A Corn Tissue Culture Cell Line with Altered Lipid Metabolism

A variant corn callus line derived from callus which originatedfrom etiolated leaves of Illinois High Oil corn (Zea mays L.)has been identified. The variant corn callus line had increasedlipid content concomitant with increased acetyl-CoA carboxylaseactivity and altered biotin-con-taining protein patterns relativeto the wild type callus. The variant callus line also had alteredfatty acid composition concomitant with decreased oleate desaturaseactivity compared to the wild type callus. The altered variantcorn callus line has been designated High Oil Callus (HOC). ¹Part of a dissertation submitted by Y.C.H. to the Universityof Illinois in partial fulfillment of the Ph.D. degree. Thispaper reports results of research only and the research wassupported in part by the University of Illinois, College ofAgriculture Fellowship awarded to Y.C.H. Mention of a trademark,proprietary product, or vendor does not constitute a guaranteeor warranty of the product (Received September 18, 1990; Accepted May 21, 1991)     

Stem Cell Regulation by the Haemopoietic Stem Cell Niche

Both cellular as well as extracellular matrix components of the stem cell microenvironment, or niche, are critical in stem cell regulation. Recent data highlight a central role for osteoblasts and their by product osteopontin as a key part of the hematopoietic stem cell (HSC) niche. Herein we describe a model for the yin and yang of HSC regulation mediated by osteoblasts. In this respect, osteoblasts synthesise proteins with opposing effects on HSC proliferation and differentiation highlighting their pivotal role in adult hematopoiesis. Although osteoblasts play a central role in HSC regulation other stromal and microenvironmental cell types and their extracellular matrix proteins also contribute to this biology. For example, the glycosaminoglycan hyaluronic acid as well as the membrane bound form of stem cell factor are also key regulators of HSC. Osteopontin and these “niche” molecules are not only involved in regulation of HSC quiescence but also effect HSC homing, trans-marrow migration and lodgement. Accordingly this leads us to expand upon Schofield’s niche hypothesis: we propose that the HSC niche is critical for attraction of primitive hematopoietic progenitors to the endosteal region and tightly tethering them within this location, and by doing so placing them into intimate contact with cells such as osteoblasts whose extracellular products are able to exquisitely regulate their fate.     

Lipid Metabolism in Electroplax

The in vivo labeling of electrocyte lipids is followed after injection of radioactive glycerol and two fatty acids, oleate and arachidonate, into the electric organ of an elasmobranch (Discopyge tschudii). De novo synthesis of lipids and acyl-exchange reactions are operative in the electrocyte. The three precursors are preferentially incorporated into phosphatidylcholine, phosphatidylinositol, and triacylglycerols. The highest specific activities are attained by triacylglycerols and polyphosphoinositides. Electrocyte stacks from electric organ show an efficient and continuous esterification of oleate and arachidonate into lipids after several hours of incubation. Except for an apparently more active labeling of triacylglycerols, which is attributed to the larger availability of free fatty acid precursors under the in vitro experimental conditions, the pattern of lipid labeling is similar to that attained in vivo. 32P-labeled lipids are also steadily produced in electrocyte stacks (24 h of incubation with [32P]phosphate) using glucose as the sole exogenous source of energy. Polyphosphoinositides are the lipids preferentially labeled. The ability to sustain the labeling of lipids under in vitro conditions renders isolated electrocyte stacks an interesting model for future research on lipid involvement in cholinergic function.     

干细胞、肿瘤干细胞与肿瘤

干细胞是一种具有自我更新、无限增殖和多向分化能力的细胞.而多数肿瘤是由不同增殖潜能的不均一性细胞构成.随着对干细胞的研究不断深入,使人们对肿瘤的发生机制重新进行了审视,并在造血系统、脑、肺、乳腺等部位肿瘤中发现极少量的具有与干细胞非常类似生物学特性的细胞,称之为肿瘤干细胞,它们很可能是肿瘤细胞的起源.肿瘤干细胞的提出.使得靶向性杀伤肿瘤干细胞从而使根治肿瘤和防止肿瘤复发和转移成为可能.所以研究肿瘤干细胞的起源及其与肿瘤的发生关系,成为当前研究和治疗肿瘤领域的新热点.本文就肿瘤干细胞的存在证据、干细胞与肿瘤干细胞的异同点及它们与肿瘤发生之间的关系作简要的综述.     

Differential Alternative Polyadenylation Landscapes Mediate Hematopoietic Stem Cell Activation and Regulate Glutamine Metabolism

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干细胞

在备受关注的再生医疗中起核心作用的是于细胞。成体的组织干细胞已在骨髓移植上得到了实际应用，但人们还期待着从受精卵中获得的ES细胞能应用于治疗。这讲由东海大学的安藤洁教授来详细讲解干细胞的知识。[编者按]     

EGFR Signaling Stimulates Autophagy to Regulate Stem Cell Maintenance and Lipid Homeostasis in the Drosophila Testis

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Invertase Activity, Carbohydrate Metabolism and Cell Expansion in the Stem of Phaseolus vulgaris L.

In the stem of Phaseolus vulgaris L. the specific activity ofacid invertase was highest in the most rapidly elongating internode.Activity of the enzyme was very low in internodes which hadcompleted their elongation, in young internodes before the onsetof rapid elongation, and in the apical bud. From shortly afterits emergence from the apical bud the elongation of internode3 was attributable mainly to cell expansion. Total and specificactivities of acid invertase in this internode rose to a maximumat the time of most rapid elongation and then declined. Transferof plants to complete darkness, or treatment of plants withgibberellic acid (GA₃), increased the rate of internode elongationand final internode length by stimulating cell expansion. Bothtreatments rapidly increased the total and specific activitiesof acid invertase in the responding internodes; peak activitiesof the enzyme occurred at the time of most rapid cell expansion. In light-grown plants, including those treated with GA₃, rapidcell and internode elongation and high specific activities ofacid invertase were associated with high concentrations of hexosesugar and low concentrations of sucrose. As cell growth ratesand invertase activities declined, the concentration of hexosefell and that of sucrose rose. In plants transferred to darkness,stimulated cell elongation was accompanied by a rapid decreasein hexose concentration and the disappearance of sucrose, indicatingrapid utilization of hexose. No sucrose was detected in theapical tissues of light-grown plants. The results are discussed in relation to the role of acid invertasein the provision of carbon substrates for cell growth. Key words: Cell expansion, Acid invertase, Hexose, Sucrose, Phaseolus     

Spastin Binds to Lipid Droplets and Affects Lipid Metabolism

Mutations in SPAST, encoding spastin, are the most common cause of autosomal dominant hereditary spastic paraplegia (HSP). HSP is characterized by weakness and spasticity of the lower limbs, owing to progressive retrograde degeneration of the long corticospinal axons. Spastin is a conserved microtubule (MT)-severing protein, involved in processes requiring rearrangement of the cytoskeleton in concert to membrane remodeling, such as neurite branching, axonal growth, midbody abscission, and endosome tubulation. Two isoforms of spastin are synthesized from alternative initiation codons (M1 and M87). We now show that spastin-M1 can sort from the endoplasmic reticulum (ER) to pre- and mature lipid droplets (LDs). A hydrophobic motif comprised of amino acids 57 through 86 of spastin was sufficient to direct a reporter protein to LDs, while mutation of arginine 65 to glycine abolished LD targeting. Increased levels of spastin-M1 expression reduced the number but increased the size of LDs. Expression of a mutant unable to bind and sever MTs caused clustering of LDs. Consistent with these findings, ubiquitous overexpression of Dspastin in Drosophila led to bigger and less numerous LDs in the fat bodies and increased triacylglycerol levels. In contrast, Dspastin overexpression increased LD number when expressed specifically in skeletal muscles or nerves. Downregulation of Dspastin and expression of a dominant-negative variant decreased LD number in Drosophila nerves, skeletal muscle and fat bodies, and reduced triacylglycerol levels in the larvae. Moreover, we found reduced amount of fat stores in intestinal cells of worms in which the spas-1 homologue was either depleted by RNA interference or deleted. Taken together, our data uncovers an evolutionarily conserved role of spastin as a positive regulator of LD metabolism and open up the possibility that dysfunction of LDs in axons may contribute to the pathogenesis of HSP.     

Metabolism of Slices of the Tomato Stem

The rate of respiration of tomato stem slices varied considerably,the highest values (Qo₂, 2–3) being obtained for plantsin a good nutritional state, and the lowest (Qo₂, 1) in starvedplants. The respiratory quotient of 1.0 remained constant. Glucose fermentation was found to follow both glycolytic andalcohol fermentation pathways, the ratio of ethyl alcohol: lacticacid being 6.6:1. Fermentation seems to take place accordingto the Embden-Meyerhof scheme, as shown by the presence of someof these enzymes operative in this scheme and by inhibitionexperiments. In the presence of oxygen there was no formationof alcohol or lactic acid. Pyruvate added to tomato stem slices was metabolized by directoxidation to acetic acid and by dismutation to lactic and aceticacids and CO₂ The metabolism of acetic acid was demonstratedby its condensation with oxaloacetic acid to form citrate, thisbeing the second time that synthesis of citric acid by thismechanism has been found in plants. The presence of aconitase,of isocitric dehydrogenase, of succinic dehydrogenase, and ofmalic dehydrogenase, as well as the inhibition of respirationby malonic acid, favour the hypothesis that oxidation of carbohydratein tomato stem slices proceeds via the citric acid cycle. Thepossibility of an auxiliary route, the malic acid oxidationpathway, also was demonstrated. Tomato stem tissue anaerobicallysplit malic acid into glycolic acid. The further oxidation ofglycolic, glyoxylic, and formic acid was demonstrated. In experiments with C¹⁴-labelled acetate and butyrate a dilutionof the C¹⁴-labelled acids was found after incubation indicatingnew formation of these acids and of active participation offatty acid metabolism in the metabolic activities of the tissue. With the exception of alanine, added amino acids produced adefinite increase in O₂ uptake without extra formation of ammonia. Experimental demonstration of the possibility of electron transportfrom substrate to molecular oxygen in respiration via polyphenoloridase was provided by the attainment in a tomato tissue homogenateof a coupled oxidation-reduction between -ketoglutarate andcatechol with DPN and tyrosinase as the catalysts. The presenceof cytochrome oxidase was also demonstrated. Thus both systemspossibly may take part in the respiration of tomato stem slices.     

RNA干涉与干细胞

RNA干涉(RNAi)现象普遍存在于生物体细胞中,在理论上已清楚其分子机制,为干细胞研究提供了新的方法。现从RNAi的分子机制、干细胞中的RNAi现象、研究干细胞RNAi效应的方法以及小分子干涉RNA(siRNA)干涉干细胞特异功能基因的检测方法等方面进行了综述。表明应用RNAi技术研究基因功能和干细胞维持及定向分化的调控具有广阔的发展前景。     

肿瘤干细胞

干细胞和肿瘤细胞在生物学特性和传导调控途径及机制等诸多方面有着极其相似的生物学行为,从而将干细胞理论应用于肿瘤学研究领域产生肿瘤干细胞理论。近年来研究认为,肿瘤干细胞是决定肿瘤发生发展及转归的一群主要细胞群体,该细胞群体很有可能起源于干细胞的突变。该文介绍干细胞、肿瘤细胞和肿瘤干细胞之间的相互作用及其关系。     

Stem Cell Glycolipids

Glycolipids are compounds containing one or more monosaccharide residues bound by a glycosidic linkage to a hydrophobic moiety. Because of their expression patterns and the intracellular localization patterns, glycolipids, including stage-specific embryonic antigens (SSEA-3, SSEA-4, and possibly SSEA-1) and gangliosides (e.g., GD3, GD2, and A2B5 antigens), have been used as marker molecules of stem cells. In this review, I will introduce glycolipids expressed in pluripotent stem cells (embryonic stem cells, induced pluripotent stem cells, very small embryonic-like stem cells, amniotic stem cells, and multilineage-differentiating stress enduring cells), multipotent stem cells (neural stem cells, mesenchymal stem cells, fetal liver multipotent progenitor cells, and hematopoietic stem cells), and cancer stem cells (brain cancer stem cells and breast cancer stem cells), and discuss their availability as biomarkers for identifying and isolating stem cells.