mitsuhiro Makino, Sakiko Takahashi, Ryuji Hashimoto, Tohru Takahashi, Mamoru Otoyo
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Patent number: 10947284Abstract: The present invention relates to fusion molecules that have binding specificity for pyoverdine type I, II and III and pyochelin and can be used in various applications, including diagnostic and/or therapeutic applications, for example, to inhibit or reduce growth of P. aeruginosa and/or to prevent or treat P. aeruginosa biofilm infection as well as diseases or disorders associated with P. aeruginosa biofilm infection. The present invention also concerns methods of producing the fusion molecules described herein as well as compositions and kits comprising such fusion molecules. The present invention further relates to nucleic acid molecules encoding the fusion molecules described herein.Type: GrantFiled: April 24, 2019Date of Patent: March 16, 2021Assignee: Pieris Pharmaceuticals GmbHInventors: Carsten Corvey, Heike Stump, Jochen Kruip, Christian Lange, Ingo Focken, Dorothea Rat, Thomas Stuedemann, Hans-Falk Rasser, Juergen Schaefer, Bernard Calandra, Astrid Rey, Michael Mourez, Laurent Fraisse, Christine Rothe, Andrea Allersdorfer, Alexander Wiedenmann, Marlon Hinner, Bradley Lunde, Kristian Jensen, Martin Hülsmeyer
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Patent number: 10913778Abstract: The disclosure provides a fusion polypeptide specific for both CD137 and GPC3, which fusion polypeptide can be useful for directing CD137 clustering and activation to GPC3-positive tumor cells. Such fusion polypeptide can be used in many pharmaceutical applications, for example, as anti-cancer agents and/or immune modulators for the treatment or prevention of human diseases such as a variety of tumors. The present disclosure also concerns methods of making the fusion polypeptide described herein as well as compositions comprising such fusion polypeptide. The present disclosure further relates to nucleic acid molecules encoding such fusion polypeptide and to methods for generation of such fusion polypeptide and nucleic acid molecules. In addition, the application discloses therapeutic and/or diagnostic uses of such fusion polypeptide as well as compositions comprising one or more of such fusion polypeptides.Type: GrantFiled: May 18, 2016Date of Patent: February 9, 2021Assignee: Pieris Pharmaceuticals GmbHInventors: Marlon Hinner, Rachida Siham Bel Aiba, Christine Rothe, Shane Olwill, Corinna Schlosser
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Patent number: 10865250Abstract: The disclosure provides a fusion polypeptide specific for both CD137 and HER2/neu, which fusion polypeptide can be useful for directing CD137 clustering and activation to HER2/neu-positive tumor cells. Such fusion polypeptide can be used in many pharmaceutical applications, for example, as anti-cancer agents and/or immune modulators for the treatment or prevention of human diseases such as a variety of tumors. The present disclosure also concerns methods of making the fusion polypeptide described herein as well as compositions comprising such fusion polypeptide. The present disclosure further relates to nucleic acid molecules encoding such fusion polypeptide and to methods for generation of such fusion polypeptide and nucleic acid molecules. In addition, the application discloses therapeutic and/or diagnostic uses of such fusion polypeptide as well as compositions comprising one or more of such fusion polypeptides.Type: GrantFiled: May 4, 2016Date of Patent: December 15, 2020Assignee: Pieris Pharmaceuticals GmbHInventors: Marlon Hinner, Christine Rothe, Shane Olwill, Rachida Siham Bel Aiba, Ulrich Moebius, Corinna Schlosser, Thomas Jean Jaquin
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Publication number: 20200377563Abstract: The present invention relates to novel, specific-binding therapeutic and/or diagnostic polypeptides directed against the target of Swiss Prot Q16552 and novel, specific-binding therapeutic and/or diagnostic polypeptides directed against the target of Swiss Prot Q9NPF7. In addition, the present invention relates to novel, specific-binding therapeutic and/or diagnostic polypeptides directed against one or both of Swiss Prot Q16552 and Swiss Prot Q9NPF7. The invention also relates to nucleic acid molecules encoding such polypeptides and to methods for generation of such polypeptides and nucleic acid molecules. In addition, the invention is directed to compositions comprising the polypeptides, and therapeutic and/or diagnostic uses of these polypeptides.Type: ApplicationFiled: August 6, 2020Publication date: December 3, 2020Inventors: Marlon Hinner, Alexander Wiedenmann, Andrea Allersdorfer
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Patent number: 10787491Abstract: The present disclosure relates to novel, specific-binding therapeutic and/or diagnostic proteins directed against Glypican-3 (GPC3), which proteins preferably are muteins of a lipocalin protein, more preferably of lipocalin 2 (Lcn2 or NGAL). Present disclosure also relates to nucleic acid molecules encoding such proteins and to methods for generation and use of such proteins and nucleic acid molecules. Accordingly, present disclosure also is directed to pharmaceutical and/or diagnostic compositions comprising such lipocalin proteins, including uses of these proteins.Type: GrantFiled: April 19, 2019Date of Patent: September 29, 2020Assignee: Pieris Pharmaceuticals GmbHInventors: Marlon Hinner, Andrea Allersdorfer, Rachida Siham Bel Aiba, Michaela Aloe, Alexander Wiedenmann, Gabriele Matschiner, Martin Huelsmeyer
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Patent number: 10774119Abstract: The present invention relates to novel, specific-binding therapeutic and/or diagnostic polypeptides directed against the target of Swiss Prot Q16552 and novel, specific-binding therapeutic and/or diagnostic polypeptides directed against the target of Swiss Prot Q9NPF7. In addition, the present invention relates to novel, specific-binding therapeutic and/or diagnostic polypeptides directed against one or both of Swiss Prot Q16552 and Swiss Prot Q9NPF7. The invention also relates to nucleic acid molecules encoding such polypeptides and to methods for generation of such polypeptides and nucleic acid molecules. In addition, the invention is directed to compositions comprising the polypeptides, and therapeutic and/or diagnostic uses of these polypeptides.Type: GrantFiled: May 20, 2015Date of Patent: September 15, 2020Assignee: Pieris Pharmaceuticals GmbHInventors: Marlon Hinner, Alexander Wiedenmann, Andrea Allersdorfer
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Publication number: 20200148733Abstract: The present invention relates to novel, specific-binding therapeutic and/or diagnostic polypeptides directed against the target of Swiss Prot Q16552 and novel, specific-binding therapeutic and/or diagnostic polypeptides directed against the target of Swiss Prot Q9NPF7. In addition, the present invention relates to novel, specific-binding therapeutic and/or diagnostic polypeptides directed against one or both of Swiss Prot Q16552 and Swiss Prot Q9NPF7. The invention also relates to nucleic acid molecules encoding such polypeptides and to methods for generation of such polypeptides and nucleic acid molecules. In addition, the invention is directed to compositions comprising the polypeptides, and therapeutic and/or diagnostic uses of these polypeptides.Type: ApplicationFiled: November 21, 2019Publication date: May 14, 2020Inventors: Marlon Hinner, Laurent Audoly, Martin Huelsmeyer, Kristian Jensen, Gabriele Matschiner, Shane Olwill, Alexander Wiedenmann, Andrea Allersdorfer
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Patent number: 10526384Abstract: The present invention relates to novel, specific-binding therapeutic and/or diagnostic polypeptides directed against the target of Swiss Prot Q16552 and novel, specific-binding therapeutic and/or diagnostic polypeptides directed against the target of Swiss Prot Q9NPF7. In addition, the present invention relates to novel, specific-binding therapeutic and/or diagnostic polypeptides directed against one or both of Swiss Prot Q16552 and Swiss Prot Q9NPF7. The invention also relates to nucleic acid molecules encoding such polypeptides and to methods for generation of such polypeptides and nucleic acid molecules. In addition, the invention is directed to compositions comprising the polypeptides, and therapeutic and/or diagnostic uses of these polypeptides.Type: GrantFiled: November 20, 2013Date of Patent: January 7, 2020Assignee: Pieris Pharmaceuticals GmbHInventors: Marlon Hinner, Laurent Audoly, Martin Huelsmeyer, Kristian Jensen, Gabriele Matschiner, Shane Olwill, Alexander Wiedenmann, Andrea Allersdorfer
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Publication number: 20190382455Abstract: The present invention relates to fusion molecules that have binding specificity for pyoverdine type I, II and III and pyochelin and can be used in various applications, including diagnostic and/or therapeutic applications, for example, to inhibit or reduce growth of P. aeruginosa and/or to prevent or treat P. aeruginosa biofilm infection as well as diseases or disorders associated with P. aeruginosa biofilm infection. The present invention also concerns methods of producing the fusion molecules described herein as well as compositions and kits comprising such fusion molecules. The present invention further relates to nucleic acid molecules encoding the fusion molecules described herein.Type: ApplicationFiled: April 24, 2019Publication date: December 19, 2019Inventors: Carsten Corvey, Heike Stump, Jochen Kruip, Christian Lange, Ingo Focken, Dorothea Rat, Thomas Stuedemann, Hans-Falk Rasser, Juergen Schaefer, Bernard Calandra, Astrid Rey, Michael Mourez, Laurent Fraisse, Christine Rothe, Andrea Allersdorfer, Alexander Wiedenmann, Marlon Hinner, Bradley Lunde, Kristian Jensen, Martin Hülsmeyer
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Publication number: 20190338002Abstract: The present disclosure provides hNGAL muteins that bind CGRP and can be used in various application including pharmaceutical applications, for example, migraine. The present disclosure also concerns methods of making one or more muteins described herein as well as compositions and combinations comprising one or more of such muteins. The present disclosure further relates to nucleic acid molecules encoding such muteins and to methods for generation of such muteins and nucleic acid molecules.Type: ApplicationFiled: July 8, 2019Publication date: November 7, 2019Inventors: Gabriele Matschiner, Christine Rothe, Alexander Wiedenmann, Rachida Siham Bel Aiba, Marlon Hinner, Andrea Allersdorfer, Bradley Lunde, Kazufumi Kubota, Mitsuhiro Makino, Sakiko Takahashi, Ryuji Hashimoto, Tohru Takahashi, Mamoru Otoyo