Regulation of phytosterol biosynthetic pathway during drought stress in rice.

Plants respond to drought stress in the form of various physio-biochemical and molecular changes at both cellular and molecular levels. Drought stress causes the destruction of cell membranes by disintegration of membrane lipids. One of the major groups of membrane lipids that plays important role in preserving the integrity of cell membranes is phytosterols. HMG-CoA reductase (HMGR) is the principal enzyme in the biosynthesis of plant sterols, synthesized via mevalonic acid pathway. Phospholipid: sterol acyltransferase (PSAT) is another important enzyme that plays an important role in turnover of phytosterols into steryl esters and helps maintain homeostasis of membrane lipids. In this study, the expression of both HMGR and PSAT genes in drought sensitive (IR64) and drought tolerant (N22) rice cultivars under applied drought conditions were found to be elevated. The increase in expression of these genes was proportional to the level of severity of applied drought stress. This is substantiated by the negative correlation of HMGR and PSAT expression to relative water content (RWC) and membrane stability index (MSI). Expression of PSAT was also found to be positively correlated to ABA content and HMGR expression.

[Plant sterols, cholesterol precursors and oxysterols: small amounts, big effects]. / Kasvisterolit, kolesterolin esiasteet ja oksisterolit: pienet määrät, suuret vaikutukset.

Noncholesterol sterols are present in the body in very low concentrations compared with cholesterol. Minor structural changes in sterols give them completely individual biological activities. Steroid hormones are the best known example of this. The knowledge of other relatives of cholesterol, particularly plant sterols, cholesterol precursors and oxysterols, their properties, physiological effects, significance in disease processes and diagnostic applications has recently undergone a rapid increase.

Role of phytosterols in drought stress tolerance in rice.

Phytosterols are integral components of the membrane lipid bilayer in plants. They regulate membrane fluidity to influence its properties, functions and structure. An increase in accumulation of phytosterols namely campesterol, stigmasterol and ß-sitosterol was observed in rice as seedlings matured. The levels of the major phytosterol, ß-sitosterol in N22 (drought tolerant) rice seedlings was found to increase proportionately with severity of drought stress. Its levels were 145, 216, 345 and 364 µg/g FW after subjecting to water stress for 3, 6, 9 and 12 days respectively, while for IR64 (drought susceptible), levels were 137, 198, 227 and 287 µg/g FW at the same stages. Phytosterols were also found to increase with maturity as observed at 30, 50 and 75 days after planting. The activity of HMG-CoA reductase (EC 1.1.1.34) which is considered to be a key limiting enzyme in the biosynthesis of phytosterols was 0.55, 0.56, 0.78 and 0.85 µmol/min/L at 3, 6, 9 and 12 days of water stress in N22 and 0.31, 0.50, 0.54 and 0.65 µmol/min/L in case of IR64 respectively. The elevation in the levels of phytosterols as well as the activity of HMG-CoA reductase during drought stress indicates the role of phytosterols in providing tolerance to stress.

General practitioners roles and experiences with functional foods containing probiotics and plant sterols.

AIM: The purpose of this research is to explore whether general practitioners have experiences with functional foods within their clinical practice. BACKGROUND: Previous research and editorials have suggested that general practitioners should have more involvement and knowledge of functional foods. This is due to the thought that functional foods may be consumed by their patients that could lead to other issues, such as patients not taking their medication. Therefore, research into general practitioners involvement with functional foods needs to be conducted. METHOD: In all, 10 semi-structured open interviews were used with a topic guide. These interviews where digitally audio recorded and transcribed verbatim. The transcripts where analysed using thematic analysis. FINDINGS: It was found that general practitioners believed they did not have a direct role with functional foods and should not be involved with discussing them with their patients. They felt that if they where to be involved with functional foods then they would need more training and information about them. They also felt that functional foods could be empowering for their patients.

The role of extracerebral cholesterol homeostasis and ApoE e4 in cognitive decline.

We examined the associations between extracerebral markers of cholesterol homeostasis and cognitive decline over 6 years of follow-up, and studied the modifying effect of apolipoprotein E (ApoE) e4. Data were collected in the Longitudinal Aging Study Amsterdam (n = 967, with longitudinal data on cognition, ages ≥ 65 years) and analyzed using linear mixed models. General cognition (Mini-Mental State Examination; MMSE), memory (Auditory Verbal Learning Test), and information processing speed (Coding task) were measured. The results show that ApoE e4 was a significant effect modifier. Significant associations were found only in ApoE e4 noncarriers (n = 718). We found a nonlinear negative association between the ratio of lanosterol to cholesterol (≤ 189.96 ng/mg), a marker for cholesterol synthesis, and general cognition. Lower cholesterol absorption, i.e., lower ratios of campesterol and sitosterol to cholesterol, as well as a higher rate of cholesterol synthesis relative to absorption were associated with lower information processing speed. In ApoE e4 carriers, the negative association between the ratio of campesterol to cholesterol and memory reached borderline significance. Future research should focus on the interaction between (disturbed) cholesterol homeostasis and ApoE e4 status with respect to dementia.

Cellular localization of steroid hormone-regulated proteins during sexual development in Achlya.

In the fungus Achlya ambisexualis sexual development in the male strain E87 is controlled by the steroid hormone antheridiol. To investigate the effects of antheridiol on the synthesis and/or accumulation of specific cellular proteins we have analysed [35S]methionine-labeled proteins from control and hormone-treated cells using both one-dimensional (1D) and two-dimensional (2D) PAGE. Since in a total cell extract, hormone-induced changes in specific proteins might not be apparent against a background of more abundant proteins, cells were fractionated prior to protein isolation. It was also necessary to establish a concentration of hormone carrier, in this case methanol, which by itself did not alter the pattern of protein synthesis. Using these approaches the addition of the hormone antheridiol to vegetatively growing cells of Achlya E87 was found to result in changes in the synthesis and/or accumulation of at least 16 specific proteins, which could be localized to the cytoplasmic, nuclear or cell wall/cell membrane fractions. The most prominent changes observed in the hormone-treated cells included the appearance in the cytoplasmic fraction of labeled proteins at 28.4 and 24.3 kD which were not detectable in control cells, and a significant enrichment in the labeling of a 24.3 kD protein in the cell wall/cell membrane fraction. A marked increase in the labeling of 85, 63 and 47 kD proteins in the nuclear fraction from hormone-treated cells was also noted. The molecular weight (MW) and the behavior on 2D gels of the 85 kD hormone-induced protein appeared very similar to that of the 85 kD heat-shock protein reported in Achlya. Quantitive changes in the [35S]methionine labeling of several other proteins were noted in all three cell fractions.

Stereochemically distinct roles for sterol in Saccharomyces cerevisiae.

Cholesterol, (E)- but not (Z)-17(20)-dehydrocholesterol, 5 alpha-cholestan-3 beta-ol, sitosterol, and certain other sterols lacking a 24 beta-methyl group will replace (spare) most but not all of the 24 beta-methylsterol which has recently been found to be absolutely necessary for growth of oxygen-deprived wild type Saccharomyces cerevisiae in the presence of 2,3-iminosqualene. The results imply the existence of two stereochemically distinct roles for sterol in this organism. One of them (perhaps regulatory) requires, whereas the other (probably playing the so-called "bulk" membranous role) does not require the presence of the 24 beta-methyl group. The latter function, for which most of the sterol is needed, can be performed by various 24-alkyl- and 24-desalkylsterols.