Project description:C. reinhardtii cells exposed to abiotic stresses (e.g. iron-, nitrogen-, zinc- or phosphorus-deficiency) accumulate TAGs which are stored in lipid droplets. Here, we report that iron starvation leads to formation of lipids bodies and accumulation of TAGs. This occurs between 12 and 24 h of iron-starvation. C. reinhardtii cells deprived for iron have more saturated FA, due to the loss of functional FA desaturases, which are diiron enzymes. The abundance of a plastid ACP-acyl desaturase (FAB2) is significantly decreased to the same degree as observed for ferredoxin, which is a substrate of the desaturases. The increase in saturated FA (C16:0 and C18:0) is concomitant with the decrease in saturated FA (C16:4, C18:3 or C18:4). This pattern was observed for MGDG, DGTS or DGDG. When we monitored the absolute levels of glycerolipids, MGDG content dropped significantly after only 2 h of iron-starvation. On the other hand, DGTS and DGDG contents gradually decrease until a minimum is reached after 24-48 h of iron-deprivation. RNA-Seq analysis of iron-starved C. reinhardtii cells revealed significant changes in many transcripts coding for enzymes involved in FA metabolism. The mRNA abundances of genes coding for components involved in TAG accumulation (DGAT or MLDP) are increased. A more dramatic increase at the transcript level has been observed for many lipases, suggesting that a major remodeling of lipid membranes occurs during iron-starvation in C. reinhardtii. Sampling of Chlamydomonas CC-4532 (2137) cells cultivated photoheterotrophically (TAP) under iron-starvation condition (0 uM Fe-EDTA). Samples were collected from biological duplicates after washing in TAP medium lacking Fe at 0, 0.5, 1, 2, 4, 8, 12, 24 and 48 hours.

Project description:The oleaginous green microalga Neochloris oleoabundans accumulates both starch and lipids to high levels under stress conditions such as nitrogen starvation. In order to steer the metabolism towards starch or lipids only, it is important to understand the mechanisms behind it. In this study physiological changes and gene expression upon nitrogen starvation were analysed in controlled flat-panel photobioreactors over both short- and long-term time-scales. Starch accumulation is transient and occurs rapidly within 24 hrs upon starvation, while lipid accumulation lasts longer and reaches a maximum after 4 days. The major fraction of accumulated lipids is composed of de novo synthesized neutral lipids - triacylglycerides (TAG) - and is characterized by a decreased composition of the polyunsaturated fatty acids (PUFAs) C18:3 and C16:3 and an increased composition of the mono-unsaturated and saturated fatty acids C18:1/C16:1 and C18:0/C16:0, respectively. RNA-sequencing revealed that genes related to starch biosynthesis and degradation show different temporal expression dynamics compared to those of lipid biosynthesis. An immediate rapid increase in starch synthesis gene expression is followed by an increase in starch degradation and decrease in starch synthesis gene expression. In contrast, increased gene expression for fatty acid and TAG synthesis is initiated later and occurs more gradually. Expression of several fatty acid desaturase (FAD) genes was decreased upon starvation, which corresponds to the observed changes to higher levels of mono-unsaturated and saturated fatty acids. Moreover, several homologs of transcription regulators that were implicated in controlling starch and lipid metabolism in other microalgae showed differential gene expression and might be key regulators of starch and lipid metabolism in N. oleoabundans as well. Promising candidates for future metabolic engineering are a DYRKP homolog that in Chlamydomonas acts as a negative regulator of carbon storage and photosynthetic efficiency under N-starvation, and two bZIP-type regulators that have been implicated to control several steps in microalgal TAG synthesis. Our data for the first time show the temporal dynamics of storage compound accumulation and transcriptional changes on a short- and long-term time-scale during nitrogen starvation in N. oleoabundans, and increases insight into the genetic foundation for starch and lipid metabolism in this microalga. This information and the identified target genes can now be used for metabolic engineering strategies towards tailored N. oleoabundans strains for industrial applications with increased lipid production and altered fatty acid composition.

Project description:Scd1 is responsible for forming a carbon-carbon double bound at the 9-10th position from the C-terminus of saturated fatty acids such as palmitic acid and stearic acid (C16:0 and C18:0), to generate the products of palmitoleic acid (C16:1) and oleic acid (C18:1).Here, we found SCD1 is required for in vitro blastocyst embryo development, and one of the mechanisms is through regulating unsaturated fatty acid-mediated membrane fluidity and formation of apical domain. Overall, our study provides invaluable resources for lipid reprogramming in mammalian preimplantation embryo development and mechanistic insights on regulation of embryogenesis by lipid unsaturation.

Project description:Elovl6 is a member of mammalian fatty acid elongase that is responsible for converting C16 saturated and monounsaturated fatty acids into C18 species. To understand the role of Elovl6 in liver, we generated liver-specific Elovl6 knockout mice (Albumin-Cre;Elovl6 fl/fl C57BL/6J). The goal of this experiment was to determine effects of hepatocyte Elovl6 deficiency on the murine liver transcriptome under lipogenic condition.

Project description:Palmitic acid (C16:0) is the most abundant saturated fatty acid in animals serving as a substrate in lipid synthesis and β-oxidation, and in the modification of proteins called palmitoylation. The influence of dietary palmitic acid on protein palmitoylation in the context of metabolic processes remains largely unknown. In this study we performed high-throughput proteomic analyses of the liver membrane fraction in the mouse to examine the influence of a palm oil-rich diet on the level and S-palmitoylation of proteins. For this purpose, mice were fed for 4 or 12 weeks a diet containing 19.1% of palm oil in addition to 4% soybean oil (45% kcal from fat) while 4% soybean oil (10% kcal from fat) was the only fat source in the control diet. Liver functioning and pro-inflammatory responses of the liver and peritoneal macrophages as well as the input of protein S-palmitoylation to these aspects were assessed in parallel. We found that the diet rich in palm oil induced transient accumulation of C16:0 and C18:1 fatty acids in murine liver leading to changes of the level and S-palmitoylation of numerous proteins involved in liver metabolism and selected innate immune responses. The relatively mild negative impact of such diet on liver functioning can be attributed to a lower bioavailability of palm oil-derived C16:0 vs. that of C18:1 and the efficiency of mechanisms preventing liver injury, including dynamic protein S-palmitoylation.

Project description:A mRNA expression study has been performed 20-25 minutes postmortem obtained samples from Longissimus dorsi muscle of 59 Duroc x LD/LW pigs to search for gene sequences related to meat quality (pH24, pH45, “Lab” colour coordinates, curing yield and exudation at three different times) or to meat composition (intramuscular fat, content of several fatty acid (C16:0, C18:0, C18:1 and C18:2), ratio of saturated, monounsaturated and polyunsaturated fatty acids, and protein and humidity contents) traits in order to find targets for selection. Gene ontology analysis, biological pathways and gene networks studies all show, that many more differentially expressed genes (506 vs 279) are related to meat quality (Group P, or perimortem characters) than to meat composition traits (Group L, or whole life traits). The difference between the number of GO terms annotated, biological pathways and gene networks in groups P and L is notable due to the differences in the complexity of the “generation process” of P-traits and the involvement of other tissues or organs in the generation of variability of L-traits. Also, interactions between a list of differentially expressed genes were found in ECM-receptor interaction, TGF-beta signaling pathway, fatty acid elongation in mitochondria and adipocytokine signalling pathway indicating that a substantial fraction of the gene networks could be associated with interactions between differential expressed genes related to traits under study. A high number of the most overexpressed genes are related to muscle development and functionality and repair mechanisms; they could be good candidates for breeding programs whose main goal is to enhance meat quality. 59 Longissimus Dorsi samples from 59 LD/LW x Duroc cross. A total of 33 traits on composition, conformation and meat quality and compositional traits were recorded in the left Longissimus dorsi muscle.

Project description:The goal of this study was to compare the transcriptional responses of mouse macrophages treated with unsaturated or saturated fatty acids to macrophages treated with LPS to stimulate classical inflammatory activation. Microarray profiling was performed on total RNA isolated from primary mouse bone marrow-derived macrophages (BMDMs) treated with fatty acids (C18:1 oleic acid or C18:0 stearic acid), BSA vehicle, or LPS at two time points.

Project description:A mRNA expression study has been performed 20-25 minutes postmortem obtained samples from Longissimus dorsi muscle of 59 Duroc x LD/LW pigs to search for gene sequences related to meat quality (pH24, pH45, “Lab” colour coordinates, curing yield and exudation at three different times) or to meat composition (intramuscular fat, content of several fatty acid (C16:0, C18:0, C18:1 and C18:2), ratio of saturated, monounsaturated and polyunsaturated fatty acids, and protein and humidity contents) traits in order to find targets for selection. Gene ontology analysis, biological pathways and gene networks studies all show, that many more differentially expressed genes (506 vs 279) are related to meat quality (Group P, or perimortem characters) than to meat composition traits (Group L, or whole life traits). The difference between the number of GO terms annotated, biological pathways and gene networks in groups P and L is notable due to the differences in the complexity of the “generation process” of P-traits and the involvement of other tissues or organs in the generation of variability of L-traits. Also, interactions between a list of differentially expressed genes were found in ECM-receptor interaction, TGF-beta signaling pathway, fatty acid elongation in mitochondria and adipocytokine signalling pathway indicating that a substantial fraction of the gene networks could be associated with interactions between differential expressed genes related to traits under study. A high number of the most overexpressed genes are related to muscle development and functionality and repair mechanisms; they could be good candidates for breeding programs whose main goal is to enhance meat quality.

Project description:Interactions between the gut microbial ecosystem and host lipid homeostasis are highly relevant to host physiology and metabolic diseases. We present a comprehensive multi-omics view of the effect of intestinal microbial colonization on hepatic lipid metabolism, integrating transcriptomic, proteomic, phosphoproteomic, and lipidomic analyses of liver and plasma samples from germfree and specific pathogen-free mice. Microbes induced monounsaturated fatty acid generation by stearoyl-CoA desaturase 1 and polyunsaturated fatty acid elongation by fatty acid elongase 5, leading to significant alterations in glycerophospholipid acyl-chain profiles. Germfree mice contained more abundant saturated and poly-unsaturated lipids, whereas colonized mice primarily contained mono-unsaturated lipids. A composite classification score calculated from the observed alterations in fatty acid profiles in germfree mice clearly differentiated antibiotic-treated mice from untreated controls with high sensitivity. Mechanistic investigations revealed that acetate originating from gut microbial degradation of dietary fiber serves as precursor for hepatic synthesis of C16 and C18 fatty acids and their related glycerophospholipid species that are also released into the circulation.

Project description:The beneficial effects of dietary long-chain (LC) n-3 polyunsaturated fatty acids (PUFA) in the prevention and/or treatment of some metabolic disorders result largely from their capacity to regulate the transcription level of many genes involved in metabolic and physiological homeostasis, especially in the liver. In this respect, they are known to bind and activate the Peroxisome Proliferator-Activated Receptor alpha (PPARalpha). The precursor of LC-PUFA, a-linoleic acid (ALA, C18:3 n-3) share some beneficial metabolic effects with its LC derivatives, however its role in gene regulation is poorly documented. Here, we analysed the hepatic transcriptome of mice fed for 5 weeks diets rich in either saturated FA from palm oil (PALM group) or ALA from linseed oil (LIN group). This modification of dietary fatty acid composition in a context of a high fat diet had a subtle but significant effect on the hepatic transcriptome. We identified mainly a group of genes that were upregulated in the LIN vs the PALM group and that include several well-known PPARalpha target genes involved in lipid and xenobiotic metabolism. Liver gene expression was measured in male C57BL/6J mice fed during 5 weeks a high fat diet (51% energy from fat) containing palm oil, rich in saturated fatty acids (n=10) or linseed oil, rich in 18:3 n-3 (n=8)