MeiraGTx Expands Neurodegenerative Gene Therapy Pipeline in Collaboration with Weill Cornell Medicine
December 12, 2016 – 12:53 pm
MeiraGTx, a New York and UK based gene therapy company, announces the expansion of its Neurodegenerative Disease gene therapy pipeline. Research into the causes of neurodegenerative disease has converged upon the central idea that misfolded proteins play a critical role in damaging neuronal function and the ultimate progression to neuronal cell death. The new program, a collaboration with Dr. Greg Petsko of Weill Cornell Medicine, targets neurodegenerative disease by altering neuronal protein processing. Leveraging seminal work from Dr. Petsko, the Arthur J. Mahon Professor of Neuroscience and Director of its Helen and Robert Appel Alzheimer's Disease Research Institute in the Feil Family Brain and Mind Research Institute at Weill Cornell Medicine, and his colleagues, the new program targets one of the master regulators of protein trafficking, known as retromer. Dr. Petsko and colleagues have developed genetic strategies to reprogram retromer, impacting protein trafficking, processing and aggregation. Using a gene therapy approach, the team aims to modulate retromer function to treat several inherited and age-related neurodegenerative diseases including Alzheimer's and Parkinson's disease.
November 30, 2016 – 2:58 pm
A new discovery may unlock the answer to a vexing scientific question: How to conduct mitochondrial replacement therapy, a new gene-therapy technique, in such a way that safely prevents the transmission of harmful mitochondrial gene mutations from mothers to their children. A study to be published Nov. 30 in the journal Nature suggests that clinicians select egg donors whose mitochondrial DNA (mtDNA) is compatible to the mother's ancestral mitochondria. Similar groups of mitochondrial DNA are known as haplotypes, each of which represents major branching points on the human genetic family tree. "This research suggests that we're going to have the greatest success rates for producing an embryo free of disease-causing genetic mutations by making sure we are using the right combination of haplotypes," said senior author Shoukhrat Mitalipov, Ph.D., who directs the Center for Embryonic Cell and Gene Therapy at OHSU.
November 15, 2016 – 3:08 pm
As the global spread of the Zika virus continues, efforts are underway to halt the disease's transmission. While no licensed therapies or vaccines to protect against the Zika virus are currently available, new research published in the journal npj Vaccines demonstrates how a synthetic DNA vaccine approach successfully protected against infection, brain damage and death caused by the mosquito-borne Zika virus in vivo. In this preclinical study, 100 percent of the animal models were protected from Zika after vaccination followed by a challenge with the Zika virus. In addition, they were protected from degeneration in the cerebral cortex and hippocampal areas of the brain, while the other cohort showed degeneration of the brain after Zika infection.
November 14, 2016 – 4:00 pm
For the first time, National Institutes of Health researchers have demonstrated in mice that gene therapy may be the best method for correcting the single faulty gene that causes Niemann-Pick disease, type C1 (NPC1). The gene therapy involved inserting a functional copy of the NPC1 gene into mice with the disease; the treated animals were then found to have less severe NPC1 symptoms. The study, led by researchers at NIH’s National Human Genome Research Institute (NHGRI) and the Eunice Kennedy ShriverNational Institute of Child Health and Human Development, was published Oct. 26, 2016, in the journal Human Molecular Genetics.
November 14, 2016 – 3:55 pm
In a study published in Nature, they report how - using the CRISPR gene-editing tool - they corrected the gene in stem cells from diseased patients and showed they could make red blood cells capable of making functioning hemoglobin. They also transplanted the stem cells into mice and found them thriving in their bone marrow months later. Sickle cell disease is a group of inherited disorders where red blood cells form abnormal, hard and sticky, crescent, or sickle shapes instead of normal, flexible, disc-like shapes.
October 14, 2016 – 12:37 pm
Scientists are finalizing plans to use gene therapy to treat one of the world’s most widespread inherited diseases – sickle cell anaemia. The technique could begin trials next year, say researchers. About 300,000 babies are born globally with sickle cell disease. The condition causes red blood cells to deform, triggering anaemia, pain, organ failure, tissue damage, strokes and heart attacks. In the west, patients now live to their 40s thanks to the availability of blood transfusions and other treatments. But in Africa most still die in childhood. Sickle cell anaemia is triggered by a genetic fault that changes one of the dozens of amino acids that make up haemoglobin, the key constituent of the red blood cells that carry oxygen around our bodies. The mutated haemoglobin undergoes a change in shape and blocks veins.
October 6, 2016 – 11:19 am
Two new studies from the University of Iowa suggest that gene therapy may be a viable approach for treating or preventing lung disease caused by cystic fibrosis (CF). Working with CF pigs, the researchers, based in the UI Pappajohn Biomedical Institute (PBI), have shown that two different virus-based vectors can restore a working version of the cystic fibrosis transmembrane conductance regulator (CFTR) protein that is faulty in CF to the pigs' airway cells. Moreover, this gene replacement normalized important aspects of the lung biology and improved the ability of airway secretions to kill bacteria.
October 3, 2016 – 2:45 pm
A new engineered gene therapy virus, inserted into blood stem cells and then transplanted into mice with sickle cell disease, markedly reduced red blood cell damage according to the study “Lineage-specific BCL11A knockdown circumvents toxicities and reverses sickle phenotype,” published in the Journal of Clinical Investigation. A clinical gene therapy trial is expected in the coming year in which researchers will use a gene manipulated harmless virus to prevent the “sickling” of red blood cells. The new gene therapy is based on research going back to the 1980s which revealed that people with a milder form of sickle cell disease carried a fetal form of hemoglobin.
September 30, 2016 – 1:53 pm
Up to 6 years after receiving a single treatment with the gene therapy product lipoprotein lipase (LPL), patients with the debilitating genetic disease LPL deficiency (LPLD) had about 50% fewer episodes of pancreatitis than before receiving the treatment. None of the study participants suffered severe pancreatitis following gene therapy and only one required admission to the intensive care unit for treatment of LPLD, which can be fatal, according to a study published in Human Gene Therapy, a peer-reviewed journal from Mary Ann Liebert, Inc., publishers (http://www.liebertpub.com/).
September 23, 2016 – 3:48 pm
A preventive DNA vaccine encoding two Zika structural proteins protected Rhesus macaques from viral infection. The results, published today (September 22) in Science, are encouraging for organizers of the ongoing Phase 1 clinical trial testing one of the two vaccines examined in this nonhuman primate study. The new work suggests a minimal antibody level in the blood that is likely necessary for protection against Zika virus infection in in people. “This is a reassuring development and critical advance,” said Nelson Michael of the Walter Reed Army Institute of Research in Silver Spring, Maryland, whose team is testing a formalin-inactivated viral particle vaccine. Michael was not involved in the present study, but regularly communicates with its authors, sharing Zika-related data. “This [DNA vaccine], if proven safe and [that it] generates the type of immune response in humans seen here in animals, is on the path to potentially become the first public health tool to mitigate the Zika virus epidemic in the Americas,” he tol