Draft:Cardior Pharmaceuticals

Cardior Pharmaceuticals GmbH
Company type	GmbH
Industry	Biotechnology
Founded	2016 in Hanover, Germany
Founders	Prof. Dr. Dr. Thomas Thum; Dr. Claudia Ulbrich; Dr. Sandor Batkai
Headquarters	Hollerithallee 20, 30419 Hannover, Germany
Key people	Dr. Claudia Ulbrich (CEO); Prof. Dr. Dr. Thomas Thum (CMO/CSO); Axel-Sven Malkomes (CFO)
Number of employees	27 (2023)
Website	cardior.de

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Instructions · What links here · Cardior Pharmaceuticals (talk: + · bio) · (log) · Copyvios report · reFill · Citation Bot · (Search: Google, Wikipedia) · Submitted 18 months ago by Cinatemp (talk: D · +) · Last edited 18 months ago by Cinatemp

Company

Cardior Pharmaceuticals GmbH is a clinical-stage biopharmaceutical company based in Hanover Germany founded in 2016. The company is developing curative and preventive heart failure therapeutics based on noncoding RNAs (ncRNAs).^[1]

Scientific Approach

Cardior’s approach is based on the latest research in RNA biology and addresses the root causes of heart failure (HF) development. Non-coding RNAs (ncRNAs) are important regulators for many cellular processes, particularly in pathological condition or during disease. In heart disease or following cardiac stress such as myocardial infarction (MI), the human heart undergoes a process termed cardiac remodeling. This is initially an adaptive response, but it soon leads to pathological cardiac hypertrophy, fibrosis altering the biomechanical properties of the heart, and finally to impairment of contractility function so the heart is unable to effectively pump blood through the body and deliver enough oxygen and nutrients to the organs. ^[2] Currently available therapeutic solutions deal with the consequences of heart failure, alleviate the symptoms but do not halt its development.

MicroRNA-132 (miR-132), present in cytoplasm of cardiac muscle cells, was identified by Hannover Medical School (MHH) as an important indicator of cardiac stress and the main trigger of cardiac remodeling. ^[3] An increase of miR-132 in cardiac tissue drives abnormal expression of genes that are crucially involved in cardiac function and derail cellular signaling leading to cardiac remodeling and heart failure.

CDR132L - Cardior’s lead candidate - is designed to address the root cause of pathological remodeling of the heart following MI and thereby halt and reverse the detrimental signaling cascade and restore normal function of the heart.^[4] CDR132L blocks abnormal levels of miR-132 thus triggering a concerted therapeutic effect against key hallmarks of heart disease by normalization of derailed gene expression signatures. These include expression of genes regulating cardiac hypertrophy, fibrosis, impaired contractility, and reduced vascularization.

Initially evaluated in mice with pressure-overload induced heart failure and in miR-132 transgenic HF mouse models, CDR132L treatment reduced functional miR-132 level and reversed cardiac dilatation along with an improvement of cardiac function. The safety and therapeutic efficacy of CDR132L was further assessed in numerous large animal models. ^[5]^[6]^[7]

Clinical Study

The first-in-human Phase 1b clinical study confirmed CDR132L to be safe and well-tolerated having demonstrated first beneficial cardiac signs in heart failure patients^[8](NCT04045405)^[9] CDR132L is currently being investigated in the company’s Phase 2 HF-REVERT trial. ^[10] HF-REVERT is a multicenter, randomized, parallel 3-arm, placebo-controlled study to assess the efficacy and safety of CDR132L in 280 patients with reduced LVEF after myocardial infarction. The study is being conducted at over 70 clinical study centers across Europe.

CardiorHealth miR-132 PCR kit

Cardior has developed a PCR kit to measure the levels of microRNA-132 (miR-132) circulating in the blood of the patients receiving the company’s lead candidate CDR132L, an oligonucleotide-based miR-132 inhibitor. The marking for CardiorHealth miR-132 PCR kit was received in September 2022. CE Marking is an acronym for the French “Conformité Européenne” certifying that a product has met EU health, safety, and environmental requirements, which ensure consumer safety.

Financing

BioMedPartners, Bristol Myers Squibb, Coparion, EQT, Fund+, Hadean Ventures, INKEF Capital, High-Tech Gründefunds, Sunstone.

Patents

Cardior holds an IP portfolio of over 150 patents and applications in 35 countries exclusively licensed to or owned by the Company.

Timeline

2016 - Cardior Pharmaceuticals GmbH founded in Hanover, Germany

2017 - Lead compound selection

2020 - Phase 1b Clinical Study completed

2022 - Start of HF-REVERT Phase 2 Study in heart failure patients

References

^ Sheridan, Cormac (2023-04-04). "Genetic medicines aim straight for the heart". Nature Biotechnology (41): 435–437. doi:10.1038/s41587-023-01745-4.
^ Bauersachs, Johann; Butler, Javed; Sandner, Peter. Heart Failure. ISBN 978-3-319-59659-4.
^ Ucar, A; Gupta, SK; Fiedler, J; Erikci, E; Kardasinski, M; Batkai, S; Dangwal, S; Kumarswamy, R; Bang, C; Holzmann, A; Remke, J; Caprio, M; Jenzsch, C; Engelhardt, S; Geisendorf, S; Glas, C; Hofmann, TG; Nessling, M; Richter, K; Schiffer, M; Carrier, L; Napp, LC; Bauersachs, J; Chowdhury, K; Thum, T (2012). "The miRNA-212/132 family regulates both cardiac hypertrophy and cardiomyocyte autophagy". Nat. Commun. (3): 1078. doi:10.1038/ncomms2090.
^ "Company website". Retrieved 2023-06-09.
^ Foinquinos, A.; Batkai, S.; Genschel, C.; et, al. "Preclinical development of a miR-132 inhibitor for heart failure treatment". Nat. Commun. (11(1)). doi:10.1038/s41467-020-14349-2.
^ Batkai, S.; Genschel, C.; Viereck, J.; et, al. (2021). "CDR132L improves systolic and diastolic function in a large animal model of chronic heart failure". Eur. Heart J (42(2)): 192–201. doi:10.1093/eurheartj/ehaa791.
^ Hinkel, R.; Batkai, S; Bähr, A.; et, al. "AntimiR-132 Attenuates Myocardial Hypertrophy in an Animal Model of Percutaneous Aortic Constriction". J Am Coll Cardiol (77(23)): 2923–35. doi:10.1016/JACC.2021.04.028.
^ Täubel, J; Hauke, W; Rump, S; et, al (2021). "Novel antisense therapy targeting microRNA-132 in patients with heart failure: Results of a first-in-human Phase 1b randomized, double-blind, placebo-controlled study". Eur Heart J (42(2)): 178–88. doi:10.1093/eurheartj/ehaa898.
^ "NCT04045405". clinical.trials.gov. Retrieved 2023-06-09.
^ "NCT05350969". clinical.trials.gov. Retrieved 2023-06-09.

[1] Sheridan, Cormac (2023-04-04). "Genetic medicines aim straight for the heart". Nature Biotechnology (41): 435–437. doi:10.1038/s41587-023-01745-4.

[2] Bauersachs, Johann; Butler, Javed; Sandner, Peter. Heart Failure. ISBN 978-3-319-59659-4.

[3] Ucar, A; Gupta, SK; Fiedler, J; Erikci, E; Kardasinski, M; Batkai, S; Dangwal, S; Kumarswamy, R; Bang, C; Holzmann, A; Remke, J; Caprio, M; Jenzsch, C; Engelhardt, S; Geisendorf, S; Glas, C; Hofmann, TG; Nessling, M; Richter, K; Schiffer, M; Carrier, L; Napp, LC; Bauersachs, J; Chowdhury, K; Thum, T (2012). "The miRNA-212/132 family regulates both cardiac hypertrophy and cardiomyocyte autophagy". Nat. Commun. (3): 1078. doi:10.1038/ncomms2090.

[4] "Company website". Retrieved 2023-06-09.

[5] Foinquinos, A.; Batkai, S.; Genschel, C.; et, al. "Preclinical development of a miR-132 inhibitor for heart failure treatment". Nat. Commun. (11(1)). doi:10.1038/s41467-020-14349-2.

[6] Batkai, S.; Genschel, C.; Viereck, J.; et, al. (2021). "CDR132L improves systolic and diastolic function in a large animal model of chronic heart failure". Eur. Heart J (42(2)): 192–201. doi:10.1093/eurheartj/ehaa791.

[7] Hinkel, R.; Batkai, S; Bähr, A.; et, al. "AntimiR-132 Attenuates Myocardial Hypertrophy in an Animal Model of Percutaneous Aortic Constriction". J Am Coll Cardiol (77(23)): 2923–35. doi:10.1016/JACC.2021.04.028.

[8] Täubel, J; Hauke, W; Rump, S; et, al (2021). "Novel antisense therapy targeting microRNA-132 in patients with heart failure: Results of a first-in-human Phase 1b randomized, double-blind, placebo-controlled study". Eur Heart J (42(2)): 178–88. doi:10.1093/eurheartj/ehaa898.

[9] "NCT04045405". clinical.trials.gov. Retrieved 2023-06-09.

[10] "NCT05350969". clinical.trials.gov. Retrieved 2023-06-09.

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