雌激素改善维生素D受体基因敲除雌性小鼠的骨、钙代谢

以维生素 D 受体基因敲除雌性小鼠为模型,研究雌激素对骨、钙代谢的调节作用。外源性给予雌二醇一个月后,观察小鼠血钙水平的变化,同时测定小鼠骨密度,并利用胫骨非脱钙 von Kossa 染色观察钙化的骨小梁和未钙化的类骨质面积的变化。结果显示,外源性给予雌二醇一个月后,维生素 D 受体基因敲除小鼠的血钙水平,从(2.10±0.37) mmol/L 上升到(2.80±0.41) mmol/L (P<0.05); 骨密度从(0.037±0.006) g/cm2增高到(0.048±0.007) g/cm2,显著改善(P<0.05) ;钙化骨小梁面积显著增加,未钙化的类骨质面积显著缩小。结果提示,外源性雌二醇对骨、钙代谢具有非依赖于维生素 D 的正向调节作用。     

Vitamin D3 and calcium cosupplementation alleviates cadmium hepatotoxicity in the rat: Enhanced antioxidative and anti‐inflammatory actions by remodeling cellular calcium pathways

Although vitamin D (VD) and calcium (Ca) attenuate cadmium (Cd) metabolism, their combined antioxidant and anti‐inflammatory actions against Cd toxicity have not been previously explored. Hence, this study measured the protective effects of VD ± Ca supplements against Cd hepatotoxicity. Forty adult male rats were distributed to: negative controls (NCs), positive controls (PCs), VD, Ca, and VD₃ and Ca (VDC) groups. All groups, except NC, received CdCl₂ in drinking water (44 mg/L) for 4 weeks individually or concurrently with intramuscular VD₃ (600 IU/kg; three times per week) and/or oral Ca (100 mg/kg; five times per week). The PC group showed abnormal hepatic biochemical parameters and increase in cellular cytochrome C, caspase‐9, and caspase‐3 alongside the apoptotic/necrotic cell numbers by terminal deoxynucleotidyl transferase dUTP nick end labeling technique. The PC hepatic tissue also had substantially elevated pro‐oxidants (malondialdehyde [MDA]/H₂O₂/protein carbonyls) and inflammatory cytokines (interleukin 1β [IL‐1β]/IL‐6/IL17A/tumor necrosis factor‐α), whereas the anti‐inflammatory (IL‐10/IL‐22) and antioxidants (glutathione [GSH]/GPx/catalase enzyme [CAT]) markers declined. Hypovitaminosis D, low hepatic tissue Ca, aberrant hepatic expression of VD‐metabolizing enzymes (Cyp2R1/Cyp27a1/cyp24a1), receptor and binding protein alongside Ca‐membrane (Ca_V1.1/Ca_V3.1), and store‐operated (RyR1/ITPR1) channels, and Ca‐binding proteins (CAM/CAMKIIA/S100A1/S100B) were observed in the PC group. Both monotherapies decreased serum, but not tissue Cd levels, restored the targeted hepatic VD/Ca molecules' expression. However, these effects were more prominent in the VD group than the Ca group. The VDC group, contrariwise, disclosed the greatest alleviations on serum and tissue Cd, inflammatory and oxidative markers, the VD/Ca molecules and tissue integrity. In conclusion, this report is the first to reveal boosted protection for cosupplementing VD and Ca against Cd hepatotoxicity that could be due to enhanced antioxidative, anti‐inflammatory, and modulation of the Ca pathways.     

Association of vitamin D receptor gene polymorphism with the urine calcium level in nephrolithiasis patients

Abstract

Association of vitamin D receptor (VDR) gene polymorphism with the urine calcium level in nephrolithiasis patients from the published reports are still conflicting. This study was conducted to evaluate the relationship between VDR BsmI (rs1544410), Fok1 (rs2228570), TaqI (rs731236) and ApaI (rs7975232) gene polymorphism and urine calcium level in nephrolithiasis patients using meta-analysis method. The association studies were identified from PubMed, and Cochrane Library on 1 April 2014, and eligible investigations were included and synthesized using meta-analysis method. Four reports were recruited into this meta-analysis for the association of VDR BsmI, Fok1, TaqI and ApaI gene polymorphism with urine calcium level in nephrolithiasis patients. In this meta-analysis, VDR BsmI B allele and BB genotype, Fok1 f allele and ff genotype, TaqI, and ApaI gene polymorphism were not associated with urine calcium level in nephrolithiasis patients. However, the BsmI bb genotype and Fok1 FF genotype were associated with the urine calcium level in nephrolithiasis patients. In conclusion, VDR BsmI bb genotype and Fok1 FF genotype were associated with the urine calcium level in nephrolithiasis patients. However, more studies should be conducted to confirm it.     

Estrogen receptor genes polymorphisms determine serum lipid profile in healthy postmenopausal women treated with calcium,vitamin D,and genistein

Cardiovascular risk increases in women after menopause. Unfavorable lipid-lipoprotein changes due to a lack of estrogens may have an important role in this context. Estrogen actions are mainly mediated by their binding to two estrogen receptors (ERs) whose signaling may be conditioned by different factors. Calcium, vitamin D, and genistein, among others, cause a beneficial effect on serum lipid profile by its modulation. Some genetic factors can also determine this signal. We determined the possible additive effect of genistein on calcium and vitamin D supplementation regarding serum lipid profile changes and whether ER polymorphisms may mediate in this effect. We performed a prospective, double blind study in which women were randomized in two groups: one group received calcium and vitamin D and the other group received calcium, vitamin D and genistein. Subsequently, we studied rs9340799, rs928554, and rs4986938 ER polymorphisms in both groups. Our results showed that being a carrier of the variant allele G of rs928554 polymorphism was associated with a greater decrease in triglyceride levels and that the homozygous AA genotype of rs9340799 polymorphism was associated with a greater decrease in total cholesterol, low-density lipoprotein cholesterol, and triglyceride levels after calcium, vitamin D, and genistein supplementation. This is the first report showing an association between polymorphisms in ER genes and an improvement of the serum lipid profile after taking calcium, vitamin D, and genistein supplementation in postmenopausal women. It reinforces the hypothesis that genetic factors are crucial in ER signalling.     

Molecular basis of the selective activity of vitamin D analogues

More than 2,000 synthetic analogues of the biological active form of vitamin D, 1alpha,25-dihydroxyvitamin D(3) (1alpha,25(OH)(2)D(3)), are presently known. Basically, all of them interfere with the molecular switch of nuclear 1alpha,25(OH)(2)D(3) signaling, which is the complex of the vitamin D receptor (VDR), the retinoid X receptor (RXR), and a 1alpha,25(OH)(2)D(3) response element (VDRE). Central element of this molecular switch is the ligand-binding domain (LBD) of the VDR, which can be stabilized by a 1alpha,25(OH)(2)D(3) analogue either in its agonistic, antagonistic, or non-agonistic conformation. The positioning of helix 12 of the LBD is of most critical importance for these conformations. In each of the three conformations, the VDR performs different protein-protein interactions, which then result in a characteristic functional profile. Most 1alpha,25(OH)(2)D(3) analogues have been identified as agonists, a few are antagonists (e.g., ZK159222 and TEI-9647), and only Gemini and some of its derivatives act under restricted conditions as non-agonists. The functional profile of some 1alpha,25(OH)(2)D(3) analogues, such as EB1089 and Gemini, can be modulated by protein and DNA interaction partners of the VDR. This provides them with some selectivity for DNA-dependent and -independent signaling pathways and VDRE structures.     

Relationship between vitamin D status and deposition of bound calcium in skeletal muscle of the rat

Summary— The effects of vitamin D on the intramuscular distribution of total and bound calcium, phosphate and on available cytosolic calcium, were investigated in skeletal muscle. Total calcium and phosphorus were measured on ashed subcellular fractions of muscles from vitamin D-repleted and vitamin D-deprived rats. The variations in available calcium were followed by determining the activities of calcium-sensitive enzymes in isolated cytosol. Bound-calcium was revealed ultra-microscopically by pyroantimonate. In vitamin D-repleted muscles, the pyroantimonate method revealed specific areas of intense bound-calcium deposition: the myofibrils, where they formed pronounced lines parallel to the Z-bands. In vitamin D-deficient muscles, the calcium-pyroantimonate deposits appeared clearly reduced. This loss was accompanied by a marked reduction in total calcium and phosphorus in all the subcellular fractions, as compared to vitamin D-repleted muscles. Unexpectedly, the activity of the Ca²⁺-activated isocitrate-dehydrogenase was increased in the cytosol, while that of the Ca²⁺-inhibited pyruvate-kinase decreased. Prolonged vitamin D-administration to vitamin D-repleted rats led to an intensification of calcium-pyroantimonate deposits and a general increase in total calcium and phosphorus, but no change in the cytosolic Ca²⁺-sensitive enzyme activities. Cessation of vitamin D-administration to vitamin D-repleted rats produced a regression of calcium-pyroantimonate deposits, a general decrease of total calcium and phosphate levels, and stimulation of the Ca²⁺-activated isocitrate-dehydrogenase accompanied by lowering of the Ca²⁺-inhibited pyruvate-kinase. The results clearly indicate a correlation between vitamin D-repletion and the total and bound calcium content of skeletal muscle. In addition, they demonstrate an apparent contradiction between the decrease of total and bound calcium, and the activities of cytosolic Ca²⁺ sensitive enzymes during vitamin D-deprivation, which can only be explained by an increase in available calcium. It is suggested that vitamin D stimulates intramuscular mechanisms tending to lower available calcium by inactivating the cation via the formation of calcium chelates.     

Binding characteristics of a membrane receptor that recognizes 1α25-dihydroxyvitamin D3 and its epimer, 1β,25-dihydroxyvitamin D3

The Steroid hormon 1α, @5-Dihydroxyvitamin D₃ has been shown to expert rapid effect (15 s to 5 min) in osteoblast. These occur in osteoblast-like cells lacking the nuclear vitamin D receptor, ROS 24/1, suggesting that a separate signalling system mediates the rapid action. These non-genomic action include rapid activation of phospholipase C and opening of calcium channels, pointing to a membrane localization of this signalling system. Previous studies have shown that the 1β epimer of 1α25-dihydroxyvitamina D₃ can block these rapid action, indicating that the 1β epimer may bind to the recptor responsible for the rapid action sin a competative manner. We have assessed the displacement of ³H-1α,25dihydroxyvitamin D₃ by vitamin D compounds, as well as the apparent dissociation constant of 1α25-dihydroxyvitamin D₃ and its 1β epimer for the memberane receptor in membrane prepration from ROS 24/1 cells. Increasing concentrations of 1α25-dihydroxyvitamin D₃, 7.25 nM to 725 nM, displaced ³H-1α25-dihydrxyvitamin D₃ from the membranes with 725 nM of the hormone displacing 40–49% of the radioactivity. Similarly, 1β,25-dihydroxyvitamin D₃, 7.25 nM and 72.5 nM, displaced 1α25-dihydroxyvitamin D₃ binding while 25-hydroxyvitamin D₃, 7.25 nM, did not. The apparent dissociation constant (K_D) for 1α25-dihydroxyvitamin D₃ was detrermined from displacement of ³H-1α25-dihydroxyvitamin D₃ yielding a value of 8.1 × 10^?7 M by Scatchard analysis. The K_D for the 1β epimer determine from displacement of ³H-1α25-dihydroxyvitamin D₃ was 4.8 × 10^?7 M. The data suggest the presence of a receptor on the membrane of ROS 24/1 cells that reconize 1α25-dihydroxyvitamin D₃ and its 1β epimer, but not 25-dihydroxyvitamin D₃. Its ability to reconize the 1β epimer which appears to be a specific anagonist of the rapid effect of the hormone suggests that these studies may be the initial steps in the isolation and characterization of the signalling system mediating the rapid action of vitamin D.     

Voltage-independent calcium influx in smooth muscle

In smooth muscle cells, agonists such as neurotransmitters or hormones can induce an increase in [Ca(2+)](i) via a release of intracellular stored calcium or/and an influx of extracellular calcium. The calcium entry pathway operates through a variety of plasmalemmal calcium channels which involve voltage-dependent and voltage-independent calcium channels. Voltage-independent calcium channels include (1) receptor-operated channels (ROCs) activated by agonist-receptor interaction and, in the majority of cases, the downstream signal transduction proteins, (2) store-operated channels (SOCs) activated by the emptying of intracellular Ca(2+) store (mainly the sarcoplasmic reticulum), (3) mechanosensitive or stretch-activated channels (SACs) activated by membrane stretch. Generally, voltage-independent calcium channels are calcium permeable non-selective cation channels with electrophysiological differences, complex regulatory mechanisms and pharmacology. Although the molecular identity of voltage-independent calcium channels is not yet fully elucidated, there are growing evidences that these channels correspond to a new family of membrane proteins encoded by mammalian homologues of specific transient receptor potential (TRP) genes. Several types of TRP proteins are ubiquitously expressed in smooth muscle cells and variations in the expression depend on tissue and species. More recently, other proteins such as Orai1 and STIM1 proteins have been also proposed as participating in the molecular identity of voltage-independent calcium channels. These channels control phenomena such as smooth muscle cells proliferation and/or contraction.     

Involvement of TRPC in the abnormal calcium influx observed in dystrophic (mdx) mouse skeletal muscle fibers

Duchenne muscular dystrophy results from the lack of dystrophin, a cytoskeletal protein associated with the inner surface membrane, in skeletal muscle. The absence of dystrophin induces an abnormal increase of sarcolemmal calcium influx through cationic channels in adult skeletal muscle fibers from dystrophic (mdx) mice. We observed that the activity of these channels was increased after depletion of the stores of calcium with thapsigargin or caffeine. By analogy with the situation observed in nonexcitable cells, we therefore hypothesized that these store-operated channels could belong to the transient receptor potential channel (TRPC) family. We measured the expression of TRPC isoforms in normal and mdx adult skeletal muscles fibers, and among the seven known isoforms, five were detected (TRPC1, 2, 3, 4, and 6) by RT-PCR. Western blot analysis and immunocytochemistry of normal and mdx muscle fibers demonstrated the localization of TRPC1, 4, and 6 proteins at the plasma membrane. Therefore, an antisense strategy was used to repress these TRPC isoforms. In parallel with the repression of the TRPCs, we observed that the occurrence of calcium leak channels was decreased to one tenth of its control value (patch-clamp technique), showing the involvement of TRPC in the abnormal calcium influx observed in dystrophic fibers.     

Functional interaction between mouse spermatogenic LVA and thapsigargin-modulated calcium channels

The acrosome reaction in mouse is triggered by a long-lasting calcium signaling produced by a chain of openings of several calcium channels, a low-voltage-activated (LVA) calcium channel, an inositol trisphosphate receptor (IP(3)R), and the store-operated calcium channel TRP2. Since mature sperm cells are refractory to patch clamp experiments, we study the functional interactions among those sperm calcium channels in spermatogenic cells. We have studied the role of cytosolic calcium in voltage-dependent facilitation of low voltage-activated calcium channels. Calcium concentration was modified through the inclusion of the calcium buffers, EGTA and BAPTA, in the recording pipette solution, and by addition of calcium modulators like thapsigargin and the calcium ionophore A23187. We demonstrate that lowering calcium concentration below resting level allows to evidence a voltage-dependent facilitation. We also show that LVA calcium channels present strong voltage-dependent inhibition by thapsigargin. This effect is independent of cytosolic calcium elevation secondary to calcium store depletion and to the activation of TRP channels. Our data evidence an interesting functional relationship, in this cell type, between LVA channels and proteins whose activity is related to calcium filling state of the endoplasmic reticulum (presumably TRP channels and inositol triphosphate receptor). These relationships may contribute to the regulation of calcium signaling during acrosome reaction of mature sperm cell.     

Expression patterns of vitamin D receptor in human prostate

UV exposure and serum levels of vitamin D have been linked in several studies with prostate cancer risk. At the cellular level, the principal action of vitamin D is mediated though vitamin D receptors (VDR). Since prostate cancer is a disease strongly associated with age, we examined the presence of VDR in normal prostate from donors of various ages to determine if the VDR expression pattern changed with age. We also compared the VDR expression in the peripheral and central zones of the prostate to determine if the expression pattern varied by location. Immunohistochemical studies were performed on paraffin-embedded tissue from cases selected by the following age decades; 10-19, 20-29, 30-39, 40-49, 50-59, and 60-69. Both the central and peripheral zones were examined for VDR expression. The intensity of VDR expression in prostate was compared with expression in different types of human tissues. Mean VDR expression was lowest in the 10-19 years of age group. The intensity of the nuclear VDR was higher though the fifth decade, and then declined in cases of ages 60-70. When multiple sections of the same donor prostate were compared, VDR expression was greater in the peripheral zone compared to the central zone.     

Structure of the ancient TRPY1 channel from Saccharomyces cerevisiae reveals mechanisms of modulation by lipids and calcium

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Cellular and molecular mechanisms of vitamin D in food allergy

Food allergies are becoming increasingly prevalent, especially in young children. Epidemiological evidence from the past decade suggests a role of vitamin D in food allergy pathogenesis. Links have been made between variations in sunlight exposure, latitude, birth season and vitamin D status with food allergy risk. Despite the heightened interest in vitamin D in food allergies, it remains unclear by which exact mechanism(s) it acts. An understanding of the roles vitamin D plays within the immune system at the cellular and genetic levels, as well as the interplay between the microbiome and vitamin D, will provide insight into the importance of the vitamin in food allergies. Here, we discuss the effect of vitamin D on immune cell maturation, differentiation and function; microbiome; genetic and epigenetic regulation (eg DNA methylation); and how these processes are implicated in food allergies.     

Making sense with TRP channels: store-operated calcium entry and the ion channel Trpm5 in taste receptor cells

The sense of taste plays a critical role in the life and nutritional status of organisms. During the last decade, several molecules involved in taste detection and transduction have been identified, providing a better understanding of the molecular physiology of taste receptor cells. However, a comprehensive catalogue of the taste receptor cell signaling machinery is still unavailable. We have recently described the occurrence of calcium signaling mechanisms in taste receptor cells via apparent store-operated channels and identified Trpm5, a novel candidate taste transduction element belonging to the mammalian family of transient receptor potential channels. Trpm5 is expressed in a tissue-restricted manner, with high levels in gustatory tissue. In taste cells, Trpm5 is co-expressed with taste-signaling molecules such as alpha-gustducin, Ggamma(13), phospholipase C beta(2) and inositol 1,4,5-trisphosphate receptor type III. Biophysical studies of Trpm5 heterologously expressed in Xenopus oocytes and mammalian CHO-K1 cells indicate that it functions as a store-operated channel that mediates capacitative calcium entry. The role of store-operated channels and Trpm5 in capacitative calcium entry in taste receptor cells in response to bitter compounds is discussed.