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From the journals: MCP

Ankita Arora
June 21, 2024

Unlocking a metabolic disorder mystery. The many roles of lactate. Tools can unveil dementia biomarkers. Read about papers on these topics recently published in the journal Molecular & Cellular Proteomics.

 

Unlocking a metabolic disorder mystery

In metabolic disorders, the human body’s process of making energy and building blocks from the food we eat is disrupted. Metabolic disorders such as Type 2 diabetes and insulin resistance are growing in prevalence, causing severe health complications that decrease quality of life and increase health care costs.

These disorders are connected to imbalances in glucose and lipid metabolism, which are tightly regulated by various signaling pathways and proteins called transcription factors. cAMP response element binding protein, or CREB, regulated transcription coactivator 2, or CRTC2, is essential in maintaining glucose homeostasis and controlling energy metabolism. However, researchers know little about the mechanism of its action.

In a published in the Molecular and Cellular Proteomics, Jae Min Lim and researchers from the Korea University and the Kyung Hee University describe how they addressed this knowledge gap. They genetically altered mice to delete Crtc2 expression in the liver, but not in other tissues and fed them with a high-fat diet to study global proteome changes using liquid chromatography-tandem mass spectrometry, or LC-MS/MS, analysis and protein–protein interactions.

The team found that multiple proteins were differentially regulated in the knockout mice compared to the control mice when both were fed a high-fat diet. These proteins further led to altered glucose and lipid metabolism in the Crtc2 knockout mice. Using these proteins as a guide and computational tools, the researchers created a protein–protein interaction network to identify possible CRTC2 interaction partners.

They identified sterol regulatory element-binding transcription factor 1, or SREBF1, a key transcription factor that controls cholesterol biosynthesis and lipid homeostasis, as a direct interacting partner with CRTC2. They confirmed the cooperation between the two partners, CRTC2 and SREBF1, in a reporter assay where sterol regulatory element binding activity increased when they added CRTC2 to the liver cells.

The authors concluded that CRTC2 and SREBF1 cooperation can fine-tune cellular response to metabolic stress. This study also highlights the importance of understanding the mechanism behind tightly regulated glucose metabolism, paving the way to explore CRTC2 as a potential drug target for insulin resistance and diabetes.

 

The many roles of lactate

The central metabolic pathway, glycolysis, converts glucose in our food to provide fuel. One critical product of glycolysis is lactate, which performs multiple roles in the cell. It serves as a carbon source for making raw materials in the cell, a signaling molecule, and an immune response regulator.

With the advent of new technology and high-throughput omics, researchers have found that lactate participates in metabolic reprogramming to adjust for changes in the cellular environment and protein lactylation, an epigenetic modification.

In a published in the journal Molecular & Cellular Proteomics, Zhimin Wang and a multinational team at the Zhengzhou University and Tsinghua University in China, and the University of Copenhagen, Denmark, dive deep into the metabolic fate of lactate-derived carbon, the cross talk between glycolysis and mitochondrial energy production, and lactylation. The team also discusses the role of excess lactate in inducing an acidic microenvironment in the cell, leading to differences in immune cell activation.

Lastly, the authors discuss protein lactylation's role in human diseases and disorders such as infections, cancer, fibrosis and heart failure. They argue that combining the study of histone acetylation sites and the metabolomics of lactates might open doors for future research and potential therapeutic targets.

 

Tools can unveil dementia biomarkers

Dementias are chronic conditions characterized by progressive loss of nerve cells and their connections within the brain, leading to loss of memory and decline in cognitive functions. In 2023, Alzheimer’s and other dementias will cost the nation , excluding unpaid caregiving hours. By 2050, these costs are expected to rise to nearly $1 trillion – creating an urgent need to develop biomarkers for early diagnosis, treatment prognosis and defining effective inclusion and evaluation criteria for clinical trials.

Researchers can choose from a growing number of technologies when designing studies to find novel fluid-based biomarkers. In a published in Molecular & Cellular Proteomics, Charlotte E. Teunissen and the team at MIRIADE Consortium provide an overview of available technologies for biomarker discovery in clinical and research settings.

They break down each method's analysis principle, instrumentation set-up, strengths, limitations and future perspectives. The authors also discuss the advantages of tailoring multiple technologies in a complementary way to answer specific questions of interest.

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Ankita Arora

Ankita Arora is an RNA-biologist-turned-freelance-science-writer. Her 12 years of experience in research and her storytelling skills help her distill science jargon into bite-size chunks that are fun to read. She aims to make science enjoyable and accessible for all. She is an 91ÑÇÉ«´«Ã½ Today volunteer contributor.

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