right-icon

Back to blog

Research Highlights Echelon Biosciences - intergenerational neuroprotection via sphingosine 1-phosphate

Sphingosine 1-phosphate neuroprotection

In mammals, the well-being of offspring can be influenced by the maternal diet and environment. However, it is not clear how these...

2 minute read
By Cameron Day
August 15

In mammals, the well-being of offspring can be influenced by the maternal diet and environment. However, it is not clear how these factors affect cellular functions across multiple generations. Previous work has described how intergenerational inheritance uses epigenetic mechanisms that involve RNAs and DNA modifications. Whether these mechanisms extend to utilize non-nucleic acid molecules such as proteins, lipids, or small metabolites has not been well explored. In the current study, researchers discovered that feeding Caenorhabditis elegans ursolic acid, a natural substance found in plants, had positive effects on axon transport and enhanced stability of axons in subsequent generations of worms.

This neuroprotective effect was mediated by enhancing the maternal provisioning of sphingosine 1-phosphate (S1P), a bioactive lipid, to offspring. The transfer of S1P from the intestine to oocytes (egg cells) was crucial for this intergenerational neuroprotection and depended on a specific lipoprotein yolk receptor called RME-2. S1P, in turn, played a role in increasing the expression of the acid ceramidase-1 (asah-1) gene in the intestine, affecting sphingolipid metabolism. The neuroprotective impact of intestinal asah-1 relies on the presence of SphK-1, an enzyme responsible for converting sphingosine into S1P. In this context, S1P supplied by the mother is transferred from the intestine to the oocytes to support axons. Importantly, this may be a conserved mechanism as S1P and SphK have also been found to play vital roles in protecting vertebrate oocytes against apoptosis.

Echelon Biosciences - transfer of S1P from mother to offspring is neuroprotective

Periods of interaction between mothers and offspring enable maternal influence on subsequent generations. Changes in the reproductive behavior of offspring can facilitate the transmission of these effects to succeeding generations. This study provides evidence that the transmission of a lipid metabolite within the yolk can provide intergenerational protection to specific neurons. These findings highlight the significance that specific lipid molecules can transmit information between generations which may have broad implications for regulating metabolism during reproduction. Echelon's S1P Fluorescein (S-200F) was used in this work.

Read the full article here:

An intestinal sphingolipid confers intergenerational neuroprotection

Nature Cell Biology 25:1196-1207 (2023)

0.2

/ 0.3

Related Articles

Stay informed with our informative blog posts.

Research Highlights
Deep learning networks identify novel ionizable lipids - Echelon Biosciences

Deep learning network identifies novel, functional ionizable lipids

Over the last decade there has been increasing interest in harnessing RNA in novel therapuetic modalities. With the approval of th

2 minute read
By Cameron Day
November 22

Research Highlights
hPAC channels are regulated by PI(4,5)P2 to enhance cell survival

PI(4,5)P2 regulates chloride channels during acidosis

Acidic pH is required in some intracellular organelles, but in the extracellular environment it can be highly damaging to cells. E

2 minute read
By Cameron Day
November 1

Research Highlights
Echelon Bioscience - lipid-dependent activation of STING

Lipid-dependent activation of the STING pathway

The cGAS/STING pathway is a critical part of the innate immune system that detects cytosolic DNA and promotes inflammatory respons

2 minute read
By Cameron Day
March 22

Research Highlights
Dissecting microglia to identify new targets in Alzheimer's disease (INPP5D) - Echelon Biosciences

Lipid phosphatase INPP5D emerges as key regulator of inflammasome in microglia

Alzheimer’s disease (AD) has long been characterized by the presence of plaques in neuronal tissue composed primarily of amyloid

3 minute read
By Cameron Day
January 9

Research Highlights
Echelon Biosciences - formation of cellular condensates may permit unique lipid biology

Phase-separated condensates may be microdomains for unique lipid biology

The concept of biological, intracellular phase separation has existed for some time. However, until recently direct evidence for t

2 minute read
By Cameron Day
November 27

Research Highlights
Echelon Biosciences - A phosphatidylinositol kinase could be a new target for autoimmune therapy

A phosphatidylinositol kinase could be a new target for autoimmune therapy

Interleukin-17 (IL-17) is a cytokine produced by a specific type of T cell and is involved in restricting invasive microbes. Despi

3 minute read
By Cameron Day
November 3

0.3

/ 0.3

Get in Touch

If you have any questions or would like to learn more about our services, feel free to reach out to us. We’re here to help!

Contact Echelon
Biosciences
Basket

Your Echelon Basket is empty.