Jacques P. Tremblay received a B.Sc. in Biochemistry from McGill University in 1970, and a Ph.D. in Neuroscience from UCSD (University of California in San Diego) in 1974. From 1975 to 1976, he was a postdoctoral fellow at the Laboratory of Neurobiology of l’Hôpital de l’Enfant-Jésus. Subsequently, he spent his entire career at Laval University: Professor under grant from 1976 to 1981 in the Department of Anatomy; Assistant Professor from 1981 to 1985; full Professor from 1985; Director of the Department of Anatomy from 1987 to 1997, and Professor of the Department of Molecular Medicine from 2010 to now. He is currently a regular researcher at the Axis of Neuroscience of the CHU Research Center of Quebec-Université Laval.

Development of a treatment for Duchenne Muscular Dystrophy (DMD)

DMD is due to a mutation of the gene coding for the dystrophin protein. This mutation leads to an absence of this protein under the membrane of muscle fibers. His laboratory is renowned for his work on the transplantation of normal allogeneic myoblasts as a treatment for DMD. His Phase I clinical trial for this therapy showed that this transplant restores the expression of this protein in the patient’s muscle fibers. In 2006, Dr. Tremblay received the Henry Friesen Award from the Royal College of Physicians and Surgeons of Canada for his work on this therapy. His group is currently conducting a Phase I / II clinical trial on this therapy. In addition, his group is currently using CRISPR / Cas9 technology to correct the dystrophin gene, creating an additional deletion to produce a hybrid exon of the dystrophy gene, which not only restores the expression of dystrophin but also produces dystrophin with a normal structure.

Development of a treatment for Friedreich’s Ataxia

Dr. Tremblay’s group has also been conducting research on Friedreich’s Ataxia since 2010. This disease is due to an elongation of the GAA trinucleotide repeat in intron 1 of the frataxin gene, which reduces expression of this protein, leading to the death of neurons and cardiomyocytes that induce neurological and cardiac symptoms. His group demonstrated that the expression of frataxin is increased by targeting the promoter of this gene with TALE-VP64 proteins. In addition, it has also demonstrated that it is possible to suppress trinucleotide repetition by cutting with the CRISPR / Cas9 system before and after this repeat.

Development of a treatment for Alzheimer’s disease

This group also uses CRISPR / Cas9 technology to develop a treatment for Alzheimer’s disease. This disease is due to the abnormal metabolism of the APP protein (Amyloid Precursor Protein) which leads to the formation of beta-amyloid peptides that form plaques. The formation of these peptides can be greatly reduced by the A673T mutation of the APP gene observed in a small portion of Iceland’s population. Dr. Tremblay’s group has demonstrated that this mutation could be produced with the CRISPR / Cas9 system.

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Tremblay JP, Grenon G

Modulation of synapse RC1-R15 of Aplysia californica by fiber(s) of the right connective

Journal Article

Can J Physiol Pharmacol, 60 (5), 1982.

Abstract | Links:

Philippe E, Tremblay JP

Heterogeneous labeling of mitochondrial membrane, endoplasmic reticulum, neurofilaments and synaptic vesicles with a lectin (DBA-peroxidase)

Journal Article

Neurosci Lett, 30 (1), 1982.

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Laurie RE, Tremblay JP

Boutons originating from the same axon do not participate equally in synaptic transmission

Journal Article

Neurosci Lett, 29 (2), 1982.

Abstract | Links:

Philippe E, Tremblay JP

In vivo stimulation of a cholinergic synapse of the chick ciliary ganglion induces a reduction in the number of dense core vesicles

Journal Article

Neurosci Lett, 24 (3), 1981.

Abstract | Links:

Tremblay JP, Philippe E

Morphological changes in presynaptic terminals of the chick ciliary ganglion after stimulation in vivo. A stereological study showing a net loss of total membrane

Journal Article

Exp Brain Res, 43 (3-4), 1981.

Abstract | Links:

Philippe E, Grenon G, Tremblay JP

Baclofen modifies via the release of monoamines the synaptic depression, frequency facilitation, and posttetanic potentiation observed at an identified cholinergic synapse of Aplysia californica

Journal Article

Can J Physiol Pharmacol, 59 (3), 1981.

Abstract | Links:

Tremblay JP, Grenon G

Benzodiazepines modify synaptic depression, frequency facilitation and PTP an identified cholinergic synapse of Aplysia

Journal Article

Life Sci, 27 (6), 1980.

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Tremblay JP, Grenon G, Plourde G

The effects of hemicholinium-3 on synaptic depression, facilitation, and post-tetanic potentiation at an identified synapse of Aplysia californica

Journal Article

Can J Physiol Pharmacol, 58 (4), 1980.

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Tremblay JP, Colonnier M, McLennan H

An electron microscope study of synaptic contacts in the abdominal ganglion of Aplysia californica

Journal Article

J Comp Neurol, 188 (3), 1979.

Abstract | Links:

Colonnier M, Tremblay JP, McLennan H

Synaptic contacts on glial cells in the abdominal ganglion of Aplysia californica

Journal Article

J Comp Neurol, 188 (3), 1979.

Abstract | Links:

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Active projects

  • Correcting point mutations responsible for Dysferlinopathy using Prime Editing, from 2023-08-01 to 2025-01-31
  • Development of a rapid and simple test to detect the COVID-19 variants that can be used in remote areas and developing countries, from 2021-06-01 to 2025-03-31
  • Développement d'un traitement pour prévenir ou ralentir la progression de la maladie d'Alzheimer, from 2023-11-08 to 2025-04-30
  • In vivo correction by CRISPR PRIME editing of mutations responsible for Duchenne Muscular Dystrophy, from 2023-12-01 to 2026-11-30

Recently finished projects

  • Correction with the Prime editing technology of point mutations responsible for Duchenne Muscular Dystrophy, from 2023-03-01 to 2024-02-29
  • Deciphering the role of DCIR in HIV-1 pathogenesis, from 2018-04-01 to 2023-03-31
  • Development of an AAV library, from 2022-04-01 to 2024-09-30
  • Développement de microdispositifs transdermiques peu invasifs pour l’administration d'acides nucléiques : vaccination et thérapie génique, from 2023-04-01 to 2024-03-31
  • Développement d’une thérapie génique pour l’ataxie de Friedreich, from 2021-05-31 to 2023-05-31
  • Les cellules souches pluripotentes génétiquement corrigées comme thérapie pour l’epidermolyse bulleuse simplex, from 2022-04-01 to 2023-03-31
  • PRIME editing correction of the T4709M mutation responsible for some cases of Ryanodine receptor type I-related myopathies, from 2021-07-01 to 2023-12-10
  • Removal of the GAA repeat with the CRISPR/Cas9 system in Friedreich patient cells and in the YG8sR mouse model, from 2019-10-01 to 2024-09-30
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