Polyunsaturated fatty acid and sterol requirements of the southwestern corn borer, Diatraea grandiosella

The southwestern corn borer, Diatraea grandiosella, was reared on a meridic diet and its lipid requirements were determined. A dietary supplement of wheat germ oil was found to contain factors which were essential for larval growth and normal wing development. An investigation into the nature of these factors showed that linoleate or linolenate promoted normal wing development whereas β-sitosterol enhanced the larval growth rate.     

Observations on the physical and chemical composition of diets for the Angoumois grain moth

Larvae of the Angoumois grain moth readily established in refined diets moulded into pellets. A bioassay based on larval establishment, weight, and numbers of adults was used to determine the insect's major nutritional requirements. The results showed that test diets containing corn starch (49–64%), glycerol (15–19%), casein (9%), yeast (7·5%), and wheat germ (2·6%) permitted good establishment and normal development. No further improvements were obtained when diets were supplemented with a mineral or vitamin mixture, cholesterol, or ascorbic acid. It was concluded that yeast and wheat germ supplied the insect with adequate amounts of lipids, vitamins, and minerals. However, even the best diets lacked some undetermined growth promoting factor because larvae grew better in a natural product control diet.     

The influence of linoleic acid and linolenic acid on adult moth emergence of Homona coffearia from meridic diets in vitro

The fatty acids linoleic and linolenic acids have been found to be critical dietary supplements for the successful adult emergence of Homona coffearia reared in meridic diets in vitro. When the levels of these fatty acids were sub-optimal, the moths were able to emerge only partially and a few that emerged fully were deformed with naked wings. In the presence of optimal amounts of these fatty acids, the Δ⁷ sterol, ergosterol, available in the brewer's yeast provided in the diets was found to be adequate for growth and adult emergence. The availability of linoleic acid, which appeared to be the more critical requirement, was sufficient for successful adult emergence, provided that the diet was supplemented with additional amounts of ergosterol. The above two fatty acids seemed to be the only critical dietary supplements offered by whole tea leaves incorporated in a previously described oligidic diet. The provision of a dietary source of a Δ⁷ sterol was found essential as this insect was unable to utilize cholesterol.     

Dietary mixtures of cysteine and serine proteinase inhibitors exhibit synergistic toxicity toward the red flour beetle,Tribolium castaneum

1. Combinations of a cysteine proteinase inhibitor (CPI) and serine proteinase inhibitors (SPI) in wheat germ diets were toxic to larvae of the red flour beetle, Tribolium castaneum, when tested at levels where individual inhibitors were nontoxic.2. Mixtures of 0.1% (w/w) CPI (E-64) plus 1% of either of three plant SPIs (soybean Kunitz trypsin inhibitor, soybean Bowman-Birk trypsin-chymotrypsin inhibitor, or lima bean trypsin inhibitor) inhibited T. castaneum growth, resulting in 82–97% reduction in larval weight gain 17 days after hatching and 40–60% mortality.3. Supplemention of diet containing 0.1% E-64 plus 1% soybean Kunitz trypsin inhibitor (STI) with a mixture of amino acids at 7% caused a partial reversal of the growth inhibition, with 91% of the larvae surviving.4. Diet containing 0.1% E-64 plus either 5 or 10% STI resulted in 100% mortality of the larvae during the first or second instar.5. Addition of a mixture ofamino acids at 20% to the 0.1% E-64 plus 10% STI diet allowed 89% of the larvae to develop into adults.6. The synergism between different classes of proteinase inhibitors in the insect's diet that enhances growth inhibition and toxicity demonstrates the potential for an insect pest management strategy involving the coordinated manipulation of two or more types of digestive enzyme inhibitor genes in plants.     

Sources of variation in dietary requirements in an obligate nutritional symbiosis

The nutritional symbiosis between aphids and their obligate symbiont, Buchnera aphidicola, is often characterized as a highly functional partnership in which the symbiont provides the host with essential nutrients. Despite this, some aphid lineages exhibit dietary requirements for nutrients typically synthesized by Buchnera, suggesting that some aspect of the symbiosis is disrupted. To examine this phenomenon in the pea aphid, Acyrthosiphon pisum, populations were assayed using defined artificial diet to determine dietary requirements for essential amino acids (EAAs). Six clones exhibiting dependence on EAAs in their diet were investigated further. In one aphid clone, a mutation in a Buchnera amino acid biosynthesis gene could account for the clone''s requirement for dietary arginine. Analysis of aphid F₁ hybrids allowed separation of effects of the host and symbiont genomes, and revealed that both affect the requirement for dietary EAAs in the clones tested. Amino acid requirements were minimally affected by secondary symbiont infection. Our results indicate that variation among pea aphids in dependence on dietary amino acids can result from Buchnera mutation as well as variation in the host genotype.     

Vitamin requirements of larvae of Sitophilus oryzae

Improvements were made in the meridic larval diet for Sitophilus oryzae by replacing the minerals and vitamins supplied by dietary brewer's yeast and wheat germ with mineral and vitamin mixtures. The effects of different concentrations of individual vitamins were studied with the improved diet containing 20% casein. In later tests the dietary casein was replaced with a mixture of 15 amino acids. The results indicated that these larvae, which contain an associated bacteria-like micro-organism, required thiamine, nicotinic acid, pyridoxine, folic acid, and biotin in the diet. No requirement for riboflavin or pantothenic acid could be demonstrated on either the 20% casein diet or the amino acid diet possibly due to contamination of the cornstarch with these two vitamins. In addition, the larvae did not require choline or inositol for the growth of one larval generation.The asymbiotic larvae of S. granarius failed to develop on the improved casein diet indirectly implicating the symbiotes in a nutritional rôle; however, the symbiotes present in S. oryzae apparently do not provide B vitamins. Larvae of S. oryzae failed to develop when the concentration of casein was reduced to 10% while growth was maintained with a 10% concentration of the amino acid mixture. Casein is not an optimal source of amino acids for this species.     

The essential dietary fatty acid requirement of the tufted apple budmoth, Platynota idaeusalis

The tufted apple budmoth, Platynota idaeusalis (Walker), was reared non-axenically for two successive generations on a casein-based semisynthetic diet. The qualitative essential fatty acid requirement for growth, development and normal pupal-adult ecdysis was studied using the non-axenic casein-based semisynthetic diets with and without various 99% pure fatty acids. Linoleic or linolenic acids caused accelerated larval development; linoleic, linolenic and arachidonic acids showed similar activity in body weight gain and survival to pupal-adult ecdysis. Linoleic or linolenic acids were active in alleviating wing deformities; arachidonic acid was partially active in alleviating wing deformities at the one dietary concentration evaluated. Activity of arachidonic acid as an essential fatty acid for P. idaeusalis is unique among insects, except for mosquitoes. The essential fatty acid deficiency syndrome of the adult, resulting from the larvae feeding on fat-deficient diets, was greatly reduced when larvae were fed on a diet adequate in essential fatty acid during either their early or late development.     

Differential effects of polyunsaturated fatty acids on sterol synthesis rates in adult and fetal tissues of the hamster: consequence of altered sterol balance

Cholesterol is necessary for the proper growth and development of the fetus. Consequently, disruptions in cholesterol biosynthesis lead to abnormal fetal development. It has been shown that in cells exposed to polyunsaturated fatty acids (PUFA), the expressions of genes and activities of enzymes involved in cholesterol synthesis are reduced. Similarly, we found that adult male hamsters fed PUFA-enriched diets had an approximately 60% reduction in in vivo hepatic sterol synthesis rates. If fetal tissues respond to PUFA in the same manner as do adult livers, then maternal dietary PUFA could lead to a reduction in fetal sterol synthesis rates and possibly abnormal development. To investigate the impact of maternal dietary fatty acids on fetal sterol synthesis rates, female hamsters were fed diets enriched in various fatty acids before and throughout gestation. In vivo sterol synthesis rates were measured in fetuses at mid- and late gestation. At both gestational stages, dietary PUFA had no effect on fetal sterol synthesis rates. This lack of effect was not a consequence of a lack of PUFA enrichment in fetal fatty acids or the lack of PUFA receptor expression in the fetus. We hypothesize that the fetus may experience a dysregulation of sterol synthesis as the result of the fetus being in a negative sterol balance; the PUFA-induced suppression of sterol synthesis in the adult male hamster liver was ablated by creating a net negative sterol balance across the adult hepatocyte.     

Dietary lipid quality affects temperature-mediated reaction norms of a freshwater key herbivore

Temperature-mediated plasticity in life history traits strongly affects the capability of ectotherms to cope with changing environmental temperatures. We hypothesised that temperature-mediated reaction norms of ectotherms are constrained by the availability of essential dietary lipids, i.e. polyunsaturated fatty acids (PUFA) and sterols, as these lipids are involved in the homeoviscous adaptation of biological membranes to changing temperatures. A life history experiment was conducted in which the freshwater herbivore Daphnia magna was raised at four different temperatures (10, 15, 20, 25°C) with food sources differing in their PUFA and sterol composition. Somatic growth rates increased significantly with increasing temperature, but differences among food sources were obtained only at 10°C at which animals grew better on PUFA-rich diets than on PUFA-deficient diets. PUFA-rich food sources resulted in significantly higher population growth rates at 10°C than PUFA-deficient food, and the optimum temperature for offspring production was clearly shifted towards colder temperatures with an increased availability of dietary PUFA. Supplementation of PUFA-deficient food with single PUFA enabled the production of viable offspring and significantly increased population growth rates at 10°C, indicating that dietary PUFA are crucial for the acclimation to cold temperatures. In contrast, cumulative numbers of viable offspring increased significantly upon cholesterol supplementation at 25°C and the optimum temperature for offspring production was shifted towards warmer temperatures, implying that sterol requirements increase with temperature. In conclusion, essential dietary lipids significantly affect temperature-mediated reaction norms of ectotherms and thus temperature-mediated plasticity in life history traits is subject to strong food quality constraints.     

Dietary trilinoelaidate: Effects on the in vitro biosynthesis of different prostaglandins in brain,lung and stomach fundus of rats

The effects of dietary trilinoelaidate on the biosynthesis of different prostaglandins (PG's) from [1-¹⁴C]-arachidonic acid by brain, lung, and stomach fundus homogenates of rats were determined. Rats were fed diets containing hydrogenated tallow (essential fatty acid deficient), trilinoelaidin at 0 (control), 10 and 50 weight percent of the total dietary fat and sacrificed at the end of eleven weeks. Brain, lung and stomach fundus of rats receiving trilinoelaidin at a level of 50 weight percent of the total dietary fat and the essential fatty acids deficient diet showed increased activity for the in vitro conversion of exogenous arachidonic acid to PG's compared to controls.     

Effect of wheat bran and wheat germ on the intestinal uptake of oleic acid, monoolein, and cholesterol in the rat

The effects of fiber-rich wheat bran and wheat germ on the intestinal absorption of dietary cholesterol, free fatty acids, and monoglycerides were studied. Rats were given a test meal containing [(14)C]oleic acid, [(14)C]monoolein, and [(3)H]cholesterol. After a 1-hour digestion period, wheat bran or wheat germ (10% of meal solids) did not significantly modify the gastric emptying of lipids. No effect of wheat bran was evidenced on the amounts of lipids and cholesterol in the intestinal content or the mucosal segments, whereas wheat germ significantly increased the cholesterol in the small intestine content, decreasing its intestinal absorption. Both fractions only slightly influenced the levels of absorbed lipids and cholesterol in the plasma and liver. In vitro binding measurements showed that the wheat fractions bind only 7% to 15% of both lipids and cholesterol. Results indicate that wheat bran has no direct effect on the mucosal uptake process, whereas wheat germ might decrease the uptake of dietary cholesterol by an as yet unknown mechanism.     

Translational machinery and protein folding: evidence of conformational variants of the estrogen receptor alpha

As an approach to understand how translation may affect protein folding, we analyzed structural and functional properties of the human estrogen receptor alpha synthesized by different eukaryotic translation systems. A minimum of three conformations of the receptor were detected using limited proteolysis and a sterol ligand-binding assay. The receptor in vitro translated in rabbit reticulocyte lysate was rapidly degraded by protease, produced major bands of about 34 kDa and showed a high affinity for estradiol. In a wheat germ translation system, the receptor was more slowly digested. Two soluble co-existing conformations were evident by different degradation patterns and estradiol binding. Our data show that differences in the translation machinery may result in alternative conformations of the receptor with distinct sterol binding properties. These studies suggest that components of the cellular translation machinery itself might influence the protein folding pathways and the relative abundance of different receptor conformers.     

Amino acid requirements of the mosquito Culex pipiens: asparagine essential

When any of the ten “rat essential” amino acids was omitted singly from a fully-defined synthetic dietary medium, newly-hatched Culex pipiens larvae were unable to develop to the second instar. With proline omitted, development was greatly retarded and survival to the adult stage reduced. Without aspargine (but not aspartic acid) growth and development ceased in most individuals before larval-pupal ecdysis, and no adults were obtained. These twelve amino acids are considered nutritionally essential for this mosquito. With glycine omitted singly, development was markedly retarded, but survival to the adult stage was not affected; thus this amino acid is required for good growth, but these experiments do not demonstrate it as essential. Single omission of alanine, aspartic acid, cysteine, glutamic acid or amide, serine or tyrosine had virtually no effect on development and they are therefore considered nutritionally non-essential. With diets containing the twelve culex-essential amino acids only, very little development occurred, but augmentation with either glycine or serine allowed growth and development almost as good as with the complete amino acid mixture. Augmentation of the essential twelve with alanine, cysteine, glutamic acid/amide, or tyrosine singly failed to improve development. The requirement for dietary asparagine shown by these studies appears to be unique among insects so far studied. In particular, another mosquito, Aedes aegypti, has no such requirement.     

Protein digestion in cereal aphids (Sitobion avenae) as a target for plant defence by endogenous proteinase inhibitors

Gut extracts from cereal aphids (Sitobion avenae) showed significant levels of proteolytic activity, which was inhibited by reagents specific for cysteine proteases and chymotrypsin-like proteases. Gut tissue contained cDNAs encoding cathepsin B-like cysteine proteinases, similar to those identified in the closely related pea aphid (Acyrthosiphon pisum). Analysis of honeydew (liquid excreta) from cereal aphids fed on diet containing ovalbumin showed that digestion of ingested proteins occurred in vivo. Protein could partially substitute for free amino acids in diet, although it could not support complete development. Recombinant wheat proteinase inhibitors (PIs) fed in diet were antimetabolic to cereal aphids, even when normal levels of free amino acids were present. PIs inhibited proteolysis by aphid gut extracts in vitro, and digestion of protein fed to aphids in vivo. Wheat subtilisin/chymotrypsin inhibitor, which was found to inhibit serine and cysteine proteinases, was more effective in both inhibitory and antimetabolic activity than wheat cystatin, which inhibited cysteine proteases only. Digestion of ingested protein is unlikely to contribute significantly to nutritional requirements when aphids are feeding on phloem, and the antimetabolic activity of dietary proteinase inhibitors is suggested to result from effects on proteinases involved in degradation of endogenous proteins.     

Amino acid requirements and peptidase activities of Streptococcus salivarius subsp. thermophilus

The aim of this work was to investigate the relationship between amino acid requirements and peptidase enzyme systems in three Streptococcus salivarius subsp. thermophilus strains. A synthetic medium without nitrogen components and a milk (RD milk) without its non-protein nitrogen fraction were prepared with different mixtures of amino acids. The strains showed different amino acid requirements. Some amino acids proved to be essential, some were required, while others did not affect growth. In the synthetic medium, only leucine and glutamic acid were essential for growth. In RD milk, the amino acid requirements were found to be lower, with only the absence of glutamic acid causing complete inhibition of growth. Relationships between aminopeptidase activities of the strains and their amino acid requirements were observed. Strains with higher amino acid requirements were also found to express a wider range of peptidases.     

Evaluation of optimum lysine and threonine supplements to a wheat and barley-based diet in rats

Experiments were conducted on growing male SPF-rats to study the optimum supplementation with essential amino acids of diets containing wheat and barley (1.4:1) as the only source of nitrogen. In growth and balance experiments comprising 30 and 17 combinations of L-lysine and L-threonine, respectively, the concentrations of the two amino acids corresponding to maximum body weight gain, feed conversion efficiency, biological value of protein and net protein utilization were calculated using multiple regression analysis. Addition of lysine and threonine to the basal diet markedly improved the nutritional value of cereal proteins. The optimum concentrations found were 0.69–0.70% total dietary lysine and 0.52–0.55% total dietary threonine. Statistical analysis showed that the number of observations used for the estimation of regression functions in the growth experiment could be reduced to ca. 100 without substantially affecting precision.     

Life history consequences of sterol availability in the aquatic keystone species <Emphasis Type="Italic">Daphnia</Emphasis>

The absence of essential biochemical nutrients, such as polyunsaturated fatty acids or sterols, has been considered as a mechanism determining trophic interactions between the herbivore Daphnia and its phytoplankton food source. Here, we experimentally quantify the sensitivity of two Daphnia species to decreasing amounts of dietary sterols by measuring variations in life history traits. The two species Daphnia magna and D. galeata were fed different mixtures of the sterol-containing green alga Scenedesmus obliquus and the sterol-free cyanobacterium Synechococcus elongatus; a higher proportion of Synechococcus in the food is equivalent to a decrease in dietary sterols. To address the significance of sterol limitation, the Daphnia species were also fed Synechococcus supplemented with cholesterol. In both species, somatic and population growth rates, maternal dry mass, the number of viable offspring, and the probability of survival were significantly reduced with the lower availability of sterols. A high correlation between the sterol content of the mixed diet and the somatic and population growth rates was found, and growth on cholesterol-supplemented Synechococcus fitted well into this correlation. Somatic growth of first-clutch neonates grown on 100% Synechococcus exhibited a pattern similar to that of somatic growth of their mothers grown on the different food regimes, which demonstrated the significance of maternal effects for sterol-limited population growth. Daphnia galeata had a twofold higher incipient limiting sterol level than D. magna, which indicated interspecific differences in sterol requirements between the two Daphnia species. The results suggest a strong impact of dietary sterols on life history traits and therefore, population dynamics of the keystone species Daphnia.     

Impact of Fabp1/Scp-2/Scp-x gene ablation (TKO) on hepatic phytol metabolism in mice

Studies in vitro have suggested that both sterol carrier protein-2/sterol carrier protein-x (Scp-2/Scp-x) and liver fatty acid binding protein [Fabp1 (L-FABP)] gene products facilitate hepatic uptake and metabolism of lipotoxic dietary phytol. However, interpretation of physiological function in mice singly gene ablated in the Scp-2/Scp-x has been complicated by concomitant upregulation of FABP1. The work presented herein provides several novel insights: i) An 8-anilino-1-naphthalenesulfonic acid displacement assay showed that neither SCP-2 nor L-FABP bound phytol, but both had high affinity for its metabolite, phytanic acid; ii) GC-MS studies with phytol-fed WT and Fabp1/Scp-2/SCP-x gene ablated [triple KO (TKO)] mice showed that TKO exacerbated hepatic accumulation of phytol metabolites in vivo in females and less so in males. Concomitantly, dietary phytol increased hepatic levels of total long-chain fatty acids (LCFAs) in both male and female WT and TKO mice. Moreover, in both WT and TKO female mice, dietary phytol increased hepatic ratios of saturated/unsaturated and polyunsaturated/monounsaturated LCFAs, while decreasing the peroxidizability index. However, in male mice, dietary phytol selectively increased the saturated/unsaturated ratio only in TKO mice, while decreasing the peroxidizability index in both WT and TKO mice. These findings suggested that: 1) SCP-2 and FABP1 both facilitated phytol metabolism after its conversion to phytanic acid; and 2) SCP-2/SCP-x had a greater impact on hepatic phytol metabolism than FABP1.     

Dietary cholesterol utilization by the housefly,Musca domestica

The amount of cholesterol and the distribution of its metabolites were studied in various larval tissues of the housefly (Musca domestica), reared on a high cholesterol diet containing the radioactive cholesterol. The sterol content was also examined in adults derived from larvae reared on increasing dietary cholesterol concentration in separate batches. The results suggest that when the dietary sterol concentration was raised from 0.002 to 0.02% wet weight (an optimal concentration required for a maximal growth and development of insect), the sterol content of six-day old larvae was increased approx. 4-fold. However, a further 10-fold increase of dietary cholesterol (to 0.22% of wet weight) was associated with only a 1.5-fold increase in larval sterol content, and no increase in the sterol content of adult insects derived from such larvae was observed. This increase of sterol content of whole larvae was found to be confined to the larval cuticle and composite gut fractions and may be attributed to unabsorbed cholesterol in the gut, and to a solubilizing effect of the cuticle. These findings suggest that when the cholesterol requirement for the maximal growth of the insect has been reached, larvae are able to regulate the intake of ingested cholesterol, and no more is taken up through the gut even when a high gut concentration of cholesterol is present.The adults contained a higher percentage of esterified sterols than the larvae, approx. 25% of the sterol in females and 14% of sterol in males were esterified.     

Dietary essentiality of “nutritionally non-essential amino acids” for animals and humans

Based on growth or nitrogen balance, amino acids (AA) had traditionally been classified as nutritionally essential (indispensable) or non-essential (dispensable) for animals and humans. Nutritionally essential AA (EAA) are defined as either those AA whose carbon skeletons cannot be synthesized de novo in animal cells or those that normally are insufficiently synthesized de novo by the animal organism relative to its needs for maintenance, growth, development, and health and which must be provided in the diet to meet requirements. In contrast, nutritionally non-essential AA (NEAA) are those AA which can be synthesized de novo in adequate amounts by the animal organism to meet requirements for maintenance, growth, development, and health and, therefore, need not be provided in the diet. Although EAA and NEAA had been described for over a century, there are no compelling data to substantiate the assumption that NEAA are synthesized sufficiently in animals and humans to meet the needs for maximal growth and optimal health. NEAA play important roles in regulating gene expression, cell signaling pathways, digestion and absorption of dietary nutrients, DNA and protein synthesis, proteolysis, metabolism of glucose and lipids, endocrine status, men and women fertility, acid–base balance, antioxidative responses, detoxification of xenobiotics and endogenous metabolites, neurotransmission, and immunity. Emerging evidence indicates dietary essentiality of “nutritionally non-essential amino acids” for animals and humans to achieve their full genetic potential for growth, development, reproduction, lactation, and resistance to metabolic and infectious diseases. This concept represents a new paradigm shift in protein nutrition to guide the feeding of mammals (including livestock), poultry, and fish.