͵͵

Journal News

From the journals: JLR

Nivedita Uday Hegdekar
Feb. 25, 2022

A triglyceride link to metabolic health. The ABCs of a flippase. How bile acid alters fat absorption. Read about papers on these topics recently published in the Journal of Lipid Research.

 

A triglyceride link to metabolic health

The membranes of red blood cells, or RBCs, consist of a lipid bilayer that contains cholesterol and phospholipids. The phospholipid component is enriched with unsaturated fatty acids and a small amount of triglyceride, or TG. This TG expression is unexpected, because intracellular TGs generally are used for fatty acid oxidation (the process by which fatty acids are broken down to produce energy). However, because RBCs lack mitochondria, they cannot be expected to carry out fatty acid oxidation.

In a recent study to determine RBC-TG profiles in obese and lean people, Yilin Song and Michael Jensen at the Mayo Clinic found that obesity and lipid disorders drove increased levels of TG in the RBCs of participants. Moreover, they found that numerous free fatty acids (mostly saturated FFA) were incorporated in the RBC-TG.

To determine the source of the FFA, the researchers infused participants with a nonradioactive free fatty acid, (U-13C) palmitate. Using mass spectrometry, they found that this FFA directly incorporated itself from plasma into the RBC-TGs. This is consequential; the fatty acid composition of RBC membrane lipids affects the functional characteristics of RBCs, which in turn can predispose to diseases including a rupturing of the RBCs known as intravascular hemolysis.

The obese participants then underwent a comprehensive lifestyle intervention to lose about 10% of their body weight, following which they were reanalyzed as before. The researchers found that weight loss improved the metabolic status changes in RBC-TG fatty acid profiles. The study was documented in a recently published in the Journal of Lipid Research.

As obesity and weight loss affect the RBC-TG fatty acid profiles, this study also provides a sound rationale for using RBC-TG fatty acid profile to measure metabolic health. Further investigation into RBC-TG fatty acid metabolism could help us better understand RBC abnormalities in metabolic disorders.

The ABCs of a flippase

Glycosphingolipids, or GSLs, play pivotal roles in cell signaling, apoptosis, cell differentiation proliferation, cell adhesion and pathogen entry. Aberrant GSL metabolism is associated with GSL storage diseases, Type 2 diabetes, cancer, Alzheimer’s, Parkinson’s and other diseases. Better understanding of GSL synthesis is key to developing therapeutics that can correct GSL levels in disease.

Glucosylceramide, or GlcCer, is the precursor of most mammalian GSLs, which are synthesized by the sequential addition of monosaccharides to GlcCer in the lumen of the Golgi apparatus. Because GlcCer is synthesized on the cytoplasmic face of Golgi membranes, it must be flipped to the noncytoplasmic face by a lipid flippase to initiate GSL synthesis. Until recently, researchers did not understand this flipping mechanism.

In a recent in the Journal of Lipid Research, Monique Budani and researchers at the University of Toronto describe how they developed labeled probes to identify and track GlcCer flippases involved in GlcCer movement in the Golgi. They identified several transporters that could regulate GlcCer transport across the Golgi membrane, all belonging to the ATP-binding cassette, or ABC, family. The genetic knockdown of ABC transporters in various cell types yielded different effects on the overall synthesis of GSLs. This suggests the role of ABC transporters in GSL biosynthesis within the Golgi may depend on tissue and/or cell type.

These findings indicate that ABC transporters could be used to regulate GSL biosynthesis and serve as targets in diseases in which GSLs are dysregulated. Also, differential ABC flippase expression within the Golgi stack could regulate the biosynthesis of the different GSL series.

How bile acid composition alters fat absorption

Nonalcoholic fatty liver disease, or NAFLD, is the collective term for various liver conditions affecting people who drink little to no alcohol; the main characteristic is excessive fat storage in liver cells. No cure exists, and some individuals with NAFLD can develop liver inflammation and may progress to advanced scarring, or cirrhosis, and liver failure.

A recent study found a positive correlation between plasma bile acid, or BA, levels and NAFLD severity in obese individuals. Animal models were needed for further study; however, the BA composition of mice and rats is fundamentally different from that of humans.

To address this, Rumei Li and researchers from the University of Groningen, Netherlands, generated mice that have a humanlike BA composition and lack mouse-specific muricholic acids. The researchers then carried out a series of experiments on these mice and unaltered mice, both male and female, to assess the consequences of a humanlike BA pool on obesity induced by a high-fat Western-type diet, or WTD, and NAFLD development.

The researchers found that deficiency of the enzyme Cyp2c70 in the engineered mice altered the pool of BAs and resulted in a reduction of 12-alpha-hydroxylated BA levels. This reduced the mice’s fat absorption and altered their gut microbiome composition. This deficiency thereby prevented WTD-induced obesity in female mice and NAFLD development in both genders, primarily because of impaired intestinal fat absorption. The findings, published as a in the Journal of Lipid Research, indicate a role for 12α-hydroxylated BAs in the control of intestinal fat absorption and gut microbiome composition.

Enjoy reading ASBMB Today?

Become a member to receive the print edition four times a year and the digital edition weekly.

Learn more
Nivedita Uday Hegdekar

Nivedita Uday Hegdekar is a recent Ph.D. graduate in biochemistry and molecular biology from the University of Maryland, Baltimore.

Related articles

From the journals: JLR
Sephra Rampersad
From the journals: JLR
Swarnali Roy
From the journals: JLR
Swarnali Roy
From the journals: JBC
Ken Farabaugh

Get the latest from ASBMB Today

Enter your email address, and we’ll send you a weekly email with recent articles, interviews and more.

Latest in Science

Science highlights or most popular articles

Scientists around the world report millions of new discoveries every year
Essay

Scientists around the world report millions of new discoveries every year

Nov. 24, 2024

Science is a collaborative endeavor, and international teams have contributed to a huge rise in scientific output.

Beneficial gut microbe has surprising metabolic capabilities
News

Beneficial gut microbe has surprising metabolic capabilities

Nov. 23, 2024

WashU researchers’ mouse study of therapeutic food for malnourished children shows a new gut bacterial enzyme's wide-ranging functions.

Transforming learning through innovation and collaboration
Award

Transforming learning through innovation and collaboration

Nov. 22, 2024

Neena Grover will receive the William C. Rose Award for Exemplary Contributions to Education at the 2025 ASBMB Annual Meeting, April 12–15 in Chicago.

From the journals: JBC
Journal News

From the journals: JBC

Nov. 22, 2024

Prefoldins participate in parasite pathology. Protein modifications coordinate in DNA repair. Nucleotide analog blocks viral RNA polymerases. Read about recent papers in the JBC on these topics.

Guiding grocery carts to shape healthy habits
Award

Guiding grocery carts to shape healthy habits

Nov. 21, 2024

Robert “Nate” Helsley will receive the Walter A. Shaw Young Investigator in Lipid Research Award at the 2025 ASBMB Annual Meeting, April 12–15 in Chicago.

Quantifying how proteins in microbe and host interact
Journal News

Quantifying how proteins in microbe and host interact

Nov. 20, 2024

“To develop better vaccines, we need new methods and a better understanding of the antibody responses that develop in immune individuals,” author Johan Malmström said.