Abstract
It was demonstrated that a gene or genes responsible for a whole spectrum of cardiovascular risk factors map to a limited segment of the centromeric region of rat chromosome 4. Recently, a spontaneous deletion in the gene for Cd36 that encodes a fatty acid transporter and is located directly at the peak of QTL linkages on chromosome 4 has been indirectly linked to the transmission of insulin resistance, defective fatty acid metabolism, and increased blood pressure. To directly test whether mutant Cd36 is a QTL that promotes clustering of multiple cardiovascular risk factors in the Spontaneously Hypertensive Rat (SHR), transgenic lines were derived that carry a wild type Cd36 transgene on the genetic background of the SHR strain harboring a deletion variant of Cd36. It was found that in SHR harboring the deletion variant of Cd36, transgenic expression of wild type Cd36 in modest amounts ameliorated defects in fatty acid metabolism, glucose tolerance, and insulin stimulated glucose uptake in muscle and fat tissue, however, exerted little or no effect on blood pressure. In conclusion, the current studies provided definitive evidence that mutant Cd36 is a QTL with major effects on fatty acid metabolism, insulin action, and glucose tolerance but have no effects on spontaneous hypertension in the SHR/NIH strains.
Keywords: CD36, Cardiovascular Risk Factor, Hypertensive Rat, INSULIN RESISTANCE, DYSLIPIDEMIA, HYPERTENSION, TRANSGENIC SHR
Call for Papers in Thematic Issues
Current Genomics in Cardiovascular Research
Cardiovascular diseases are the main cause of death in the world, in recent years we have had important advances in the interaction between cardiovascular disease and genomics. In this Research Topic, we intend for researchers to present their results with a focus on basic, translational and clinical investigations associated with ...read more
Deep Learning in Single Cell Analysis
The field of biology is undergoing a revolution in our ability to study individual cells at the molecular level, and to integrate data from multiple sources and modalities. This has been made possible by advances in technologies for single-cell sequencing, multi-omics profiling, spatial transcriptomics, and high-throughput imaging, as well as ...read more
Genomic Insights into Oncology: Harnessing Machine Learning for Breakthroughs in Cancer Genomics.
This special issue aims to explore the cutting-edge intersection of genomics and oncology, with a strong emphasis on original data and experimental validation. While maintaining the focus on how machine learning and advanced data analysis techniques are revolutionizing our understanding and treatment of cancer, this issue will prioritize contributions that ...read more
Integrating Artificial Intelligence and Omics Approaches in Complex Diseases
Recent advancements in AI and omics methodologies have revolutionized the landscape of biomedical research, enabling us to extract valuable information from vast amounts of complex data. By combining AI algorithms with omics technologies such as genomics, proteomics, metabolomics, and transcriptomics, researchers can obtain a more comprehensive and multi-dimensional analysis of ...read more
Related Journals
Related Books
The Future of Agriculture: IoT, AI and Blockchain Technology for Sustainable Farming
Handbook of Integrated Weed Management for Major Field Crops
Practical Biochemistry
Anticancer Drugs Sourced from Marine Life
Opportunities for Biotechnology Research and Entrepreneurship
Diseases of Ornamental, Aromatic and Medicinal Plants
Diabetes and Breast Cancer: An Analysis of Signaling Pathways
Fundamentals of Cellular and Molecular Biology
Industrial Applications of Soil Microbes
Genome Editing in Bacteria (Part 2)
2
