Kelsey Bernard scite author profile

There is an unmet clinical need for curative therapies to treat neurodegenerative disorders. Most mainstay treatments currently on the market only alleviate specific symptoms and do not reverse disease progression. The Pituitary adenylate cyclase-activating polypeptide (PACAP), an endogenous neuropeptide hormone, has been extensively studied as a potential regenerative therapeutic. PACAP is widely distributed in the central nervous system (CNS) and exerts its neuroprotective and neurotrophic effects via the related Class B GPCRs PAC1, VPAC1, and VPAC2, at which the hormone shows roughly equal activity. Vasoactive intestinal peptide (VIP) also activates these receptors, and this close analogue of PACAP has also shown to promote neuronal survival in various animal models of acute and progressive neurodegenerative diseases. However, PACAP’s poor pharmacokinetic profile (non-linear PK/PD), and more importantly its limited blood-brain barrier (BBB) permeability has hampered development of this peptide as a therapeutic. We have demonstrated that glycosylation of PACAP and related peptides promotes penetration of the BBB and improves PK properties while retaining efficacy and potency in the low nanomolar range at its target receptors. Furthermore, judicious structure-activity relationship (SAR) studies revealed key motifs that can be modulated to afford compounds with diverse selectivity profiles. Most importantly, we have demonstrated that select PACAP glycopeptide analogues (2LS80Mel and 2LS98Lac) exert potent neuroprotective effects and anti-inflammatory activity in animal models of traumatic brain injury and in a mild-toxin lesion model of Parkinson’s disease, highlighting glycosylation as a viable strategy for converting endogenous peptides into robust and efficacious drug candidates.

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The study of speech naturalness in communication disorders: A systematic review of the literature

Klopfenstein

Bernard

Heyman

2019

Clinical Linguistics & Phonetics

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Parallel neurodegenerative phenotypes in sporadic Parkinson’s disease fibroblasts and midbrain dopamine neurons

Corenblum

McRobbie-Johnson

Carruth

et al. 2023

Progress in Neurobiology

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Parallel Neurodegenerative Phenotypes in Sporadic Parkinson’s Disease Fibroblasts and Midbrain Dopamine Neurons

Corenblum

McRobbie-Johnson

Carruth

et al. 2023

Preprint

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Understanding the mechanisms causing Parkinsons disease (PD) is vital to the development of much needed early diagnostics and therapeutics for this debilitating condition. Here, we report cellular and molecular alterations in skin fibroblasts of late-onset sporadic PD subjects, that were recapitulated in matched induced pluripotent stem cell (iPSC)-derived midbrain dopamine (DA) neurons, reprogrammed from the same fibroblasts. Specific changes in growth, morphology, reactive oxygen species levels, mitochondrial function, and autophagy, were seen in both the PD fibroblasts and DA neurons, as compared to their respective controls. Additionally, significant alterations in alpha synuclein expression and electrical activity were also noted in the PD DA neurons. Interestingly, although the fibroblast and neuronal phenotypes were similar to each other, they also differed in their nature and scale. Furthermore, statistical analysis revealed novel associations between various clinical measures of the PD subjects and the different fibroblast and neuronal data. In essence, these findings encapsulate spontaneous, in-tandem, disease-related phenotypes in both sporadic PD fibroblasts and iPSC-based DA neurons, from the same patient, and generates an innovative model to investigate PD mechanisms with a view towards rational disease stratification and precision treatments.

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Glycosylated PACAP hormones as potential therapy for Parkinsonism, stroke and traumatic brain injury

Bartlett¹,

Molnár²,

Bernard³

et al. 2020

Preprint

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Kelsey Bernard

Design and Synthesis of Brain Penetrant Glycopeptide Analogues of PACAP With Neuroprotective Potential for Traumatic Brain Injury and Parkinsonism

The study of speech naturalness in communication disorders: A systematic review of the literature

Parallel neurodegenerative phenotypes in sporadic Parkinson’s disease fibroblasts and midbrain dopamine neurons

Parallel Neurodegenerative Phenotypes in Sporadic Parkinson’s Disease Fibroblasts and Midbrain Dopamine Neurons

Glycosylated PACAP hormones as potential therapy for Parkinsonism, stroke and traumatic brain injury

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