Biochemical and Structural Information Transduction at the Mesoscopic Level in Biointerfaces Containing Sphingolipids

In this work we describe two aspects of molecular and supramolecular information transduction. The first is the biochemical and structural information content and transduction associated with sphingomyelinase activity. The results disclose a lipid-mediated cross-communication between the sphingomyelinase and phospholipase A₂ pathways. In addition, the two-dimensional degradation of sphingomyelin by sphingomyelinase affects the surface topography and the latter modulates the enzyme activity. The second is the information contained in the compositionally driven lateral organization of whole glial and neuronal membrane interfaces. The myelin monolayer exhibits microheterogeneous topographical structuring and nonhomogeneous lateral thickness of phase separated regions, depending dynamically on the lateral surface pressure. On the other hand, the differential response of functional living cells depends on information contained in the molecular organization of the contacting membrane interface.     

Sphingolipids in mitochondria

Sphingolipids are bioactive lipids found in cell membranes that exert a critical role in signal transduction. In recent years, it has become apparent that sphingolipids participate in growth, senescence, differentiation and apoptosis. The anabolism and catabolism of sphingolipids occur in discrete subcellular locations and consist of a strictly regulated and interconnected network, with ceramide as the central hub. Altered sphingolipid metabolism is linked to several human diseases. Hence, an advanced knowledge of how and where sphingolipids are metabolized is of paramount importance in order to understand the role of sphingolipids in cellular functions. In this review, we provide an overview of sphingolipid metabolism. We focus on the distinct pathways of ceramide synthesis, highlighting the mitochondrial ceramide generation, transport of ceramide to mitochondria and its role in the regulation of mitochondrial-mediated apoptosis, mitophagy and implications to disease. We will discuss unanswered questions and exciting future directions. This article is part of a Special Issue entitled: Lipids of Mitochondria edited by Guenther Daum.     

鞘脂类的研究进展

鞘脂类研究是目前脂类研究的重点之一,鞘脂类研究进展有以下几方面:首先,鞘脂类具有结构上的多样性,可能的种类数量巨大;其次,人们已经克隆了大多数在鞘脂代谢途径中具有调控作用的酶类,研究的热点正在转向其调节机制;再次鞘脂类合成发生在内质网和高尔基体,通过协助扩散进行转运,CERT帮助神经酰胺从内质网到高尔基体的转运;第四,鞘脂类在细胞信号转导中起重要作用,神经酰胺和SIP是当前集中的研究对象;第五,鞘脂在脂筏的形成中具有重要作用,其特异性分布可能与脂筏的功能相关.鞘脂类的研究正在系统化,"(鞘)脂类组学"的提出有助于研究的进一步深入.     

Sphingolipids in colon cancer

Colorectal cancer is one of the major causes of death in the western world. Despite increasing knowledge of the molecular signaling pathways implicated in colon cancer, therapeutic outcomes are still only moderately successful. Sphingolipids, a family of N-acyl linked lipids, have not only structural functions but are also implicated in important biological functions. Ceramide, sphingosine and sphingosine-1-phosphate are the most important bioactive lipids, and they regulate several key cellular functions. Accumulating evidence suggests that many cancers present alterations in sphingolipids and their metabolizing enzymes. The aim of this review is to discuss the emerging roles of sphingolipids, both endogenous and dietary, in colon cancer and the interaction of sphingolipids with WNT/β-catenin pathway, one of the most important signaling cascades that regulate development and homeostasis in intestine. This article is part of a Special Issue entitled New Frontiers in Sphingolipid Biology.     

Cadmium-Induced Structural and Ultrastructural Changes in the Vascular System of Bush Bean Stems

The effects of a phytotoxic cadmium concentration (4.45 . 10^?5 M) on the structure and ultrastructure of bean plant stems were analysed by light (LM), transmission electron (TEM) and scanning electron microscopy (SEM). Cadmium significantly reduced both the number and the size of tracheary elements. Cadmium-induced electron dense depositions, which seemed to obstruct partially some xylem vessels, were found only in the later maturing tracheary elements (helical, scalariform or reticulate structure), but not in the annular structured early differentiated ones. Plants exposed to Cd showed less fiber development than the control plants. In the plants treated with Cd abnormally high amounts of calcium oxalate crystals were found in the paratracheary parenchyma cells of the bottom of the stems. The levels of soluble Ca²⁺ in the expressed stem sap of Cd-treated plants was significantly decreased, while substantial amounts of soluble Cd were detected. The probable mechanisms of the structural alterations observed are discussed.     

Sphingolipids of influenza viruses.

Total lipid of four egg grown influenza viruses (A2-Asia, A2-England, A2-Taiwan and fowl plague virus) were extracted with chloroform-methanol. After mild alkali treatment of the extracts, glycosphingolipids and sphingomyelin were separated by a silicic acid column, and finally purified by thin layer chromatography. Fatty acid, sphingosine and carbohydrate components of individual lipid classes were then analysed by gas-liquid chromatography. Nearly identical results were obtained with all viruses investigated. Approximately 20% of the total lipid was monohexosylceramide, distributed equally between glucosyl- and galactosyl- analogues. Lactosylceramide and oligohexosylceramides were found in much smaller concentrations (approx. 2%). About 15% of the total lipid was attributed to sphingomyelin. A large proportion of fatty acids (around 25% in sphingomyelin and 60% in glycolipids) belonged to the long chain (C19-C26) normal- and 2-hydroxy series. C18-sphingosine was found to be the only base present in all lipid classes investigated.     

Diversity of Cultivated and Uncultivated Actinobacterial Endophytes in the Stems and Roots of Rice

A dual approach consisting of cultivation and molecular retrieval of actinobacterial 16S rRNA genes was used to characterize the diversity of actinobacterial community inhabiting interior of rice stems and roots. Streptomyces is the most frequently isolated genus from rice stems and roots. Forty-five clones chosen randomly among 250 clones in the 16S rRNA gene clone library from roots were affiliated with nine genera of actinobacteria and uncultured actinobacteria (Mycobacterium, Streptomyces, Micromonospora, Actinoplanes, Frankia, Dactylosporangium, Amycolatopsis, Corynebacterium, Rhodococcus, and uncultured actinobacterium). However, 33 clones from stems were affiliated with four genera and uncultured actinobacteria (Streptomyces, Mycobacterium, Nocardiodies, Janibacter, uncultured earthworm cast bacterium, uncultured earthworm intestine bacterium, and uncultured actinobacterium). Species similar to S. cyaneus were isolated from surface-sterilized roots and stems of rice and detected inside rice roots by culture-independent methods. Species similar to S. caviscabies, S. scabies, and S. turgidiscabies were simultaneously detected from the interior of rice stems by the culture-dependent and culture-independent methods. S. galilaeus was detected from the interior of rice stems and roots. These results indicated that some actinobacterial populations in rice stems were correlated with those in roots. Tian and Cao contributed equally to this work     

冰川退缩地15种丛藓科植物茎的比较结构学观察

应用石蜡切片和扫描电镜方法对一号冰川退缩地生长的15种丛藓科植物茎的结构及表面微形态特征进行观察,结果表明：该地区的15种丛藓科植物的茎分为具中轴和无中轴两类,其细胞壁均有不同程度的加厚。而具中轴的丛藓科植物的茎又分为表皮、皮部、中轴三部分,茎表皮细胞短,1层,细胞壁大多向外突出,表面粗糙,表面纹饰多为颗粒状;皮部所占面积最大,大部分有内、外皮部的分化,大多数种的细胞壁由外向内逐渐变薄,细胞由小到大整齐排列;中轴所占的面积也不同,其细胞壁多具角隅加厚;而没有中轴分化的种类,其各自细胞壁加厚的程度基本一致。     

The Involvement of Sphingolipids in Multidrug Resistance

Administration of most chemotherapeutic agents eventually results in the onset of apoptosis, despite the agents' variety in structure and molecular targets. Ceramide, the central molecule in cellular glycosphingolipid metabolism, has recently been identified as an important mediator of this process. Indeed, one of the events elicited by application of many cytotoxic drugs is an accumulation of this lipid. Treatment failure in cancer chemotherapy is largely attributable to multidrug resistance, in which tumor cells are typically cross-resistant to multiple chemotherapeutic agents. Different cellular mechanisms underlying this phenomenon have been described. Of these the drug efflux pump activity of P-glycoprotein and the multidrug resistance-associated proteins are the most extensively studied examples. Recently, an increased cellular capacity for ceramide glycosylation has been recognized as a novel multidrug resistance mechanism. Indeed, virtually all multidrug-resistant cells exhibit a deviating sphingolipid composition, most typically, increased levels of glucosylceramide. On the other hand, several direct molecular interactions between sphingolipids and drug efflux proteins have been described. Therefore, in addition to a role in the multidrug resistance phenotype by which ceramide accumulation and, thus, the onset of apoptosis are prevented, an indirect role for sphingolipids might be envisaged, by which the activity of these efflux proteins is modulated. In this review, we present an overview of the current understanding of the interesting relations that exist between sphingolipid metabolism and multidrug resistance. Received: 16 June 2000/Revised: 16 August 2000     

Sphingolipids in tumor metastases and angiogenesis

This review article summarizes data on the involvement of sphingolipids (sphingosine-1-phosphate, sphingosine-1-phosphocholine, neutral glycosphingolipids, and gangliosides) in tumor metastases and angiogenesis.     

Proteins and Fine Structural Components in Exudate from Sieve Tubes in Cucurbits pepo Stems

Exudate from the cut stems of Cucurbita pepo gels when exposedto the atmosphere for 1 or 2 minutes. Gelling was preventedwhen exudate was collected into a buffer containing 2-mercaptoethanolIn the absence of gelling a soluble fraction and a structuralfraction were obtained from these samples by centrifugationand filtration, which is evidence that solids in the exudatedo not arise from the gelling reaction. The supernatants andthe filtrates gelled when 2-mercaptoethanol was removed. Since 2-mercaptoethanol and dithiothreitol are both —SHreducing agents, and prevented gelling equally, it is likelythat gel formation involves the oxidation of—SH groupsto disulphide bonds. The soluble fraction was separated into11 protein components by D.E.A E. chromatography but only one,a basic protein with a sedimentation coefficient S°_{20, W}of 4 32S, gelled when 2-mercaptoethanol was removed. The soluble fraction and a 2M potassium chloride extract fromthe structural fraction were run on the same G200 Sephadex columnand both revealed three protein peaks. The proteins from thesolids were eluted from the column earlier indicating they areof higher molecular weight than the soluble proteins. Gel electrophoresisrevealed 17 protein bands from the soluble fraction in additionto the basic, gelling protein, and by the same method only sixbands were produced from a sample of partially dispersed solidsAt least four of these bands were not represented in the solublefraction. The results indicate that structures in the exudatedo not arise by the aggregation of soluble proteins. Gel formed from soluble protein is structureless in the lightmicroscope, and has no organized fine structure in the electronmicroscope In the light microscope the structural fraction containsfibrils and particles which are sometimes associated in strandsup to 10 µm in diameter. In the electron microscope strandsof microscopic dimensions consist either of groups of parallelmembrane-like structures or of parallel fine filaments whichare less than 300 Å in diameter. The term P-protein (phloemprotein) has been widely used to describe filaments such asthese, and we believe they can now be described more accuratelyas PF protein. The term PS can be used to describe soluble proteinsand the term PS/G to identify the protein of this group whichgels Since membranes were found with PF protein in the structuralfraction of exudate, it is interpreted here as a constituentof cytoplasm exuded from sieve elements. Although the proteinwhich gels may not be the sole constituent of the slime plug,we suggest that gelling is the primary factor in the formationof the plugs. The possibility that PS/G protein interferes with the fixationof the protoplasts of sieve elements is discussed.     

Sphingolipids as multifaceted mediators in ovarian cancer

Ovarian cancer is the most lethal gynaecological malignancy. It is commonly diagnosed at advanced stage when it has metastasised to the abdominal cavity and treatment becomes very challenging. While current standard therapy involving debulking surgery and platinum + taxane-based chemotherapy is associated with high response rates initially, the large majority of patients relapse and ultimately succumb to chemotherapy-resistant disease. In order to improve survival novel strategies for early detection and therapeutics against treatment-refractory disease are urgently needed. A promising new target against ovarian cancer is the sphingolipid pathway which is commonly hijacked in cancer to support cell proliferation and survival and has been shown to promote chemoresistance and metastasis in a wide range of malignant neoplasms. In particular, the sphingosine kinase 1-sphingosine 1-phosphate receptor 1 axis has been shown to be altered in ovarian cancer in multiple ways and therefore represents an attractive therapeutic target. Here we review the roles of sphingolipids in ovarian cancer progression, metastasis and chemoresistance, highlighting novel strategies to target this pathway that represent potential avenues to improve patient survival.     

Sphingolipids: Critical players in Alzheimer's disease

Alzheimer's disease is characterized by the progressive accumulation of extracellular deposits of the amyloid β-peptide (Aβ) and intraneuronal aggregates of the microtubule associated protein tau. Strong genetic, biochemical and cell biological evidence indicates critical roles of Aβ in the initiation of the pathogenic process, while tau might mediate its toxicity and neurodegeneration. Aβ is generated by proteolytic processing of the amyloid precursor protein (APP) by β- and γ-secretases. Alternatively, APP can also be cleaved by α-secretase within the Aβ domain, thereby precluding subsequent production of Aβ. APP and the three secretases are integral membrane proteins and follow secretory and endocytic trafficking pathways. Thus, the membrane lipid composition could play important roles in trafficking and metabolism of Alzheimer's disease related proteins. Sphingolipids and especially complex gangliosides are abundant and characteristic components of neuronal membranes. Together with cholesterol, they confer unique characteristics to membrane domains, thereby regulating subcellular trafficking and signaling pathways. Thus, sphingolipids emerged to important modulators of biological processes including cell growth, differentiation, and senescence. Defects in sphingolipid catabolism are long known to cause severe lysosomal storage disorders, often characterized by neurological phenotypes. In recent studies it became evident that impaired sphingolipid metabolism could also be involved in Alzheimer's disease.     

Sphingolipids and mitochondrial function in budding yeast

Background

Sphingolipids (SLs) are not only key components of cellular membranes, but also play an important role as signaling molecules in orchestrating both cell growth and apoptosis. In Saccharomyces cerevisiae, three complex SLs are present and hydrolysis of either of these species is catalyzed by the inositol phosphosphingolipid phospholipase C (Isc1p). Strikingly, mutants deficient in Isc1p display several hallmarks of mitochondrial dysfunction such as the inability to grow on a non-fermentative carbon course, increased oxidative stress and aberrant mitochondrial morphology.

Scope of review

In this review, we focus on the pivotal role of Isc1p in regulating mitochondrial function via SL metabolism, and on Sch9p as a central signal transducer. Sch9p is one of the main effectors of the target of rapamycin complex 1 (TORC1), which is regarded as a crucial signaling axis for the regulation of Isc1p-mediated events. Finally, we describe the retrograde response, a signaling event originating from mitochondria to the nucleus, which results in the induction of nuclear target genes. Intriguingly, the retrograde response also interacts with SL homeostasis.

Major conclusions

All of the above suggests a pivotal signaling role for SLs in maintaining correct mitochondrial function in budding yeast.

General significance

Studies with budding yeast provide insight on SL signaling events that affect mitochondrial function.     

Sphingolipids of transplantable rat nephroma-RA

Contents of sphingolipids (ceramide, sphingomyelin, gangliosides) and the composition of their sphingoid bases were studied in the transplantable rat nephroma-RA and in rat kidneys. The content of sphingomyelin was about 1.3-fold decreased and the content of ceramide was about 1.4-fold increased in the nephroma compared to normal kidneys, and this correlated with a 1.4-fold increased activity of neutral sphingomyelinase; however, the activity of the acidic isoform of the enzyme was virtually unchanged. The content of gangliosides was also increased in the nephroma. Ceramide and sphingomyelin of the nephroma, in addition to sphingosine, contained a significant amount of sphinganine, although a considerable amount of the latter was also found in the renal ceramide. The ratio sphingosine/sphinganine in sphingomyelins changed from 65:1 in kidneys to 5:1 in the nephroma. Thus, the biosynthesis of sphingoid bases seems to be disturbed in the transplantable rat nephroma-RA compared to normal kidneys.     

Sphingolipids,new players in plant signaling

Sphingolipids are a diverse group of compounds, some of which play important signaling roles in animals and yeast. Results from recent research suggest that not only do plants contain components present in animal sphingolipid signaling pathways but that they might also possess novel plant-specific sphingolipid signaling systems. We suggest that the time is ripe for an in depth investigation of the role of this enigmatic group of compounds in plants.     

Role of Ceramides and Sphingolipids in Parkinson's Disease

Sphingolipids, including the basic ceramide, are a subset of bioactive lipids that consist of many different species. Sphingolipids are indispensable for proper neuronal function, and an increasing number of studies have emerged on the complexity and importance of these lipids in (almost) all biological processes. These include regulation of mitochondrial function, autophagy, and endosomal trafficking, which are affected in Parkinson’s disease (PD). PD is the second most common neurodegenerative disorder and is characterized by the loss of dopaminergic neurons. Currently, PD cannot be cured due to the lack of knowledge of the exact pathogenesis. Nonetheless, important advances have identified molecular changes in mitochondrial function, autophagy, and endosomal function. Furthermore, recent studies have identified ceramide alterations in patients suffering from PD, and in PD models, suggesting a critical interaction between sphingolipids and related cellular processes in PD. For instance, autosomal recessive forms of PD cause mitochondrial dysfunction, including energy production or mitochondrial clearance, that is directly influenced by manipulating sphingolipids. Additionally, endo-lysosomal recycling is affected by genes that cause autosomal dominant forms of the disease, such as VPS35 and SNCA. Furthermore, endo-lysosomal recycling is crucial for transporting sphingolipids to different cellular compartments where they will execute their functions.This review will discuss mitochondrial dysfunction, defects in autophagy, and abnormal endosomal activity in PD and the role sphingolipids play in these vital molecular processes.