Exposure of Phosphatidylserine by Xk-related Protein Family Members during Apoptosis

Apoptotic cells expose phosphatidylserine (PtdSer) on their surface as an “eat me” signal. Mammalian Xk-related (Xkr) protein 8, which is predicted to contain six transmembrane regions, and its Caenorhabditis elegans homolog CED-8 promote apoptotic PtdSer exposure. The mouse and human Xkr families consist of eight and nine members, respectively. Here, we found that mouse Xkr family members, with the exception of Xkr2, are localized to the plasma membrane. When Xkr8-deficient cells, which do not expose PtdSer during apoptosis, were transformed by Xkr family members, the transformants expressing Xkr4, Xkr8, or Xkr9 responded to apoptotic stimuli by exposing cell surface PtdSer and were efficiently engulfed by macrophages. Like Xkr8, Xkr4 and Xkr9 were found to possess a caspase recognition site in the C-terminal region and to require its direct cleavage by caspases for their function. Site-directed mutagenesis of the amino acid residues conserved among CED-8, Xkr4, Xkr8, and Xkr9 identified several essential residues in the second transmembrane and second cytoplasmic regions. Real time PCR analysis indicated that unlike Xkr8, which is ubiquitously expressed, Xkr4 and Xkr9 expression is tissue-specific.     

Caspase cleavage releases a nuclear protein fragment that stimulates phospholipid scrambling at the plasma membrane

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Surface potential of phosphatidylserine monolayers II. Divalent and monovalent ion binding

Ion binding constants for phosphatidylserine membranes have been derived from the variation of the surface potential of phosphatidylserine monolayers with divalent cation concentrations in the presence of various monovalent salts in the aqueous subphase. The observed surface potential data for the monolayers, analyzed by use of the Gouy-Chapman diffuse potential theory, together with a simple binding reaction formula, yield, for Ca²⁺, Mg²⁺, Na⁺ and (Me)₄N⁺ binding constant values of 30 M^?1, 10 M^?1, 0.6 M^?1 and 0.05 M^?1, respectively. The effect of pH on surface potential of phosphatidylserine monolayers was found to be dependent upon ionic species other than H⁺ in the subphase solution. The distinction between apparent and intrinsic dissociation constants of H⁺ for biomolecules was made in terms of ion binding due to other ions at the same site as for H⁺ in biomolecules.     

Eryptosis triggered by bismuth

Bismuth is used for multiple industrial purposes and in the treatment of several gastrointestinal diseases. Untoward effects of bismuth include anemia, which could, in theory, result from suicidal erythrocyte death or eryptosis. Hallmarks of eryptosis are cell shrinkage and cell membrane scrambling with phosphatidylserine exposure at the cell surface. Phosphatidylserine-exposing cells are rapidly cleared from circulating blood. Signaling leading to eryptosis includes increase in cytosolic Ca²⁺ activity and formation of ceramide. The present experiments explored whether bismuth elicits eryptosis. To this end, phosphatidylserine exposure was estimated from annexin V-binding, cell shrinkage from decrease of forward scatter in FACS analysis, cytosolic Ca²⁺ activity from Fluo3 fluorescence and ceramide abundance from binding of fluorescent antibodies. A 48 h exposure to bismuth (≥500 μg/l BiCl₃) enhanced the percentage of annexin V-binding cells and decreased forward scatter, increased cytosolic Ca²⁺ activity, and stimulated ceramide formation. In conclusion, bismuth stimulates eryptosis, the suicidal death of erythrocytes. The effect may contribute to or even account for the development of anemia during bismuth treatment. Moreover, ceramide formation in intestinal cells may participate in the therapeutic efficacy of bismuth preparations. This study was supported by the Deutsche Forschungsgemeinschaft SFB 766 and the Carl Zeiss Stiftung. The experimental work and studies on human subjects have been approved by the Ethical commission of the University of Tübingen.     

Role for Phospholipid Flippase Complex of ATP8A1 and CDC50A Proteins in Cell Migration

Type IV P-type ATPases (P4-ATPases) and CDC50 family proteins form a putative phospholipid flippase complex that mediates the translocation of aminophospholipids such as phosphatidylserine (PS) and phosphatidylethanolamine (PE) from the outer to inner leaflets of the plasma membrane. In Chinese hamster ovary (CHO) cells, at least eight members of P4-ATPases were identified, but only a single CDC50 family protein, CDC50A, was expressed. We demonstrated that CDC50A associated with and recruited P4-ATPase ATP8A1 to the plasma membrane. Overexpression of CDC50A induced extensive cell spreading and greatly enhanced cell migration. Depletion of either CDC50A or ATP8A1 caused a severe defect in the formation of membrane ruffles, thereby inhibiting cell migration. Analyses of phospholipid translocation at the plasma membrane revealed that the depletion of CDC50A inhibited the inward translocation of both PS and PE, whereas the depletion of ATP8A1 inhibited the translocation of PE but not that of PS, suggesting that the inward translocation of cell-surface PE is involved in cell migration. This hypothesis was further examined by using a PE-binding peptide and a mutant cell line with defective PE synthesis; either cell-surface immobilization of PE by the PE-binding peptide or reduction in the cell-surface content of PE inhibited the formation of membrane ruffles, causing a severe defect in cell migration. These results indicate that the phospholipid flippase complex of ATP8A1 and CDC50A plays a major role in cell migration and suggest that the flippase-mediated translocation of PE at the plasma membrane is involved in the formation of membrane ruffles to promote cell migration.     

磷脂酰丝氨酸合成酶基因pss的克隆与表达

磷脂酰丝氨酸合成酶能催化转酯反应,是定向合成特定磷脂类物质特别是磷脂酰丝氨酸的工具酶,但出发菌株产量低,很大程度上限制了酶法合成磷脂酰丝氨酸的工业化应用。利用表达载体pET-22b,实现了大肠杆菌磷脂酰丝氨酸合成酶基因在大肠杆菌BL21(DE3)中的同源高效表达。利用镍亲和柱对表达产物进行纯化,并用HPLC法对纯化后的重组酶的活力进行检测。结果表明,目的蛋白可在短时间内进行大量表达,蛋白含量是出发菌株的100倍,同时经6h的转酯反应转化率达到33%,重组磷脂酰丝氨酸合成酶活力达到69U/mg蛋白。     

Modes of membrane interaction of a natural cysteine-rich peptide: viscotoxin A3

Among the very homologous family of α- and β-thionins, known for their antimicrobial activity, the viscotoxin subfamily differs from other members because it is cytotoxic against tumoral cells but weakly hemolytic. We studied the interactions between the most active of these toxins, viscotoxin A3 (VA3), and model membranes made of phosphatidylcholine and phosphatidylserine (PS), the major zwitterionic and acidic phospholipids found in eukaryotic cells. Monolayer studies showed that electrostatic forces are essential for the interaction and are mainly involved in modulating the embedding of the toxin in the PS head group region. This in turn induces membrane stiffening, as shown by fluorescence polarization assays with 1,6-diphenyl-1,3,5-hexatriene and its derivatives. Moreover, vesicle permeabilization analyses showed that there are two modes of interaction, which are directly related to the stiffening effect and depend on the amount of VA3 bound to the surface of the vesicles. We propose an interaction model in which the embedding of VA3 in the membrane induces membrane defects leading to the gradual release of encapsulated dye. When the surfaces of the vesicles are saturated with the viscotoxin, complete vesicle destabilization is induced which leads to bilayer disruption, all-or-none encapsulated dye release and rearrangement of the vesicles.     

Hydroxyflutamide alters the characteristics of live boar spermatozoa

Our previous study revealed that in vitro incubation of boar ejaculates with hydroxyflutamide (OH-Flu) causes changes in sperm plasma membrane integrity and its stability and sperm mitochondrial oxidative capability. To broaden the knowledge of cellular physiology of spermatozoa, we investigated direct effects of OH-Flu administered for 2 and 24 hours at concentrations of 5, 50, and 100 μg/mL, on sperm mitochondrial membrane potential and mitochondrial superoxide anion production using JC-1 dye and MitoSOX Red fluorescent probe, respectively. We further measured phosphatidylserine membrane translocation (PST) from the inner to the outer layer of the sperm plasma membrane using an annexin-V binding assay. To provide new information of direct effects of OH-Flu on cell signaling pathway, we measured sperm intracellular calcium ion dynamics using Fluo-3. Finally, we assessed sperm motility using a computer-assisted spermatozoa analysis system. Motile sperm were highlighted using the “C-Ruch” computer program for detailed analysis of the straight line velocity distribution. For each functional test, boar spermatozoa were examined and analyzed by flow cytometry and/or confocal microscopy. The results revealed a significant decrease (P < 0.05) in sperm mitochondrial membrane potential and a concomitant increase (P < 0.05) in mitochondrial superoxide anion production after a 2-hour incubation with 50 μg OH-Flu compared with the respective controls and other doses used (P < 0.05). The adverse effects of OH-Flu become strengthened over time (P < 0.05). Notably, 50 and 100 μg OH-Flu appeared to be effective in decreasing sperm motility. Hydroxyflutamide significantly decreased (P < 0.05) the fast sperm subpopulation percentage after 15 minutes and reduced the straight line velocity distribution (P < 0.05). An assessment of PST revealed an increase in the percentage of PST-positive spermatozoa (P < 0.05) only after exposure to OH-Flu for 24 hours. Moreover, OH-Flu at all concentrations induced a rapid increase in sperm intracellular calcium ion concentration. Altogether, the altered in vitro characteristics of live boar spermatozoa provide new insight into direct effects of OH-Flu on sperm mitochondrial membrane potential, superoxide anion production, translocation of membrane phosphatidylserine, free calcium ion dynamics, and sperm motility.     

Neutrophil microparticles modulate cytokine production by natural killer cells

Neutrophil microparticles (NMs) are scarce in the circulation but are highly enriched at sites of inflammation and exert profound effects on immune cells. In the present study, we addressed whether NMs modulate cytokine-producing capacity of natural killer (NK) cells. NMs inhibited the production of IFN-γ and TNF-α but enhanced the release of TGF-β1 by IL-2/IL-12-activated NK cells. The inhibitory effect of NMs was strongly attenuated by blockade of phosphatidylserine exposed on NMs. Thus, NMs skew the cytokine profile of NK cells from pro-inflammatory toward anti-inflammatory, potentially favoring the resolution of inflammation.     

微粒和血细胞在脓毒症高凝状态中的作用

目的:探讨血小板和红细胞磷脂酰丝氨酸(PS)暴露和循环微粒(MPs)在脓毒症高凝状态中的作用。方法:集10例诊断为脓毒症的患者及10例健康体检者的新鲜血;离心分离出红细胞、富血小板血浆及MPs;应用Alexa-Fluro 488-乳粘素/CD 41a/CD14、Alexa-Fluro 647-CD 235a/CD 31/CD 45标定红细胞、血小板、内皮细胞、白细胞及单核细胞来源的MPs;流式细胞仪测定红细胞和血小板的PS外翻、MPs的数量;血凝仪测定相应凝血时间。结果:相对于健康人,脓毒症患者PS外翻红细胞(3.53%vs0.53%,P0.05)和血小板(3.00%vs 0.45%,P0.05)、MPs总数(4830/μL vs 2861/μL,P0.05)及各亚型MPs均明显升高;红细胞(238.4s vs 346.8s,P0.05)、血小板(209.1s vs 335.9s,P0.05)及MPs(207.1s vs 318.2s,P0.05)的凝血时间缩短。MP数、PS+红细胞/血小板比例分别与各自凝血时间成负相关(MP:r=-0.592,P=0.006;红细胞:r=-0.565,P=0.009;血小板:r=-0.641,P=0.002)。结论:红细胞、血小板的PS暴露及循环MPs和脓毒症高凝状态的发生相关,可能对患者凝血功能检测和抗凝治疗有一定的意义。