Manon Leclerc scite author profile

The scope of evidence on the neuroprotective impact of natural products has been greatly extended in recent years. However, a key question that remains to be answered is whether natural products act directly on targets located in the central nervous system (CNS), or whether they act indirectly through other mechanisms in the periphery. While molecules utilized for brain diseases are typically bestowed with a capacity to cross the blood–brain barrier, it has been recently uncovered that peripheral metabolism impacts brain functions, including cognition. The gut–microbiota–brain axis is receiving increasing attention as another indirect pathway for orally administered compounds to act on the CNS. In this review, we will briefly explore these possibilities focusing on two classes of natural products: omega-3 polyunsaturated fatty acids (n-3 PUFAs) from marine sources and polyphenols from plants. The former will be used as an example of a natural product with relatively high brain bioavailability but with tightly regulated transport and metabolism, and the latter as an example of natural compounds with low brain bioavailability, yet with a growing amount of preclinical and clinical evidence of efficacy. In conclusion, it is proposed that bioavailability data should be sought early in the development of natural products to help identifying relevant mechanisms and potential impact on prevalent CNS disorders, such as Alzheimer’s disease.

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Cerebrovascular insulin receptors are defective in Alzheimer’s disease

Leclerc

Bourassa

Tremblay

et al. 2022

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Central response to insulin is suspected to be defective in Alzheimer’s disease. As most insulin is secreted in the bloodstream by the pancreas, its capacity to regulate brain functions must, at least partly, be mediated through the cerebral vasculature. However, how insulin interacts with the blood–brain barrier and whether alterations of this interaction could contribute to Alzheimer’s disease pathophysiology both remain poorly defined. Here, we show that human and murine cerebral insulin receptors (INSRs), particularly the long isoform INSRα-B, are concentrated in microvessels rather than in the parenchyma. Vascular concentrations of INSRα-B were lower in the parietal cortex of subjects diagnosed with Alzheimer’s disease, positively correlating with cognitive scores, leading to a shift towards a higher INSRα-A/B ratio, consistent with cerebrovascular insulin resistance in the Alzheimer’s disease brain. Vascular INSRα was inversely correlated with amyloid-β plaques and β-site APP cleaving enzyme 1, but positively correlated with insulin-degrading enzyme, neprilysin and P-glycoprotein. Using brain cerebral intracarotid perfusion, we found that the transport rate of insulin across the blood–brain barrier remained very low (<0.03 µl/g·s) and was not inhibited by an insulin receptor antagonist. However, intracarotid perfusion of insulin induced the phosphorylation of INSRβ that was restricted to microvessels. Such an activation of vascular insulin receptor was blunted in 3xTg-AD mice, suggesting that Alzheimer’s disease neuropathology induces insulin resistance at the level of the blood–brain barrier. Overall, the present data in post-mortem Alzheimer’s disease brains and an animal model of Alzheimer’s disease indicate that defects in the insulin receptor localized at the blood–brain barrier strongly contribute to brain insulin resistance in Alzheimer’s disease, in association with β-amyloid pathology.

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Metabolic determinants of Alzheimer’s disease: A focus on thermoregulation

Tournissac

Leclerc

Josué

et al. 2021

Ageing Research Reviews

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Manon Leclerc

Combination of C-reactive Protein, Infliximab Trough Levels, and Stable but Not Transient Antibodies to Infliximab Are Associated With Loss of Response to Infliximab in Inflammatory Bowel Disease

Can Natural Products Exert Neuroprotection without Crossing the Blood–Brain Barrier?

Cerebrovascular insulin receptors are defective in Alzheimer’s disease

Metabolic determinants of Alzheimer’s disease: A focus on thermoregulation

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