Awarded Grants

Awarded Grants

MDBR, CMD Million Dollar Bike Ride MDBR, CMD Million Dollar Bike Ride

Developing peptide-conjugated antisense oligonucleotide therapy for COL6-related congenital muscular dystrophy

Haiyan Zhou

University College London

$70,133.00

Awardee: Haiyan Zhou

Institution: University College London

Grant Amount: $70,133.00

Funding Period: February 1, 2024 - January 31, 2025


Summary:

Collagen VI-related congenital muscular dystrophies (COL6-CMDs) are one of the most common types of CMDs. There is no curative treatment available. In the last few years, we have provided strong proof-of-concept evidence that experimental oligonucleotide therapy is a promising approach for the treatment of this fatal neuromuscular condition. My group has tested antisense oligonucleotide (ASO) therapeutic strategies in skin cells cultured from COL6-CMD patients and have already identified the lead ASO compounds able to correct the common disease mutations. However, for ASOs to work efficiently in humans, it is essential they target the skeletal muscle interstitial fibroblasts (MIFs), the major cell population producing collagen VI protein in muscle. So far, MIFs targeting has proved to be challenging to the field and has clearly obstructed the therapeutic development in COL6-CMDs. My group has recently identified a series of short protein fragments (peptides) that specifically bind to a cell surface receptor of MIFs, while also promoting the cellular internalization that will be needed when an oligonucleotide is attached to the peptide. Crucially, our data also demonstrated that some of these peptides efficiently target fibroblasts in a preferential manner, an important finding to avoid the accumulation of oligonucleotides in unwanted cell types. Here we propose a project aiming to further develop this exciting approach by using optimized MIF targeting peptides as a strategy to enhance the uptake of therapeutic ASOs to MIFs specifically, with an ultimate aim of developing a new therapy for COL6-CMD. The experiment plan includes: 1) To optimize the peptide sequences by testing alternative amino acids to improve the binding affinity, increase internalization and endosomal escape and reduce any potential cytotoxicity. 2) To validate the conjugates, for exon-skipping strategy in targeting MIFs, using cultured patients’ fibroblasts. 3) To generate a pilot in vivo biodistribution profile of pep-ASO conjugates, in wild-type mice. By the end of this project, we expect to identify the optimal peptide-ASO conjugates ready for further in vivo validation in the available humanized mouse model of COL6-CMD and to promote the future clinical translation of ASO therapy in COL6-CMD.

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ADAR mediated RNA editing for treatment of collagen VI related muscular dystrophy

Russell Butterfield

University of Utah

$70,133.00

Awardee: Russell Butterfield

Institution: University of Utah

Grant Amount: $70,133.00

Funding Period: February 1, 2024 - January 31, 2025


Summary:

The collagen VI related muscular dystrophies (COL6-RD) are inherited disorders of muscle characterized by progressive weakness and a combination of distal joint laxity and proximal joint contractures. Missense mutations substitute the glycine residues in the conserved Gly-x-y repeat of the triple helical (TH) domain are the most common mutation in COL6-RD patients. This mutation allows incorporation of abnormal chains into secreted tetramers resulting in a dominant negative effect. Currently, there are no treatment for these disorders and the dominant negative mutations pose significant challenges for developing novel treatments since simple gene-replacement will not be effective to counter the dominant-negative mechanism. In this study, we propose to apply an in-situ RNA editing strategy by recruiting adenosine deaminase acting on RNA (ADAR) with guide RNA to simultaneously correct multiple G-to-A dominant negative mutations in COL6-RD patient-derived fibroblasts. We hypothesize this strategy will significantly decrease the mutant alleles’ presence at mRNA level and result in decreased intracellular retention and increased deposition of collagen VI matrix.

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The TGFβ pathway as a therapeutic target for collagen VI-related muscular dystrophy

Payam Mohassel

Johns Hopkins University

$113,008.00

Awardee: Payam Mohassel

Institution: Johns Hopkins University

Grant Amount: $113,008.00

Funding Period: February 1, 2023 - January 31, 2024


Summary:

Mutations in collagen VI cause a spectrum of muscle disease ranging from severe Ullrich congenital muscular dystrophy to the milder Bethlem myopathy. Collagen VI is an integral component of the extracellular matrix. When collagen VI is not functioning properly due to mutations, skeletal muscle will develop weakness, atrophy, degeneration, and fibrosis. We have recently identified alterations in regulation of the TGFβ pathway in human muscle biopsy samples of patients with COL6-related dystrophies (COL6-RD). We have also found a similar alteration of this pathway in a new mouse model of the disease, Col6a2 knockout mice. The overall goal of this project is to help identify novel therapeutic targets in COL6-RD that engage the TGFβ pathway and to test them in the mouse model. We trust that these studies will increase our understanding of this pathway in COL6-RD and pave the way for future studies of therapeutics that target this pathway.

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DYSTRO-SMARTY: A novel nanotechnology platform for delivery of nucleic acids to treat Collagen VI-related Congenital Muscular Dystrophy

Cecilia Jimenez-Mallebrera

Hospital Sant Joan de Deu

$48,876

Awardee: Cecilia Jimenez-Mallebrera

Institution: Hospital Sant Joan de Deu

Grant Amount: $48,876

Funding Period: February 1, 2022 - January 31, 2023


Summary:

Nucleic-Acid based therapies are being developed at a fast pace with 11 currently approved products and many more in the pipeline. However, delivering therapeutic amounts of these nucleic acids to the target tissue remains the major hurdle, particularly for muscle diseases. Here we propose to apply a validated nanotechnology platform, SMARTY, based on non-liposomal lipid-based nanovesicles, called Quatsomes, to deliver nucleic acids to treat COL6-related Congenital Muscular Dystrophy (COL6-CMD). These nucleic acids are antisense oligonucleotides (ASO) that we have designed and tested to correct a common mutation in collagen VI genes. ASO will be conjugated to the Quatsomes and their physico-chemical properties, distribution and integrity inside the cell as well as their specificity and efficacy to correct collagen VI mutations will be systematically investigated in cells from COL6-CMD patients. The Quatsomes platform (patent WO/2020/229469), developed by our collaborators (at VHIR and ICMAB-CSIC), has already been exploited for other applications for effective intracellular delivery of nucleic acids. Moreover, Quatsomes will be produced by a GMP compliant manufacturing process. This will facilitate the future translation and approval of this potential therapy by regulatory agencies bringing COL6-RD closer to Clinical Trial Readiness.

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Studying in-situ, in-vivo, and in-silico the pleiotropic action of collagen-VI to identify potential late-onset risks in COL6-CMD patients

Jeanette Erdmann

Universität zu Lübeck

$48,876

Awardee: Jeanette Erdmann

Institution: Universität zu Lübeck

Grant Amount: $48,876

Funding Period: February 1, 2022 - January 31, 2023


Summary:

Due to better healthcare, COL6-CMD patients have a significantly longer life expectancy today than a few decades ago. For future health management of these patients early recognition of potential late-onset disease risks such as aneurysms, cardiovascular, and intestinal diseases can be vital. We will make use of col6a2 KO zebrafish (by morpholino antisense oligonucleotides) to comprehensively study the pleiotropic action of collagen-VI. Moreover, we will leverage human genetic data from UK biobank to identify by phenome-wide association study associations between genetic variants in COL6A2 gene and potential disease risks. Both strategies may help us to identify potential late-onset risks in COL6-CMD patients.

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Targeting muscle stem cells for the treatment of Collagen VI muscular dystrophies

Nicholas Dumont

CHU Sainte-Justine research center (University of Montreal)

$42,406

Awardee: Nicholas Dumont

Institution: CHU Sainte-Justine research center (University of Montreal)

Award Amount: $42,406

Funding Period: February 1, 2021 - January 31, 2022


Summary:

Mutations in one of the genes encoding for Collagen VI cause Ullrich muscular dystrophy (severe form) or Bethlem myopathy (milder form). These rare genetic diseases are characterized by progressive muscle weakness and degeneration, which can lead to functional incapacities such as impaired or delayed walking. The effect of collagen VI deficiency on muscle degeneration has been characterized; however, its impact on muscle stem cells, the engine of muscle repair, is unknown. Therefore, the overall goal of this project is to investigate if the myogenesis capacity (formation of new muscle tissue) of muscle stem cells is affected by the lack of collagen VI. We will collect samples from patients affected by collagen-VI muscular dystrophies to study muscle stem cell defects in vitro. Moreover, we will use a 3D muscle-in-a-dish system to screen for therapeutic drugs that enhance the myogenesis capacity of muscle stem cells. Overall, this project will provide a better comprehension of this rare muscular disease, and it will open the way to new therapeutic avenues.

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