Isabelle Dufresne

Allostera Pharma Inc. is a biopharmaceutical company that has developed an entirely new class of drugs, called Allosteramers™. Allosteramers™ have three main properties: 1) they are “allosteric”, meaning they do not bind to the same site as traditional drugs, potentially providing better safety, efficacy and an entirely new set of patentable intellectual properties, 2) they can have predictable and consistent drug properties, and 3) they are designed to be orally available. Using its Module X technology platform, Allostera has developed a pipeline of seven novel Allosteramers™ against different targets primarily focused on inflammation and autoimmunity including APG2305, a drug inhibiting the IL23 receptor, one of the most important targets in the autoimmune disease field. APG2305 has demonstrated oral activity in animal models of autoimmune diseases.

Allostera Pharma Inc. is a biopharmaceutical company that has developed an entirely new class of drugs, called Allosteramers™. Allosteramers™ have three main properties: 1) they are “allosteric”, meaning they do not bind to the same site as traditional drugs, potentially providing better safety, efficacy and an entirely new set of patentable intellectual properties, 2) they can have predictable and consistent drug properties, and 3) they are designed to be orally available. Using its Module X technology platform, Allostera has developed a pipeline of seven novel Allosteramers™ against different targets primarily focused on inflammation and autoimmunity including APG2305, a drug inhibiting the IL23 receptor, one of the most important targets in the autoimmune disease field. APG2305 has demonstrated oral activity in animal models of autoimmune diseases.

Allostera Pharma Inc. is a biopharmaceutical company that has developed an entirely new class of drugs, called Allosteramers™. Allosteramers™ have three main properties: 1) they are “allosteric”, meaning they do not bind to the same site as traditional drugs, potentially providing better safety, efficacy and an entirely new set of patentable intellectual properties, 2) they can have predictable and consistent drug properties, and 3) they are designed to be orally available. Using its Module X technology platform, Allostera has developed a pipeline of seven novel Allosteramers™ against different targets primarily focused on inflammation and autoimmunity including APG2305, a drug inhibiting the IL23 receptor, one of the most important targets in the autoimmune disease field. APG2305 has demonstrated oral activity in animal models of autoimmune diseases.

Allostera Pharma Inc. is a biopharmaceutical company that has developed an entirely new class of drugs, called Allosteramers™. Allosteramers™ have three main properties: 1) they are “allosteric”, meaning they do not bind to the same site as traditional drugs, potentially providing better safety, efficacy and an entirely new set of patentable intellectual properties, 2) they can have predictable and consistent drug properties, and 3) they are designed to be orally available. Using its Module X technology platform, Allostera has developed a pipeline of seven novel Allosteramers™ against different targets primarily focused on inflammation and autoimmunity including APG2305, a drug inhibiting the IL23 receptor, one of the most important targets in the autoimmune disease field. APG2305 has demonstrated oral activity in animal models of autoimmune diseases.

Allostera Pharma Inc. is a biopharmaceutical company that has developed an entirely new class of drugs, called Allosteramers™. Allosteramers™ have three main properties: 1) they are “allosteric”, meaning they do not bind to the same site as traditional drugs, potentially providing better safety, efficacy and an entirely new set of patentable intellectual properties, 2) they can have predictable and consistent drug properties, and 3) they are designed to be orally available. Using its Module X technology platform, Allostera has developed a pipeline of seven novel Allosteramers™ against different targets primarily focused on inflammation and autoimmunity including APG2305, a drug inhibiting the IL23 receptor, one of the most important targets in the autoimmune disease field. APG2305 has demonstrated oral activity in animal models of autoimmune diseases.

Allostera Pharma Inc. is a biopharmaceutical company that has developed an entirely new class of drugs, called Allosteramers™. Allosteramers™ have three main properties: 1) they are “allosteric”, meaning they do not bind to the same site as traditional drugs, potentially providing better safety, efficacy and an entirely new set of patentable intellectual properties, 2) they can have predictable and consistent drug properties, and 3) they are designed to be orally available. Using its Module X technology platform, Allostera has developed a pipeline of seven novel Allosteramers™ against different targets primarily focused on inflammation and autoimmunity including APG2305, a drug inhibiting the IL23 receptor, one of the most important targets in the autoimmune disease field. APG2305 has demonstrated oral activity in animal models of autoimmune diseases.

Allostera Pharma Inc. is a biopharmaceutical company that has developed an entirely new class of drugs, called Allosteramers™. Allosteramers™ have three main properties: 1) they are “allosteric”, meaning they do not bind to the same site as traditional drugs, potentially providing better safety, efficacy and an entirely new set of patentable intellectual properties, 2) they can have predictable and consistent drug properties, and 3) they are designed to be orally available. Using its Module X technology platform, Allostera has developed a pipeline of seven novel Allosteramers™ against different targets primarily focused on inflammation and autoimmunity including APG2305, a drug inhibiting the IL23 receptor, one of the most important targets in the autoimmune disease field. APG2305 has demonstrated oral activity in animal models of autoimmune diseases.

Allostera Pharma Inc. is a biopharmaceutical company that has developed an entirely new class of drugs, called Allosteramers™. Allosteramers™ have three main properties: 1) they are “allosteric”, meaning they do not bind to the same site as traditional drugs, potentially providing better safety, efficacy and an entirely new set of patentable intellectual properties, 2) they can have predictable and consistent drug properties, and 3) they are designed to be orally available. Using its Module X technology platform, Allostera has developed a pipeline of seven novel Allosteramers™ against different targets primarily focused on inflammation and autoimmunity including APG2305, a drug inhibiting the IL23 receptor, one of the most important targets in the autoimmune disease field. APG2305 has demonstrated oral activity in animal models of autoimmune diseases.

Allostera Pharma Inc. is a biopharmaceutical company that has developed an entirely new class of drugs, called Allosteramers™. Allosteramers™ have three main properties: 1) they are “allosteric”, meaning they do not bind to the same site as traditional drugs, potentially providing better safety, efficacy and an entirely new set of patentable intellectual properties, 2) they can have predictable and consistent drug properties, and 3) they are designed to be orally available. Using its Module X technology platform, Allostera has developed a pipeline of seven novel Allosteramers™ against different targets primarily focused on inflammation and autoimmunity including APG2305, a drug inhibiting the IL23 receptor, one of the most important targets in the autoimmune disease field. APG2305 has demonstrated oral activity in animal models of autoimmune diseases.

Allostera Pharma Inc. is a biopharmaceutical company that has developed an entirely new class of drugs, called Allosteramers™. Allosteramers™ have three main properties: 1) they are “allosteric”, meaning they do not bind to the same site as traditional drugs, potentially providing better safety, efficacy and an entirely new set of patentable intellectual properties, 2) they can have predictable and consistent drug properties, and 3) they are designed to be orally available. Using its Module X technology platform, Allostera has developed a pipeline of seven novel Allosteramers™ against different targets primarily focused on inflammation and autoimmunity including APG2305, a drug inhibiting the IL23 receptor, one of the most important targets in the autoimmune disease field. APG2305 has demonstrated oral activity in animal models of autoimmune diseases.

Gestion Fonds InnovExport Commandité inc (Fonds Innovexport) is a venture capital firm founded in 2016. The firm is headquartered in Quebec, Canada.

Gestion Fonds InnovExport Commandité inc (Fonds Innovexport) is a venture capital firm founded in 2016. The firm is headquartered in Quebec, Canada.