ZINC TOLERANCE INDUCED BY IRON 1 reveals the importance of glutathione in the cross-homeostasis between zinc and iron in Arabidopsis thaliana

Zinc is an essential micronutrient for plants, but it is toxic in excess concentrations. In Arabidopsis, additional iron (Fe) can increase Zn tolerance. We isolated a mutant, zinc tolerance induced by iron 1, designated zir1, with a defect in Fe-mediated Zn tolerance. Using map-based cloning and genetic complementation, we identified that zir1 has a mutation of glutamate to lysine at position 385 on γ-glutamylcysteine synthetase (GSH1), the enzyme involved in glutathione biosynthesis. The zir1 mutant contains only 15% of the wild-type glutathione level. Blocking glutathione biosynthesis in wild-type plants by a specific inhibitor of GSH1, buthionine sulfoximine, resulted in loss of Fe-mediated Zn tolerance, which provides further evidence that glutathione plays an essential role in Fe-mediated Zn tolerance. Two glutathione-deficient mutant alleles of GSH1, pad2-1 and cad2-1, which contain 22% and 39%, respectively, of the wild-type glutathione level, revealed that a minimal glutathione level between 22 and 39% of the wild-type level is required for Fe-mediated Zn tolerance. Under excess Zn and Fe, the recovery of shoot Fe contents in pad2-1 and cad2-1 was lower than that of the wild type. However, the phytochelatin-deficient mutant cad1-3 showed normal Fe-mediated Zn tolerance. These results indicate a specific role of glutathione in Fe-mediated Zn tolerance. The induced accumulation of glutathione in response to excess Zn and Fe suggests that glutathione plays a specific role in Fe-mediated Zn tolerance in Arabidopsis. We conclude that glutathione is required for the cross-homeostasis between Zn and Fe in Arabidopsis.     

The Long-Term Health Consequences of Child Physical Abuse,Emotional Abuse,and Neglect: A Systematic Review and Meta-Analysis

Background

Child sexual abuse is considered a modifiable risk factor for mental disorders across the life course. However the long-term consequences of other forms of child maltreatment have not yet been systematically examined. The aim of this study was to summarise the evidence relating to the possible relationship between child physical abuse, emotional abuse, and neglect, and subsequent mental and physical health outcomes.

Methods and Findings

A systematic review was conducted using the Medline, EMBASE, and PsycINFO electronic databases up to 26 June 2012. Published cohort, cross-sectional, and case-control studies that examined non-sexual child maltreatment as a risk factor for loss of health were included. All meta-analyses were based on quality-effects models. Out of 285 articles assessed for eligibility, 124 studies satisfied the pre-determined inclusion criteria for meta-analysis. Statistically significant associations were observed between physical abuse, emotional abuse, and neglect and depressive disorders (physical abuse [odds ratio (OR) = 1.54; 95% CI 1.16–2.04], emotional abuse [OR = 3.06; 95% CI 2.43–3.85], and neglect [OR = 2.11; 95% CI 1.61–2.77]); drug use (physical abuse [OR = 1.92; 95% CI 1.67–2.20], emotional abuse [OR = 1.41; 95% CI 1.11–1.79], and neglect [OR = 1.36; 95% CI 1.21–1.54]); suicide attempts (physical abuse [OR = 3.40; 95% CI 2.17–5.32], emotional abuse [OR = 3.37; 95% CI 2.44–4.67], and neglect [OR = 1.95; 95% CI 1.13–3.37]); and sexually transmitted infections and risky sexual behaviour (physical abuse [OR = 1.78; 95% CI 1.50–2.10], emotional abuse [OR = 1.75; 95% CI 1.49–2.04], and neglect [OR = 1.57; 95% CI 1.39–1.78]). Evidence for causality was assessed using Bradford Hill criteria. While suggestive evidence exists for a relationship between maltreatment and chronic diseases and lifestyle risk factors, more research is required to confirm these relationships.

Conclusions

This overview of the evidence suggests a causal relationship between non-sexual child maltreatment and a range of mental disorders, drug use, suicide attempts, sexually transmitted infections, and risky sexual behaviour. All forms of child maltreatment should be considered important risks to health with a sizeable impact on major contributors to the burden of disease in all parts of the world. The awareness of the serious long-term consequences of child maltreatment should encourage better identification of those at risk and the development of effective interventions to protect children from violence. Please see later in the article for the Editors'' Summary     

A western Eurasian male is found in 2000‐year‐old elite Xiongnu cemetery in Northeast Mongolia

We analyzed mitochondrial DNA (mtDNA), Y‐chromosome single nucleotide polymorphisms (Y‐SNP), and autosomal short tandem repeats (STR) of three skeletons found in a 2,000‐year‐old Xiongnu elite cemetery in Duurlig Nars of Northeast Mongolia. This study is one of the first reports of the detailed genetic analysis of ancient human remains using the three types of genetic markers. The DNA analyses revealed that one subject was an ancient male skeleton with maternal U2e1 and paternal R1a1 haplogroups. This is the first genetic evidence that a male of distinctive Indo‐European lineages (R1a1) was present in the Xiongnu of Mongolia. This might indicate an Indo‐European migration into Northeast Asia 2,000 years ago. Other specimens are a female with mtDNA haplogroup D4 and a male with Y‐SNP haplogroup C3 and mtDNA haplogroup D4. Those haplogroups are common in Northeast Asia. There was no close kinship among them. The genetic evidence of U2e1 and R1a1 may help to clarify the migration patterns of Indo‐Europeans and ancient East‐West contacts of the Xiongnu Empire. Artifacts in the tombs suggested that the Xiongnu had a system of the social stratification. The West Eurasian male might show the racial tolerance of the Xiongnu Empire and some insight into the Xiongnu society. Am J Phys Anthropol, 2010. © 2010 Wiley‐Liss, Inc.     

Iron Is Involved in the Maintenance of Circadian Period Length in Arabidopsis

The homeostasis of iron (Fe) in plants is strictly regulated to maintain an optimal level for plant growth and development but not cause oxidative stress. About 30% of arable land is considered Fe deficient because of calcareous soil that renders Fe unavailable to plants. Under Fe-deficient conditions, Arabidopsis (Arabidopsis thaliana) shows retarded growth, disordered chloroplast development, and delayed flowering time. In this study, we explored the possible connection between Fe availability and the circadian clock in growth and development. Circadian period length in Arabidopsis was longer under Fe-deficient conditions, but the lengthened period was not regulated by the canonical Fe-deficiency signaling pathway involving nitric oxide. However, plants with impaired chloroplast function showed long circadian periods. Fe deficiency and impaired chloroplast function combined did not show additive effects on the circadian period, which suggests that plastid-to-nucleus retrograde signaling is involved in the lengthening of circadian period under Fe deficiency. Expression pattern analyses of the central oscillator genes in mutants defective in CIRCADIAN CLOCK ASSOCIATED1/LATE ELONGATED HYPOCOTYL or GIGANTEA demonstrated their requirement for Fe deficiency-induced long circadian period. In conclusion, Fe is involved in maintaining the period length of circadian rhythm, possibly by acting on specific central oscillators through a retrograde signaling pathway.Metals such as iron (Fe), copper (Cu), zinc (Zn), manganese (Mn), molybdenum, and nickel are essential for the various biological processes that govern plant growth and development (Marschner, 1995). For example, Fe is required for DNA synthesis, photosynthesis, nitrogen fixation, hormone synthesis, and electron transport in the respiratory chain (Briat and Lobreaux, 1997). Similarly, Cu is an important component of electron-transfer reactions mediated by proteins such as superoxide dismutase, cytochrome oxidase, and plastocyanin (Clemens, 2001). Zn is a cofactor for many enzymes, and many proteins contain Zn-binding structural domains (Clarke and Berg, 1998). Although only minimal quantities of these micronutrients are required by plants, their limited availability in soils can significantly hinder crop production and affect nutritional quality (Grotz and Guerinot, 2002). In the case of Fe, about 30% of arable land worldwide is considered calcareous, rendering Fe in these soils unavailable to plants (Mori, 1999). Understanding of the fundamental processes involving metal uptake and sequestration has increased in recent years, but how the availability of particular metals interacts with internal signals to govern the growth and development of plants is largely unknown.The daily biological rhythms of many organisms are regulated by a near 24-h circadian clock that is synchronized by environmental changes such as light and temperature (Harmer, 2009; Imaizumi, 2010). The circadian clock regulates diverse aspects of plant growth and development. The operation of the circadian clock in plants can basically be divided into three main parts, input, central oscillator, and output pathways, and each part has its own complex networks. In Arabidopsis (Arabidopsis thaliana), the central oscillator is composed of a network of multiple feedback loops that can be divided into the morning, central, and evening loops (Harmer, 2009). The central feedback loop is composed of the morning-expressed genes CIRCADIAN CLOCK ASSOCIATED1 (CCA1) and LATE ELONGATED HYPOCOTYL (LHY) and the evening-expressed gene TIMING OF CAB EXPRESSION1 (TOC1; Schaffer et al., 1998; Wang and Tobin, 1998; Strayer et al., 2000; Alabadí et al., 2001). Although TOC1 is genetically required for the activation of morning genes (Schaffer et al., 1998; Wang and Tobin, 1998; Strayer et al., 2000), it acts as a repressor and directly regulates the expression of CCA1 and LHY (Gendron et al., 2012; Huang et al., 2012; Pokhilko et al., 2012). In the morning loop, CCA1/LHY form another negative feedback loop with the morning genes PSEUDO-RESPONSE REGULATOR7 (PRR7) and PRR9, with PRR9/PRR7 directly repressing the expression of CCA1 and LHY (Farré et al., 2005; Nakamichi et al., 2010). In the evening loop, TOC1 forms a negative feedback loop with GIGANTEA (GI) by repressing its expression, and GI in turn activates the expression of TOC1 through an unknown component, Y (Huq et al., 2000; Mizoguchi et al., 2005). After receiving input signals in the form of environmental cues, the central oscillator of the Arabidopsis circadian clock generates various rhythmic outputs that control various physiological events (Hotta et al., 2007; de Montaigu et al., 2010).The central oscillator controls a range of important physiological output processes such as flowering, stress and hormone responses, and regulation of nutrient acquisition (Haydon et al., 2011). Although the uptake of nutrition in plants is known to be influenced by light and temperature (Lahti et al., 2005; Baligar et al., 2006), the interaction between nutritional status and the circadian clock is less well studied. The homeostasis of Cu is known to influence the regulation of oscillator genes (Andrés-Colás et al., 2010; Peñarrubia et al., 2010). Arabidopsis under excess Cu or overexpressing Cu transporters COPT1 and COPT3 showed increased Cu accumulation and reduced expression of CCA1, LHY, and circadian clock output genes. Defective developmental phenotypes were also observed in these plants. Spatial and temporal control of Cu homeostasis, therefore, may be important for plant environmental fitness (Andrés-Colás et al., 2010). It has also been reported that disordered circadian rhythm affects Fe homeostasis. Tight regulation of Fe homeostasis to maintain an optimal Fe level in plants has been found to be associated with circadian clock regulators such as TIME FOR COFFEE (TIC) that modulates the expression of the ferritin gene AtFer1 (Duc et al., 2009). The expression of AtFer1 was up-regulated with excess Fe. TIC could repress AtFer1 expression under low-Fe conditions in photoperiodic light and dark cycles (Duc et al., 2009). However, whether Fe status feeds back to regulate the circadian clock is uncertain.Although Fe homeostasis in terms of uptake and translocation has been studied for decades, Fe availability is still an agricultural problem worldwide. Revealing the interplay between Fe homeostasis and internal cues such as modulation of the circadian clock can help increase understanding of their contributions to overall plant development. In this work, we investigated the effect of Fe deficiency on the circadian clock and found that it lengthened the circadian period. Our data suggest that the functional status of chloroplasts under Fe deficiency may play a key role in the lengthened circadian period.     

Triglyceride levels are ethnic-specifically associated with an index of stearoyl-CoA desaturase activity and n-3 PUFA levels in Asians

Accumulated evidence suggests that hypertriglyceridemia (HTG) is independently associated with an increased incidence of cardiovascular disease. The hypotriglyceridemic effects of n-3 PUFAs have been confirmed in Caucasians, but the effect in Asians is less clear. Recent evidence indicates that stearoyl-CoA desaturase (SCD) activity induced with high-carbohydrate diets increases plasma triglyceride levels. We investigated the relationship between triglyceride levels and the ratio of plasma oleic acid to stearic acid (the 18:1/18:0 ratio), a plasma marker of SCD activity, and n-3 PUFAs in 411 Japanese, 418 Korean, and 251 Mongolian adults. The Japanese and Koreans had higher values for triglyceride than their Mongolian counterparts, despite lower body mass index values for the Japanese and Koreans. The Japanese and Koreans ate fish more frequently and had remarkably higher values for n-3 PUFAs than did the Mongolians. Multiple regression analysis showed that triglyceride levels had a great magnitude of correlation with the increases in 18:1/18:0 ratio for the Japanese and Mongolians, and n-3 PUFAs remained significant for the Mongolians. HTG is ethnicity-specifically associated with an increase in the 18:1/18:0 ratio and a decrease in n-3 PUFA in plasma for Japanese, Koreans, and Mongolians.     

Attenuated Age-Impact on Systemic Inflammatory Markers in the Presence of a Metabolic Burden

BackgroundThe overall burden of chronic disease, inflammation and cardiovascular risk increases with age. Whether the relationship between age and inflammation is impacted by presence of an adverse metabolic burden is not known.MethodsWe determined inflammatory markers in humans (336 Caucasians and 224 African Americans) and in mice, representing a spectrum of age, weight and metabolic burden.ResultsIn humans, levels of inflammatory markers increased significantly with age in subjects without the metabolic syndrome, (P=0.009 and P=0.037 for C-reactive protein, P<0.001 and P=0.001 for fibrinogen, P<0.001 and P=0.005 for serum amyloid-A, for Caucasians and African Americans, respectively). In contrast, trend patterns of inflammatory markers did not change significantly with age in subjects with metabolic syndrome in either ethnic group, except for fibrinogen in Caucasians. A composite z-score for systemic inflammation increased significantly with age in subjects without metabolic syndrome (P=0.004 and P<0.006 for Caucasians and African Americans, respectively) but not in subjects with metabolic syndrome (P=0.009 for difference in age trend between metabolic syndrome and non-metabolic syndrome). In contrast, no similar age trend was found in vascular inflammation. The findings in humans were paralleled by results in mice as serum amyloid-A levels increased across age (range 2-15 months, P<0.01) and were higher in ob/ob mice compared to control mice (P<0.001).ConclusionsPresence of a metabolic challenge in mice and humans influences levels of inflammatory markers over a wide age range. Our results underscore that already at a young age, presence of a metabolic burden enhances inflammation to a level that appears to be similar to that of decades older people without metabolic syndrome.     

Molecular cloning of the phospholipase D gene from <Emphasis Type="Italic">Streptomyces</Emphasis> sp. YU100 and its expression in <Emphasis Type="Italic">Escherichia coli</Emphasis>

The gene for phospholipase D (PLD) of Streptomyces sp. YU100 was cloned from λ phage library and hetero-logously expressed in Escherichia coli. Using an amplified gene fragment based on the consensus sequences of streptomycetes PLDs, λ phage library of Streptomyces sp. YU100 chromosomal DNA was screened. The sequencing result of BamHI-digested 3.8 kb fragment in a positive phage clone revealed the presence of an open reading frame of a full sequence of PLD gene encoding a 540-amino acid protein including 33-amino acid signal peptide. The deduced amino acid sequence showed a high homology with other Streptomyces PLDs, having the highly conserved ‘HKD’ motifs. The PLD gene excluding signal peptide sequence was amplified and subcloned into a pET-32b(+) expression vector in E. coli BL21(DE3). The recombinant PLD was purified by nickel affinity chromatography and compared the enzyme activity with wild-type PLD. The results imply that the recombinant PLD produced by E. coli had the nearly same enzyme activity as PLD from Streptomyces sp. YU100.     

On the stratigraphy of the reference section of the Upper Mesozoic deposits of Undur-Bogd in southern Mongolia

All successive Cretaceous reference horizons (except the uppermost one) are described in one section, the most complete in Mongolia.