The Heart of the Matter: Leveraging Advances in Cardiac Biology to Innovate Gene-Based Therapies for Heart Failure – Physician’s Weekly
By daniellenierenberg
Heart failure (HF) is the most frequent cardiovascular diagnosis and exacts significant health and financial costs around the globe. It is estimated that at least 26 million people worldwide are living with HF, including nearly 6 million in the United States.1, 2 One in nine U.S. deaths in 2009 included heart failure as a contributing cause and about 50 percent of people in the U.S. with HF die within five years of diagnosis.2 The annual cost of HF-related healthcare services, medication and missed days of work is estimated at $40 billion in the United States and $108 billion globally.3, 4 Quality of life in HF patients is frequently worse than many other chronic diseases and comorbidities are common.5-7 The challenges of HF are expected to grow, as it is estimated that more than 8 million people in the United States alone will have HF by 2030.2 Current therapies improve quality of life in the short-term and have improved long-term survival but a significant number of patients have Class 3 HF despite optimal medical and device therapy. These patients have limited treatment options beyond heart transplant and left ventricular assist devices (LVAD). New therapeutic approaches that address the underlying causes of HF are needed to improve patient outcomes.
Heart failure is a complex disease process and multiple pathways contribute to its development and progression. Myocardial ischemia is frequently an issue in both ischemic and non-ischemic cardiomyopathy as well as HF with preserved and/or reduced ejection fraction. Myocardial ischemia results in insufficient oxygen and nutrients and leads to hypoxia, cardiomyocyte and fibrosis, which all contribute to the progression of heart failure. More effective angiogenesis may prevent this progression. Cell homing also plays a critical role, as injured cardiac tissue secretes factors that lead to the recruitment, proliferation, migration and differentiation of progenitor cells that can help repair tissue damage. Stromal cell-derived factor (SDF)-1 has been shown to play an important role in cardiac repair by mediating cell homing.10 Mitochondrial energy generation is also impaired in HF, leading to decreased contractility and adverse changes to cardiac architecture.11 Scar tissue formed in response to cardiomyocyte injury or death can compromise the hearts mechanical strength or electrical signaling results in myocardial infarction. Inflammatory responses to cardiac tissue damage can promote inappropriate and chronic inflammation and the expression of pro-inflammatory molecules that lead to pathologic changes to cardiac architecture.12, 13
These pathways offer a variety of potential new targets for therapeutic intervention to prevent the development and progression of HF. This opens the door to the development of novel therapies that address the underlying molecular and cellular causes of disease rather than treating HF symptoms alone.
After decades of development, gene-based therapies are now validated therapeutic modalities for the treatment of inherited retinal disorders and cancer and are undergoing clinical evaluation in a variety of inherited, acute and chronic diseases. Nearly two dozen single gene-based therapies for HF have been evaluated in clinical trials.14 Genes evaluated as monogenic gene therapy for HF in clinical trials include vascular endothelial growth factor (VEGF) and fibroblast growth factor type 4 (FGF4) to promote angiogenesis; adenylyl cyclase type 6 (AC6) and sarco/endoplasmic reticulum Ca2+-ATPase type 2 (SERCA2) to improve cardiac calcium homeostasis, which plays a critical role in the contraction and relaxation of heart muscle; and stromal cell-derived factor-1 (SDF-1) to improve cell homing and promote cardiac tissue repair. Late-stage trials of single gene therapies have yielded conflicting results, raising the question as to whether positively impacting a single pathway can be sufficient to overcome detrimental activity of other pathways that contribute to the development and progression of HF. Other potential limitations to HF therapies evaluated in clinical trials to date include the method of delivery, dose and the potency of vectors and gene products.
Given the multiple molecular and cellular pathways active in HF, a multi-gene approach to HF gene therapy may be needed. Simultaneously delivering multiple genes that target diverse HF-related pathways has the potential to improve cardiac biology and function. A triple gene therapy approach (INXN-4001, Triple-Gene LLC, a majority-owned subsidiary of Intrexon Corporation) is currently in clinical development, with each of the genes targeting a specific HF-related pathway. The investigational drug candidate INXN4001 vector expresses: the S100A1 gene product, which regulates calcium-controlled networks and modulates contractility, excitability, maintenance of cellular metabolism and survival; SDF-1a which recruits stem cells, inhibits apoptosis and supports new blood vessel formation; and VEGF-165 which initiates new vessel formation, endothelial cell migration/activation, stem cell recruitment and tissue regeneration. The hypothesis is that the simultaneous delivery of multiple genes in a single vector would more effectively improve multiple aspects of cardiac function compared with single gene therapy. It is delivered by retrograde coronary sinus infusion of a triple effector plasmid designed with a self-cleaving linker to constitutively express human S100A1, SDF-1a and VEGF 165. This route is designed to allow for delivery of a dose to the ventricle which may help achieve improved therapeutic effect.
Several preclinical studies have set the foundation on which to advance a triple gene therapy for HF into the clinic.15-17 Using in vitro studies, transfecting cells derived from patients with dilated cardiomyopathy with a triple gene combination demonstrated improvement in contraction rate and duration, to the levels demonstrated by the control cells and did not result in increased cell death compared to controls.15 Studies in an Adriamycin-induced cardiomyopathy rodent model demonstrated triple gene therapy increased fractional shortening and myocardial wall thickness compared to controls.16 In addition, retrograde coronary sinus infusion of INXN-4001 in a porcine model of ischemic HF resulted in a cardiac-specific biodistribution profile.17
A Phase 1 clinical study has been initiated to evaluate the safety of a single dose of triple gene therapy in stable patients implanted with a LVAD for mechanical support of end-stage HF. An independent Data and Safety Monitoring Board agreed to proceeding to the second cohort following review of the data from the first cohort in the multi-site study.18 The study is ongoing and final results will help to inform our understanding of the potential that multi-gene therapy may play in the treatment of HF.
The recent FDA approvals of gene therapies for an inherited retinal disease and cancer are evidence that gene therapy is a valid therapeutic strategy. Realizing the potential of gene therapy in HF will require appropriately designed clinical trials, but several interesting approaches currently in development may prove to be effective. The results of the initial investigational drug INXN-4001 Phase 1 trial should provide insight into the safety of combining S100A1, SDF-1a and VEGF-165. Evaluation of additional multi-gene combinations will also be important for understanding which targeted pathways yield the greatest effects with respect to relevant clinical endpoints. Continued refinement and optimization of vector design and delivery methods will also be important for advancing further HF gene therapies from bench to bedside.
Read the original post:
The Heart of the Matter: Leveraging Advances in Cardiac Biology to Innovate Gene-Based Therapies for Heart Failure - Physician's Weekly
- Secretome Therapeutics Closes $20.4 Million Financing Round to Advance Cardiomyopathy and Heart Failure Therapies - Business Wire - November 29th, 2024
- Developing the Cell-Based Therapies of the Future - University of Miami - November 15th, 2024
- Advancing heart stem cell therapy - UHN Foundation - November 15th, 2024
- Heart defects affect 40,000 US babies every year but cutting edge AI and stem cell tech will save lives and even cure them in the womb - New York... - November 15th, 2024
- Science Is Finding Ways to Regenerate Your Heart - The Wall Street Journal - November 6th, 2024
- AIIMS Bathinda Makes Breakthrough in Stem Cell Therapy Research for Heart Ailments - Elets - October 21st, 2024
- USC launches collaboration with StemCardia to advance heart regeneration therapies - University of Southern California - October 13th, 2024
- The heart is a resident tissue for hematopoietic stem and progenitor cells in zebrafish - Nature.com - September 3rd, 2024
- Opthea Announces Results of the A$55.9m (US$36.9m¹) Retail Entitlement Offer - July 16th, 2024
- Benitec Biopharma Reports Continued Durable Improvements in the Radiographic Assessments of Swallowing Efficiency and the Subject-Reported Outcome... - July 16th, 2024
- AstraZeneca Closes Acquisition of Amolyt Pharma - July 16th, 2024
- Addex Presents Positive Results from GABAB PAM Cough Program at the Thirteenth London International Cough Symposium (13th LICS) - July 16th, 2024
- Lexeo Therapeutics Announces Positive Interim Phase 1/2 Clinical Data of LX2006 for the Treatment of Friedreich Ataxia Cardiomyopathy - July 16th, 2024
- ANI Pharmaceuticals Announces the FDA Approval and Launch of L-Glutamine Oral Powder - July 16th, 2024
- MediWound Announces $25 Million Strategic Private Placement Financing - July 16th, 2024
- Atsena Therapeutics Appoints Joseph S. Zakrzewski as Board Chair - July 16th, 2024
- ASLAN Pharmaceuticals Announces Receipt of Nasdaq Delisting Determination; Has Determined Not to Appeal - July 16th, 2024
- Kraig Biocraft Laboratories Completes Phase One of its Spider Silk Production Facility Expansion - July 16th, 2024
- Pliant Therapeutics Announces Positive Long-Term Data from the INTEGRIS-PSC Phase 2a Trial Demonstrating Bexotegrast was Well Tolerated at 320 mg with... - July 16th, 2024
- Oncternal Announces Enrollment Completed and Dosing Initiated for Sixth Dose Cohort of Phase 1/2 Study of ONCT-534 for the Treatment of R/R Metastatic... - July 16th, 2024
- Rectify Pharmaceuticals Appoints Bharat Reddy as Chief Business Officer - July 16th, 2024
- Spectral AI Continues Support of Naked Short Selling Inquiry - July 16th, 2024
- Milestone Pharmaceuticals Refreshes Board of Directors - July 16th, 2024
- New Published Data Highlights Potential Cost-Savings of INPEFA® (sotagliflozin) for Heart Failure - July 16th, 2024
- Regenerative medicine can be a boon for those with Drug-Resistant Tuberculosis - Hindustan Times - April 21st, 2023
- Cardiac stem cells: Current knowledge and future prospects - April 13th, 2023
- Stem cell therapies in cardiac diseases: Current status and future ... - April 13th, 2023
- Stem Cell and Regenerative Biology | Johns Hopkins Heart and Vascular ... - April 13th, 2023
- Center for Regenerative Biotherapeutics - Cardiac Regeneration - April 13th, 2023
- MAGENTA THERAPEUTICS, INC. MANAGEMENT'S DISCUSSION AND ANALYSIS OF FINANCIAL CONDITION AND RESULTS OF OPERATIONS (form 10-K) - Marketscreener.com - March 25th, 2023
- CAREDX, INC. MANAGEMENT'S DISCUSSION AND ANALYSIS OF FINANCIAL CONDITION AND RESULTS OF OPERATIONS (form 10-K) - Marketscreener.com - March 1st, 2023
- A Possible Connection between Mild Allergic Airway Responses and Cardiovascular Risk Featured in Toxicological Sciences - Newswise - February 4th, 2023
- Baby's life saved by surgeon who carried out world's first surgery ... - December 25th, 2022
- An organoid model of colorectal circulating tumor cells with stem cell ... - December 25th, 2022
- Skeletal Muscle Cell Induction from Pluripotent Stem Cells - December 1st, 2022
- Stem-cell niche - Wikipedia - December 1st, 2022
- Scientists Discover Protein Partners that Could Heal Heart Muscle | Newsroom - UNC Health and UNC School of Medicine - October 13th, 2022
- Global Induced Pluripotent Stem Cell ((iPSC) Market to Reach $0 Thousand by 2027 - Yahoo Finance - October 13th, 2022
- Scientists Spliced Human Brain Tissue Into The Brains of Baby Rats - ScienceAlert - October 13th, 2022
- Decoding the transcriptome of calcified atherosclerotic plaque at single-cell resolution | Communications Biology - Nature.com - October 13th, 2022
- Global Synthetic Stem Cells Market Is Expected To Reach Around USD 42 Million By 2025 - openPR - October 13th, 2022
- Merck and Moderna Announce Exercise of Option by Merck for Joint Development and Commercialization of Investigational Personalized Cancer Vaccine -... - October 13th, 2022
- Regenerative Medicine For Heart Diseases: How It Is Better Than Conventional Treatments | TheHealthSite.co - TheHealthSite - October 5th, 2022
- 'Love hormone' oxytocin could help reverse damage from heart attacks via cell regeneration - Study Finds - October 5th, 2022
- Recapitulating Inflammation: How to Use the Colon Intestine-Chip to Study Complex Mechanisms of IBD - Pharmaceutical Executive - September 27th, 2022
- Adult Stem Cells // Center for Stem Cells and Regenerative Medicine ... - September 19th, 2022
- CCL7 as a novel inflammatory mediator in cardiovascular disease, diabetes mellitus, and kidney disease - Cardiovascular Diabetology - Cardiovascular... - September 19th, 2022
- Kite's CAR T-cell Therapy Yescarta First in Europe to Receive Positive CHMP Opinion for Use in Second-line Diffuse Large B-cell Lymphoma and... - September 19th, 2022
- Neural crest - Wikipedia - September 3rd, 2022
- Rise In Number Of CROS In Various Regions Such As Europe Is Expected To Fuel The Growth Of Induced Pluripotent Stem Cell Market At An Impressive CAGR... - September 3rd, 2022
- Discover the Mental and Physical Health Benefits of Fasting - Intelligent Living - September 3rd, 2022
- Heart Association fellowship to support research - Binghamton - August 26th, 2022
- Repeated intravenous administration of hiPSC-MSCs enhance the efficacy of cell-based therapy in tissue regeneration | Communications Biology -... - August 26th, 2022
- High intensity interval training protects the heart against acute myocardial infarction through SDF-1a, CXCR4 receptors and c-kit levels - Newswise - August 26th, 2022
- Yale University: Uncovering New Approaches to a Common Inherited Heart Disorder | India Education - India Education Diary - August 10th, 2022
- Heart failure in obesity: insights from proteomics in patients treated with or without weight-loss surgery | International Journal of Obesity -... - August 10th, 2022
- Pigs died after heart attacks. Scientists brought their cells back to life. - Popular Science - August 10th, 2022
- Protocol for a Nested, Retrospective Study of the Australian Placental Transfusion Study Cohort - Cureus - August 10th, 2022
- Autologous Cell Therapy Market Size to Grow by USD 4.11 billion, Bayer AG and Brainstorm Cell Therapeutics Inc. Among Key Vendors - Technavio - PR... - August 2nd, 2022
- UTSW researcher part of team awarded $36 million heart research grant - The Dallas Morning News - August 2nd, 2022
- Buffalo center fuels research that can save your life from heart disease and stroke - Buffalo News - August 2nd, 2022
- Hyperglycaemia-Induced Impairment of the Autorhythmicity and Gap Junction Activity of Mouse Embryonic Stem Cell-Derived Cardiomyocyte-Like Cells -... - July 25th, 2022
- NASA's Solution to Stem Cell Production is Out of this World - BioSpace - July 25th, 2022
- Inhibition of pancreatic EZH2 restores progenitor insulin in T1D donor | Signal Transduction and Targeted Therapy - Nature.com - July 25th, 2022
- 'My Teen Sweetheart And I Drifted Apart. 30 Years Later I Made a Shocking Discovery' - Newsweek - July 25th, 2022
- EU: New Blood? Proposed Revisions to the EUs Blood, Tissues and Cells Rules - GlobalComplianceNews - July 25th, 2022
- Stem Cells Market to Expand at a CAGR of 10.4% from 2021 to 2028 Travel Adventure Cinema - Travel Adventure Cinema - July 25th, 2022
- Cell Separation Technologies Market Expands with Rise in Prevalence of Chronic Diseases, States TMR Study - GlobeNewswire - July 25th, 2022
- Dental Membrane and Bone Graft Substitutes Market to Exceed Value of US$ 1,337 Mn by 2031 - PR Newswire UK - July 25th, 2022
- Stem Cells Used to Repair Heart Defects in Children - NBC 5 Dallas-Fort Worth - July 16th, 2022
- Pneumonia and Heart Disease: What You Should Know - Healthline - July 16th, 2022
- Promising solution to fatal genetic-disorder complications discovered by University professor and Ph.D. candidate - Nevada Today - July 16th, 2022
- Current and advanced therapies for chronic wound infection - The Pharmaceutical Journal - July 16th, 2022
- Why do some women struggle to breastfeed? A UCSC researcher on what we know, and don't - Lookout Santa Cruz - July 16th, 2022
- Mesenchymal stem cells: from roots to boost - PMC - July 8th, 2022
- New study allows researchers to more efficiently form human heart cells from stem cells - University of Wisconsin-Madison - July 8th, 2022
- Dr Victor Chang saved hundreds of lives. 31 years ago today, he was murdered. - Mamamia - July 8th, 2022
- Exosome Therapeutics Market Research Report Size, Share, New Trends and Opportunity, Competitive Analysis and Future Forecast Designer Women -... - July 8th, 2022
- Cell Line Development Market: Increase in Prevalence of Cancer and Other Chronic Diseases to Drive the Market - BioSpace - July 8th, 2022
- Homology Medicines Announces Peer-Reviewed Publication on Novel Discovery of AAVHSC with Robust Distribution to the Central Nervous System and... - July 8th, 2022