A survey of a familial transmission of an anomalous autosome in group 13–15

A male child hospitalized due to undescended testes (cryptorchism) was found to possess an abnormal autosome with an unusually elongated short arm in group 13–15. A familial chromosome investigation undertaken in 14 persons related to the propositus in his paternal line and in his mother revealed that his clinically normal father, grandfather, 2 aunts and a female cousin carried the same aberrant autosome. It is evident that a carrier of the abnormal chromosome is the grandfather, that the anomalous element was transmitted, irrespective of sex, from the parents either one of whom carried the aberrant one, and that the particular autosomal abnormality is not always associated with specific phenotypic anomaly. A possible origin of the aberrant autosome is discussed.Contribution no. 733 from the Zoological Institute, Faculty of Science, Hokkaido University, Sapporo.The senior author (S. M.) wishes to dedicate this paper to Dr. Jakob Seiler on the occasion of his 80th birthday, May 16, 1966.     

A maize α-zein promoter drives an endosperm-specific expression of transgene in rice

An alpha-zein promoter isolated from maize containing P-box, E motif sequence TGTAAAGT, opaque-2 box and TATA box was studied for its tissue-specific expression in rice. A 1,098 bp promoter region of alpha-zein gene, fused to the upstream of gusA reporter gene was used for transforming rice immature embryos (ASD 16 or IR 64) via the particle bombardment-mediated method. PCR analysis of putative transformants demonstrated the presence of transgenes (the zein promoter, gusA and hpt). Nineteen out of 37 and two out of five events generated from ASD 16 and IR 64 were found to be GUS-positive. A histological staining analysis performed on sections of mature T₁ seeds revealed that the GUS expression was limited to the endosperm and not to the pericarp or the endothelial region. GUS expression was observed only in the following seed development stages : milky (14–15 DAF), soft dough (17–18 DAF), hard dough (20–23 DAF), and mature stages (28–30 DAF) of zein-gusA transformed (T₀) plants. On the contrary a constitutive expression of GUS was evident in CaMV35S-gusA plants. PCR and Southern blotting analyses on T₁ plants demonstrated a stable integration and inheritance of transgene in the subsequent T₁ generation. GUS assay on T₂ seeds revealed that the expression of gusA gene driven by alpha-zein promoter was stable and tissue-specific over two generations. Results suggest that this alpha-zein promoter could serve as an alternative promoter to drive endosperm-specific expression of transgenes in rice and other cereal transformation experiments.     

A Spirulina-Enhanced Diet Provides Neuroprotection in an α-Synuclein Model of Parkinson's Disease

Inflammation in the brain plays a major role in neurodegenerative diseases. In particular, microglial cell activation is believed to be associated with the pathogenesis of neurodegenerative diseases, including Parkinson’s disease (PD). An increase in microglia activation has been shown in the substantia nigra pars compacta (SNpc) of PD models when there has been a decrease in tyrosine hydroxylase (TH) positive cells. This may be a sign of neurotoxicity due to prolonged activation of microglia in both early and late stages of disease progression. Natural products, such as spirulina, derived from blue green algae, are believed to help reverse this effect due to its anti-inflammatory/anti-oxidant properties. An adeno-associated virus vector (AAV9) for α-synuclein was injected in the substantia nigra of rats to model Parkinson''s disease and to study the effects of spirulina on the inflammatory response. One month prior to surgeries, rats were fed either a diet enhanced with spirulina or a control diet. Immunohistochemistry was analyzed with unbiased stereological methods to quantify lesion size and microglial activation. As hypothesized, spirulina was neuroprotective in this α-synuclein model of PD as more TH+ and NeuN+ cells were observed; spirulina concomitantly decreased the numbers of activated microglial cells as determined by MHCII expression. This decrease in microglia activation may have been due, in part, to the effect of spirulina to increase expression of the fractalkine receptor (CX3CR1) on microglia. With this study we hypothesize that α-synuclein neurotoxicity is mediated, at least in part, via an interaction with microglia. We observed a decrease in activated microglia in the rats that received a spirulina- enhanced diet concomitant to neuroprotection. The increase in CX3CR1 in the groups that received spirulina, suggests a potential mechanism of action.     

A Fos-Jun element in the first intron of an α2u-globulin gene

The hepatic expression of the _2u gene family is controlled by a variety of hormones including steroids, growth hormone and insulin. The mechanisms by which these hormones affect -globulin expression are only partially understood. Recently we isolated and characterized clone RAP 01, an _2u-globulin gene expressed in the liver. In preliminary experiments we noted that partial hepatectomy, a procedure which results in a sharp rise in the level of the oncoproteins c-Fos and c-Jun, also causes a transient induction of the messenger RNA corresponding to clone RAP 01. Using the DNAseI footprinting technique we were able to show that this clone contains a TPA (phorbol 12-myristate 13-acetate)-responsive element (TRE) in its first intron. This element (denoted as element X) is identical to the consensus AP-1 binding site (TGACTCAG) and is protected by rat liver nuclear extracts as well as by purified c-Jun. Gel retardation experiments show that an oligonucleotide containing the TRE consensus sequence competes for binding of liver nuclear proteins to element X and that antibodies directed against the M₂ peptide of the mouse Fos protein or the PEP-2 peptide of Jun prevent the formation of specific complexes with the same element. Moreover, element X functions as a TRE in transfected BWTG₃ hepatoma cells treated with TPA. Co-transfection withfos andjun expression vectors mimics the effects of TPA suggesting that AP-1 is in fact the mediator of the observed response. It is concluded that the first intron of RAP 01 contains a functional Fos-Jun element.     

Inhibition of GSK-3 Ameliorates Aβ Pathology in an Adult-Onset Drosophila Model of Alzheimer's Disease

Aβ peptide accumulation is thought to be the primary event in the pathogenesis of Alzheimer''s disease (AD), with downstream neurotoxic effects including the hyperphosphorylation of tau protein. Glycogen synthase kinase-3 (GSK-3) is increasingly implicated as playing a pivotal role in this amyloid cascade. We have developed an adult-onset Drosophila model of AD, using an inducible gene expression system to express Arctic mutant Aβ42 specifically in adult neurons, to avoid developmental effects. Aβ42 accumulated with age in these flies and they displayed increased mortality together with progressive neuronal dysfunction, but in the apparent absence of neuronal loss. This fly model can thus be used to examine the role of events during adulthood and early AD aetiology. Expression of Aβ42 in adult neurons increased GSK-3 activity, and inhibition of GSK-3 (either genetically or pharmacologically by lithium treatment) rescued Aβ42 toxicity. Aβ42 pathogenesis was also reduced by removal of endogenous fly tau; but, within the limits of detection of available methods, tau phosphorylation did not appear to be altered in flies expressing Aβ42. The GSK-3–mediated effects on Aβ42 toxicity appear to be at least in part mediated by tau-independent mechanisms, because the protective effect of lithium alone was greater than that of the removal of tau alone. Finally, Aβ42 levels were reduced upon GSK-3 inhibition, pointing to a direct role of GSK-3 in the regulation of Aβ42 peptide level, in the absence of APP processing. Our study points to the need both to identify the mechanisms by which GSK-3 modulates Aβ42 levels in the fly and to determine if similar mechanisms are present in mammals, and it supports the potential therapeutic use of GSK-3 inhibitors in AD.     

Is phospholipase D really an enzyme? A comparison of in situ and in vitro activities.

Leaf phospholipase D activity was compared in vitro and in situ. In the in situ reaction stimulated by methanol only phosphatidylcholine and phosphatidylethanolamine were degraded until approx. 80% of these endogenous substrates had been consumed. Only then was a limited amount (approx. 20%) of endogenous phosphatidylglycerol degraded. Endogenous phosphatidylinositol was apparently not susceptible to phospholipase D in situ. In the vitro reaction the relative susceptibilities to degradation of added phospholipid substrates were (a) in the absence of "activators" phosphatidylethanolamine greater than phosphatidylglycerol greater than phosphatidylcholine, (b) in the presence of diethyl ether phosphatidylcholine greater than phosphatidylethanolamine greater than phosphatidylglycerol and (c) in the presence of sodium dodecyl sulphate phosphatidylcholine greater than phosphatidylethanolamine = phosphatidylglycerol. Minimum rates calculated for the in situ reaction in cauliflower leaf were 5-fold higher than maximum in vitro rates reported for the same material. Phospholipase D activity has been demonstrated by the in situ reaction in all leaf tissue so far examined. From these data we conclude that phospholipase D may be an integral part of membranes containing phosphatidylcholine and phosphatidylethanolamine, but not of membranes containing phosphatidylglycerol. We also suggest that phospholipase D may not be a physiological enzyme, but rather a structural protein of phosphatidylcholine- and phosphatidylethanolamine-containing membranes and which, under certain non-physiological conditions, possess enzymic properties.     

A new genetics or an epiphenomenon? Variations in the discourse of epigenetics researchers

Epigenetics is a field on the rise that seeks to explain phenotypic variance despite a stable and enduring DNA sequence. The hopes for the field are high, and claims about its revolutionary potential abound. Some scholars in the humanities and social sciences see the field as potentially replacing reductionism and genetic determinism, bringing social life and environment more firmly into view. This paper attends to the discourses of epigenetics researchers themselves. Through qualitative interviewing and analysis, I classify these scientists into three groups based on the claims they make about the impact and future of their field: champions, those who take the middle ground, and skeptics. The variance in discourse about epigenetics suggests a far more complex and contested trajectory for the field, one that may or may not support anti-deterministic views.     

The effect of Aβ on IAPP aggregation in the presence of an isolated β-cell membrane

Fibrillar aggregates of the islet amyloid polypeptide (IAPP) and amyloid-β (Aβ) are known to deposit at pancreatic β-cells and neuronal cells and are associated with the cell degenerative diseases type-2 diabetes mellitus (T2DM) and Alzheimer's disease (AD), respectively. Since IAPP is secreted by β-cells and a membrane-damaging effect of IAPP has been discussed as a reason for β-cell dysfunction and the development of T2DM, studies of the interaction of IAPP with the β-cell membrane are of high relevance for gaining a molecular-level understanding of the underlying mechanism. Recently, it has also been shown that patients suffering from T2DM exhibit an increased risk to develop AD and vice versa, and a molecular link between AD and T2DM has been suggested. In this study, membrane lipids from the rat insulinoma-derived INS-1E β-cell line were isolated, and their interaction with the amyloidogenic peptides IAPP and Aβ and a mixture of both peptides has been studied. To yield insight into the associated peptides' conformational changes and their effect on the membrane integrity during aggregation, we have carried out attenuated total reflection Fourier transform infrared spectroscopy, fluorescence microscopy, and atomic force microscopy experiments. The IAPP-Aβ heterocomplexes formed were shown to adsorb, aggregate, and permeabilize the isolated β-cell membrane significantly slower than pure IAPP, however, at a rate that is much faster than that of pure Aβ. In addition, it could be shown that isolated β-cell membranes cause similar effects on the kinetics of IAPP and IAPP-Aβ fibril formation as anionic heterogeneous model membranes.     

Point mutations in the upstream region of the α-galactosidase A gene exon 6 in an atypical variant of Fabry disease

Summary Single point mutations in the upstream region of exon 6 of the -galactosidase A gene were found in two Japanese cases of the cardiac form of Fabry disease; ³⁰¹ArgGln (⁹⁰²GA) in a case that has already been published and ²⁷⁹GlnGlu (⁸³⁵CG) in a new case. They both expressed markedly low, but significant, amounts of residual activity in COS-1 cells. In contrast, two unrelated cases with classic Fabry disease were found to have different point mutations, which showed a complete loss of enzyme activity in a transient expression assay; ³²⁸GlyArg (⁹⁸²GA) in the downstream region of exon 6 in one case and two combined mutations, ⁶⁶GluGln (¹⁹⁶GC)/¹¹²ArgCys (³³⁴CT), in exon 2 in the other. We conclude, on the basis of the results recorded in this study and those in previous reports, that the pathogenesis of atypical Fabry disease is closely associated with point mutations in the upstream region of exon 6 of the -galactosidase A gene.     

A linkage map of 243 DNA markers in an intercross of Göttingen miniature and Meishan pigs

A resource family of pigs has been constructed by using a boar of Göttingen miniature pig and two sows of Meishan pig as parents. In the construction of the family, two F1 males and 18 F1 females were intercrossed to generate 143 F2 offspring. The members of the family were genotyped using 243 genetic markers including 26 markers developed in our laboratory in order to generate a linkage map of markers for use in detecting quantitative trait loci (QTLs) in the family. The markers consisted of 237 microsatellites, five PRE-1 markers, and one RFLP marker. The linkage map was revealed to cover all 18 autosomes and the X chromosome; and the total length of the sex-averaged linkage map was calculated to be 2561 ·9 c m . Four out of the 26 markers developed in our laboratory ex-ended the current linkage map at the termini of chromosomes 1p, 5p, 11p, and Xq. The linkage maps of all the chromosomes except for chromosome 1 were found to be longer in females than in males. Concerning chromosome 1, the length of the linkage map showed no difference between females and males, which was attributed to low recombination rates between markers localized in the centromeric region in females. The average ratio of female-to-male recombination was calculated to be 1 ·55.     

The control of hepatic glycogen metabolism in an in vitro model of sepsis

Culturing hepatocytes with a combination of LPS, TNF-α, IL-1β and IFN-γ resulted in an inhibition of glucose output from glycogen and prevented the repletion of glycogen in freshly cultured cells. The reduced glycogen mobilisation correlated with the lower cell glycogen content and reduced rate of glycogen synthesis from [U-¹⁴C]glucose rather than alterations in either total phosphorylase or phosphorylase a activity. There was no change in the percentage of glycogen exported as glucose nor the production of lactate plus pyruvate indicating that redistribution of the Gluc-6-P cannot explain the failure of the liver to export glucose. Although changes in glycogen mobilisation correlated with NO production, inhibition of NO synthase by inclusion of L-NMMA in the culture medium failed to prevent the inhibition of either glycogen accumulation or mobilisation by the proinflammatory cytokines, precluding the involvement of NO in this response. LPS plus cytokine treatment had no effect on total glycogen synthase activity although the activity ratio was lowered, indicative of increased phosphorylation. The inhibition of glycogen synthesis correlated with a fall in the intracellular concentrations of Gluc-6-P and UDP-glucose and in the absence of measured changes in kinase activity, it is suggested that the fall in Gluc-6-P reduces both substrate supply and glycogen synthase phosphatase activity. The fall in Gluc-6-P coincided with a reduction in total glucokinase and hexokinase activity within the cells, but no significant change in either the translocation of glucokinase or glucose-6-phosphatase activity. This demonstrates direct cytokine effects on glycogen metabolism independent of changes in glucoregulatory hormones.     

Formation of N-acyl-phosphatidylethanolamines by cytosolic phospholipase A2ε in an ex vivo murine model of brain ischemia

N-Acyl-phosphatidylethanolamines (NAPEs), a minor class of membrane glycerophospholipids, accumulate along with their bioactive metabolites, N-acylethanolamines (NAEs) during ischemia. NAPEs can be formed through N-acylation of phosphatidylethanolamine by cytosolic phospholipase A₂ε (cPLA₂ε, also known as PLA2G4E) or members of the phospholipase A and acyltransferase (PLAAT) family. However, the enzyme responsible for the NAPE production in brain ischemia has not yet been clarified. Here, we investigated a possible role of cPLA₂ε using cPLA₂ε-deficient (Pla2g4e^?/?) mice. As analyzed with brain homogenates of wild-type mice, the age dependency of Ca²⁺-dependent NAPE-forming activity showed a bell-shape pattern being the highest at the first week of postnatal life, and the activity was completely abolished in Pla2g4e^?/? mice. However, liquid chromatography-tandem mass spectrometry revealed that the NAPE levels of normal brain were similar between wild-type and Pla2g4e^?/? mice. In contrast, post-mortal accumulations of NAPEs and most species of NAEs were only observed in decapitated brains of wild-type mice. These results suggested that cPLA₂ε is responsible for Ca²⁺-dependent formation of NAPEs in the brain as well as the accumulation of NAPEs and NAEs during ischemia, while other enzyme(s) appeared to be involved in the maintenance of basal NAPE levels.     

A Mouse β-Globin Mutant That Is an Exact Model of Hemoglobin Rainier in Man

A mutation induced by ethylnitrosourea in a spermatogonial stem cell of a 101/H mouse has resulted in a structurally altered beta-diffuse major globin in one of his offspring. The mutant hemoglobin is associated with polycythemia, rubor, increased oxygen affinity and decreased hem-hem interaction. The mutant haplotype has been designated Hbbd4, polycythemia. Amino acid analysis of the mutant globin has shown that a single substitution beta 145 Tyr----Cys has occurred, and it is proposed that ethylnitrosourea induced an A----G transition in the tyrosine codon (TAC----TGC). This murine polycythemia is homologous with hemoglobin Rainier in man, in which the amino acid substitution is also beta 145 Tyr----Cys and which is associated with similar physiological consequences.     

Costs of immune defense: an enigma wrapped in an environmental cloak?

Host defense against parasites and pathogens has been recognized as a costly life-history trait that can generate trade-offs with other fitness components. However, universality of immunological costs and associated trade-offs remains questionable in animal–parasite systems. This discrepancy could be a result of environmental effects, which have the potential to modulate the detection of trade-offs associated with immune function. Here, attention is drawn to the role that environmental factors can play in the manifestation and detection of costs associated with immune function and resistance. Moreover, we stress the importance of considering multiple external factors, host ontogeny and estimates of immunological function in studies investigating immune-related costs in animals.     

A Novel Pharmacological Protective Role for Safranal in an Animal Model of Huntington’s Disease

Neurochemical Research - Huntington’s disease (HD) is a progressive, neurodegenerative and inherited disease and recent years have witnessed the understanding of the cellular and molecular...     

Callus culture and an unconventional pattern of sporophyte regeneration in Drynaria quercifolia—A medicinal fern

Summary Callus induction and regeneration studies were carried out on a medicinal fern, Drynaria quercifolia native to Asian countries. It is a seasonal fern that regenerates only during the monsoons. Callus was induced on Knop’s (1865) medium supplemented with 20 gl⁻¹ sucrose, 8gl⁻¹ agar, and either 2,4-dichlorophenoxyacetic acid (2,4-D), 2,4,5-trichlorophenoxyacetic acid (2,4,5-T), 4-amino-3,5,6-trichloropicolinic acid (picloram), or indole-3-butyric acid at different concentrations. Morphogenetic callus obtained on 5 mgl⁻¹ 2,4,5-T was subcultured onto solid and liquid media (shaken flask and discontinuously stirred bioreactor cultures) for callus proliferation and regeneration studies. A significant amount of sporophyte regeneration was observed on solid medium containing 10 mgl⁻¹ 6-(δ, δ-dimethylallylamino) purine (2iP). Sporophyte regeneration from callus followed an atypical pattern of development. Leafy structures of single-cell thickness with a microrhizome were formed as sporophyte initials. Prolonged cultures of these structures resulted in the formation of juvenile sporophytes in vitro. The use of liquid media resulted in increased biomass in culture. The present study is the first report of a successful system for callus production and regeneration of sporophytes from leafy structures in ferns. The method can be successfully applied for generation of biomass of D. quercifolia, throughout the year.