Distribution of TGF‐β isoforms and signaling intermediates in corneal fibrotic wound repair

In this study, temporal and spatial distribution of three TGF‐β isoforms and their downstream signaling pathways including pSmad2 and p38MAPK were examined during fibrotic wound repair. In normal chick corneas, TGF‐β1, ‐2, and ‐3 were weakly detected in Bowman's layer (BL). In healing corneas, TGF‐β1 was primarily deposited in the fibrin clot and the unwounded BL. TGF‐β2 was highly expressed in healing epithelial and endothelial cells, and numerous active fibroblasts/myofibroblasts. TGF‐β3 was mainly detected in the unwound region of basal epithelial cells. α‐Smooth muscle actin (α‐SMA) was initially appeared in the posterior region of repairing stroma at day 3, and was detected in the entire healing stroma by day 7. Notably, α‐SMA was absent in the central region of healing stroma by day 14, and its staining pattern was similar to those of TGF‐β2 and p38MAPK. By contrast, pSmad2 was mainly detected in the fibroblasts. In normal cornea, laminin was mainly detected in both epithelial basement membrane (BM) and Descemet's membrane (DM). By contrast to reconstitution of the BM in the wound region, the DM was not repaired although endothelial layer was regenerated, indicating that high levels of TGF‐β2 were released into the posterior region of healing stroma on day 14. High levels of α‐SMA staining, shown in cultured repair stromal cells from healing corneas on day 14 and in TGF‐β2 treated normal stromal cells, were significantly reduced by p38MAPK inhibition. Collectively, this study suggests that TGF‐β2‐mediated myofibroblast transformation is mediated, at least partly, by the p38MAPK pathway in vivo. J. Cell. Biochem. 108: 476–488, 2009. © 2009 Wiley‐Liss, Inc.     

SUN-1 and ZYG-12, Mediators of Centrosome–Nucleus Attachment,Are a Functional SUN/KASH Pair in Caenorhabditis elegans

Klarsicht/ANC-1/Syne/homology (KASH)/Sad-1/UNC-84 (SUN) protein pairs can act as connectors between cytoplasmic organelles and the nucleoskeleton. Caenorhabditis elegans ZYG-12 and SUN-1 are essential for centrosome–nucleus attachment. Although SUN-1 has a canonical SUN domain, ZYG-12 has a divergent KASH domain. Here, we establish that the ZYG-12 mini KASH domain is functional and, in combination with a portion of coiled-coil domain, is sufficient for nuclear envelope localization. ZYG-12 and SUN-1 are hypothesized to be outer and inner nuclear membrane proteins, respectively, and to interact, but neither their topologies nor their physical interaction has been directly investigated. We show that ZYG-12 is a type II outer nuclear membrane (ONM) protein and that SUN-1 is a type II inner nuclear membrane protein. The proteins interact in the luminal space of the nuclear envelope via the ZYG-12 mini KASH domain and a region of SUN-1 that does not include the SUN domain. SUN-1 is hypothesized to restrict ZYG-12 to the ONM, preventing diffusion through the endoplasmic reticulum. We establish that ZYG-12 is indeed immobile at the ONM by using fluorescence recovery after photobleaching and show that SUN-1 is sufficient to localize ZYG-12 in cells. This work supports current models of KASH/SUN pairs and highlights the diversity in sequence elements defining KASH domains.     

Genetic diversity assessment of sub-samples of cacao, Theobroma cacao L. collections in West Africa using simple sequence repeats marker

Knowledge of genebank and on-farm genetic diversity, particularly in an introduced crop species, is crucial to the management and utilization of the genetic resources available. Microsatellite markers were used to determine genetic diversity in 574 accessions of cacao, Theobroma cacao L., representing eight groups covering parental populations in West Africa, genebank, and farmers’ populations in Nigeria. From the 12 microsatellite markers used, a total of 144 alleles were detected with a mean allelic richness of 4.39 alleles/locus. The largest genetic diversity was found in the Upper Amazon parent population (H _nb  = 0.730), followed by the 1944 Posnette’s Introduction (H _nb  = 0.704), and was lowest in the Local parent population (H _nb  = 0.471). Gene diversity was appreciably high in the farmers’ populations (H _nb  = 0.563–0.624); however, the effective number of alleles was lower than that found in the genebank’s Posnette’s population. Fixation index estimates indicated deficiency of heterozygotes in the Upper Amazon and the Local parent populations (F _is  = 0.209 and 0.160, respectively), and excess of heterozygotes in the Trinitario parent population (F _is  = −0.341). The presence of inbreeding in the Local parent populations and substructure (Wahlund effect) in the Upper Amazon were suggested for the deficiency of heterozygotes observed. Non-significant genetic differentiation observed between the genebank’s and farmers’ populations indicated significant impact of national breeding programs on varieties grown in farmers’ plantations. From this study, we showed that appreciable genetic diversity was present in on-farm and field genebank collections of cacao that can be exploited for crop improvement in West Africa. Suggestions for future conservation of on-farm genetic diversity and local landraces are further discussed.     

Seasonal Rotifer Dynamics in the Long-term (1969–2002) Record from Lake Kinneret (Israel)

Long-term (1969–2002) data record of biomass distribution of rotifers in Lake Kinneret is combined with previously published information on their metabolic activity and newly calculated population dynamics parameters to synthesize a model of their seasonal dynamics in Lake Kinneret. Nineteen rotifer species were recorded in routine samples collected in Lake Kinneret (Israel) in 7 offshore (deeper than 5 m), stations, at 12 discrete depths during 1969–2002. Organisms were sorted and counted (including external egg carrying females), biomass was measured and calculated for the entire lake stock (g_w.w m⁻²; mg l⁻¹). Rates of grazing, respiration and production were measured experimentally at three different temperature ranges. Results were extrapolated to the lake community for months with similar temperatures. Rotifera comprised 7% of total zooplankton biomass in Lake Kinneret whilst Cladocera and Copepoda 58 and 35% respectively. Rotifers were found to be more abundant during December–June and decline in summer months. Monthly (1969–2001) means indicated total grazing capacity of rotifers as 11%, respiration as 9% and production as 3.7% of the total zooplankton metabolic activity. Positive relations were indicated between rotifer and small bodied cladoceran numerical concentrations. Population growth models suggest that rotifers are not food limited in Lake Kinneret but that fish predation plays an important role in regulating abundance in spring-summer and fall.     

Increased SCF/c‐kit by hypoxia promotes autophagy of human placental chorionic plate‐derived mesenchymal stem cells via regulating the phosphorylation of mTOR

Hypoxia triggers physiological and pathological cellular processes, including proliferation, differentiation, and death, in several cell types. Mesenchymal stem cells (MSCs) derived from various tissues have self‐renewal activity and can differentiate towards multiple lineages. Recently, it has been reported that hypoxic conditions tip the balance between survival and death by hypoxia‐induced autophagy, although the underlying mechanism is not clear. The objectives of this study are to compare the effect of hypoxia on the self‐renewal of bone marrow‐derived mesenchymal stem cells (BM‐MSCs) and placental chorionic plate‐derived mesenchymal stem cells (CP‐MSCs) and to investigate the regulatory mechanisms of self‐renewal in each MSC type during hypoxia. The expression of self‐renewal markers (e.g., Oct4, Nanog, Sox2) was assessed in both cell lines. PI3K and stem cell factor (SCF) expression gradually increased in CP‐MSCs but were markedly downregulated in BM‐MSCs by hypoxia. The phosphorylation of ERK and mTOR was augmented by hypoxia in CP‐MSCs compared to control. Also, the expression of LC3 II, a component of the autophagosome and the hoof‐shaped autophagosome was detected more rapidly in CP‐MSCs than in BM‐MSCs under hypoxia. Hypoxia induced the expression of SCF in CP‐MSCs and increased SCF/c‐kit pathway promotes the self‐renewal activities of CP‐MSCs via an autocrine/paracrine mechanism that balances cell survival and cell death events by autophagy. These activities occur to a greater extent in CP‐MSCs than in BM‐MSCs through regulating the phosphorylation of mTOR. These findings will provide useful guidelines for better understanding the function of SCF/c‐kit in the self‐renewal and autophagy‐regulated mechanisms that promote of MSC survival. J. Cell. Biochem. 114: 79–88, 2012. © 2012 Wiley Periodicals, Inc.     

Influence of global warming on forest coleopteran communities with special reference to ambrosia and bark beetles

Forest insect pests are one of the major disturbance factors in forest ecosystems and their outbreaks are expected to be more severe under the influence of global warming. Coleopterans are dominant among forest insects and their ecological functions include general detritivores, dead wood feeders, fungivores, herbivores, live wood feeders and predators. Ambrosia and bark beetles contribute to ecological succession of forests and, therefore, ecological functions of forests can be changed in response to their outbreaks. Mountain pine beetle (MPB) outbreaks are the most dramatic example of changes in the ecological functions of forest due to the outbreak of a forest insect pest altered by global warming. Composition of coleopteran species varies with latitude. However, composition of functional groups is consistent with latitude which indicates that resources available to beetles are consistent. In coleopteran communities, ambrosia and bark beetles can become dominant due to increases of dead or stressed trees due to the warming climate. This can also induce changes in the ecological functions of coleopterans, i.e. selective force to displace trees that have lower ecological fitness due to temperature increase. Therefore, recent increases in the density ambrosia and bark beetles offer a chance to study ecological processes in forests under the influence of global warming.     

Proteomic analysis of apoptosis related proteins regulated by proto‐oncogene protein DEK

A nuclear phosphoprotein, DEK, is implicated in certain human diseases, such as leukemia and antoimmune disorders, and a major component of metazoan chromatin. Basically as a modulator of chromatin structure, it can involve in various DNA and RNA‐dependent processes and function as either an activator or repressor. Despite of numerous efforts to suggest the biological role of DEK, direct target proteins of DEK in different physiological status remains elusive. To investigate if DEK protein triggers the changes in certain protein networks, DEK was knocked down at both types of cell clones using siRNA expression. Here we provide a catalogue of proteome profiles in total cell lysates derived from normal HeLa and DEK knock‐down HeLa cells and a good in vitro model system for dissecting the protein networks due to this proto‐oncogenic DEK protein. In this biological context, we compared total proteome changes by the combined methods of two‐dimensional gel electrophoresis, quantitative image analysis and MALDI‐TOF MS analysis. There were a large number of targets for DEK, which were differentially expressed in DEK knock‐down cells and consisted of 58 proteins (41 up‐regulated and 17 down‐regulated) differentially regulated expression was further confirmed for some subsets of candidates by Western blot analysis using specific antibodies. In the identified 58 spots, 16% of proteins are known to be associated with apoptosis. Among others, we identified apoptosis related proteins such as Annexins, Enolase1, Lamin A, and Glutathione‐S‐transferase omega 1. These results are consistent with recent studies indicating the crucial role of DEK in apoptosis pathway. We further demonstrated by ChIP analysis that knock‐down of DEK caused hyperacetylation of histones around Prx VI promoter which is upregulated in our profile. Using immunoblotting analysis, we have demonstrated the modulation of other caspase‐dependent apoptosis related proteins by DEK knock‐down and further implicate its role in apoptosis pathway. J. Cell. Biochem. 106: 1048–1059, 2009. © 2009 Wiley‐Liss, Inc.     

Molecular marker-based genetic diversity assessment of Striga-resistant maize inbred lines

Striga-resistant maize inbred lines are of interest to maize breeding programs in the savannas of Africa where the parasitic weed is endemic and causes severe yield losses in tropical maize. Assessment of the genetic diversity of such inbred lines is useful for their systematic and efficient use in a breeding program. Diversity analysis of 41 Striga-resistant maize inbred lines was conducted using amplified fragment length polymorphism (AFLP) and simple sequence repeat (SSR) markers to examine the genetic relationships among these lines and to determine the level of genetic diversity that exists within and between their source populations. The two marker systems generated 262 and 101 polymorphic fragments, respectively. Genetic similarity (GS) values among all possible pairs of inbred lines varied from 0.45 to 0.95, with a mean of 0.61±0.002 for AFLPs, and from 0.21 to 0.92, with a mean of 0.48±0.003, for SSRs. The inbred lines from each source population exhibited a broad range of GS values with the two types of markers. Both AFLPs and SSRs revealed similar levels of within population genetic variation for all source populations. Cluster and principal component analysis of GS estimates with the two markers revealed clear differentiation of the Striga-resistant inbred lines into groups according to their source populations. There was clear separation between early- and late-maturing Striga-resistant inbred lines. Considering the paucity of germplasm with good levels of resistance to Striga in maize, the broad genetic diversity detected within and among source populations demonstrates the genetic potential that exists to improve maize for resistance to Striga.