Lipoproteins of Mycobacterium tuberculosis: an abundant and functionally diverse class of cell envelope components

Sutcliffe, I.C., Harrington, Dean J.

2004 June 1918

No / Mycobacterium tuberculosis remains the predominant bacterial scourge of mankind. Understanding of its biology and pathogenicity has been greatly advanced by the determination of whole genome sequences for this organism. Bacterial lipoproteins are a functionally diverse class of membrane-anchored proteins. The signal peptides of these proteins direct their export and post-translational lipid modification. These signal peptides are amenable to bioinformatic analysis, allowing the lipoproteins encoded in whole genomes to be catalogued. This review applies bioinformatic methods to the identification and functional characterisation of the lipoproteins encoded in the M. tuberculosis genomes. Ninety nine putative lipoproteins were identified and so this family of proteins represents ca. 2.5% of the M. tuberculosis predicted proteome. Thus, lipoproteins represent an important class of cell envelope proteins that may contribute to the virulence of this major pathogen.

Bioinformatics

Genome

Lipoprotein

Mycobacterium tuberculosis

Periplasm

Virulence factor

Putative lipoproteins of Streptococcus agalactiae identified by bioinformatic genome analysis

Sutcliffe, I.C., Harrington, Dean J.

05 1900

No / Streptococcus agalactiae is a significant pathogen causing invasive disease in neonates and thus an understanding of the molecular basis of the pathogenicity of this organism is of importance. N-terminal lipidation is a major mechanism by which bacteria can tether proteins to membranes. Lipidation is directed by the presence of a cysteine-containing 'lipobox' within specific signal peptides and this feature has greatly facilitated the bioinformatic identification of putative lipoproteins. We have designed previously a taxon-specific pattern (G+LPP) for the identification of Gram-positive bacterial lipoproteins, based on the signal peptides of experimentally verified lipoproteins (Sutcliffe I.C. and Harrington D.J. Microbiology 148: 2065-2077). Patterns searches with this pattern and other bioinformatic methods have been used to identify putative lipoproteins in the recently published genomes of S. agalactiae strains 2603/V and NEM316. A core of 39 common putative lipoproteins was identified, along with 5 putative lipoproteins unique to strain 2603/V and 2 putative lipoproteins unique to strain NEM316. Thus putative lipoproteins represent ca. 2% of the S. agalactiae proteome. As in other Gram-positive bacteria, the largest functional category of S. agalactiae lipoproteins is that predicted to comprise of substrate binding proteins of ABC transport systems. Other roles include lipoproteins that appear to participate in adhesion (including the previously characterised Lmb protein), protein export and folding, enzymes and several species-specific proteins of unknown function. These data suggest lipoproteins may have significant roles that influence the virulence of this important pathogen.

ABC transport

Genomics

Group B Streptococcus

Lipoprotein

Virulence factors

Untersuchungen zur Entstehung, Lokalisation und Wirkung von fragmentiertem Phosphatidylcholin (FPC) im Menschen

Frey, Bettina

14 December 2000

Oxidativ modifizierte Phospholipide haben PAF-ähnliche Struktur und zeigen in vitro PAF-ähnliche Wirkung. Dabei handelt es sich hauptsächlich um fragmentierte Phosphatidylcholine, die eine lange Fettsäure- oder Alkylkette in sn-1 Stellung und einen kurzen Acylrest (C4-C9) mit oxidiertem C-Atom in sn-2 Stellung haben und als PAF-ähnliche Lipide bezeichnet werden. In der vorliegenden Arbeit wurden durch eine neue HPLC-Fluoreszenzmethode ein Vertreter dieser in vivo existierender PAF-ähnlichen Lipide im Plasma quantifiziert. Dieses fragmentierte Phosphatidylcholin (FPC) besitzt einen Palmitoylrest in sn-1 Position, sowie eine C3 oder C4 Kette in sn-2 Position und erfüllt damit die strukturelle Voraussetzungen für biologische Aktivität. Weiterhin konnte gezeigt werden, dass FPC in biologisch aktiven Fraktionen enthalten war, deren biologische Aktivität jedoch nicht von PAF bewirkt wurde, sondern von PAF-ähnlichen Lipiden. Dies unterstützt die Vermutung, dass FPC biologische Aktivität zeigt. Im Plasma wird FPC von Lipoproteinen transportiert. Oxidativer Stress in biologischen Systemen, ausgelöst durch Tabakrauch, Organischämie/ Reperfusion, Vitamin E-Mangel oder Inkubation von Zellen mit H2O2, führte zu einer Erhöhung der FPC-Konzentration. Damit wurde gezeigt, dass die PAF-ähnlichen Lipide in vivo durch Radikal-induzierte Lipidperoxidation gebildet werden können. Trotz eines Konzentrationsanstiegs von FPC nach oxidativem Stress, kam es bei einer systemischen Inflammation, die von Radikal-bildenen Prozessen begleitet ist, jedoch nicht zu einer Anreicherung von FPC-ähnlichen Lipidperoxidationsprodukten. Ursache für die fehlende Anreicherung von oxidativ modifizierten Lipiden bei einer systemischen Inflammation könnte ihr rascher Abbau durch Phospholipasen, oder der Abbau von Vorstufen, bzw. die Substratrminderung, sein. / Oxidative modified phospholipids have PAF like structure and show in vitro PAF like activity. They consist of fragmented phosphatidylcholine with a long fatty acid or alkyl chain in sn-1 position and a short acylrest (C4-C9) with a oxidized C-atom in sn-2 position. According to their structure they are called PAF like lipids. In this paper one representative of these in vivo existing PAF like lipids are quantified in plasma by means of a new fluorescence HPLC method. These fragmented phosphatidylcholines consits of a palmitoylrest in sn-1 position and a C3 or C4 chain in sn-2 position and therefore they fullfill the strutural conditions to have biological activity. We further showed, that the biological active fractions contain FPC. The biological activity is not caused by PAF but by PAF like lipids. This fact supports the hypothesis that FPC are biological active. FPC is carried by lipoproteins in plasma. Oxidative stress caused by cigarette smoke, ischemia/ reperfusion, Vitamin E deficiency or incubation of cells with H2O2 leads to an increase of the concentration of FPC. Thereby it could be shown that PAF like lipids can be formed in vivo by means of radical induced lipidperoxidation. Many radical producing processes are involved in systemic inflammation. Despite of an increase of FPC's concentration after oxidative stress, there was no accumulation of FPC like lipidperoxidation products during systemic inflammation. One reason for the missing accumulation of oxidative modified lipids during systemic inflammation can be the fast degradation by phospholipases or the reduction of substrat.

FPC (fragmentiertes Phosphatidylcholin)

Lipidperoxidation

Lipoprotein

Phospholipase

FPC (fragmented phosphatidylcholine)

lipidperoxidation

lipoprotein

phospholipase

540 Chemie

30 Chemie

ddc:540

Der interzelluläre Transport Lipid-geladener Lysosomen aus Makrophagen in glatte Gefäßmuskelzellen führt zur phänotypischen Veränderung der Gefäßmuskelzellen in einen schaumzellartigen Phänotyp

Weinert, Sönke

14 January 2015

AIMS: Macrophages (MPs) and vascular smooth muscle cells (VSMCs) closely interact within the growing atherosclerotic plaque. An in vitro co-culture model was established to study how MPs modulate VSMC behaviour. METHODS AND RESULTS: MPs were exposed to fluorescence-labelled-acetylated LDL (FL-acLDL) prior to co-culture with VSMCs. Fluorescence microscopy visualized first transport of FL-acLDL within 6 h after co-culture implementation. When MPs had been fed with FL-acLDL in complex with fluorescence-labelled cholesterol (FL-Chol), these complexes were also transferred during co-culture and resulted in cholesterol positive lipid droplet formation in VSMCs. When infected with a virus coding for a fusion protein of Rab5a and fluorescent protein reporter (FP) to mark early endosomes, no co-localization between Rab5a-FP and the transported FL-acLDL within VSMCs was detected implying a mechanism independent of phagocytosis. Next, expression of lysosome-associated membrane glycoprotein 1 (LAMP1)-FP, marking all lysosomes in VSMCs, revealed that the FL-acLDL was located in non-acidic lysosomes. MPs infected with virus encoding for LAMP1-FP prior to co-culture demonstrated that intact fluorescence-marked lysosomes were transported into the VSMC, instead. Xenogenic cell composition (rat VSMC, human MP) and subsequent quantitative RT-PCR with rat-specific primers rendered induction of genes typical for MPs and down-regulation of the cholesterol sensitive HMG-CoA reductase. CONCLUSION: Our results demonstrate that acLDL/cholesterol-loaded lysosomes are transported from MPs into VSMCs in vitro. Lysosomal transfer results in a phenotypic alteration of the VSMC towards a foam cell-like cell. This way VSMCs may lose their plaque stabilizing properties and rather contribute to plaque destabilization and rupture.

Gefäßmuskelzellen

Makrophagen

Low Density Lipoprotein

LDL

Cholesterol

Smooth muscle cells

Macrophages

Low-density lipoprotein (LDL)

Cholesterol

ddc:540

rvk:WD 5400

The regulation of postprandial lipemia in man

Cohen, Jonathan

January 1989

The regulation of the serum triglyceride responses to fat ingestion have been examined in normolipidemic men. To evaluate the existing methods for comparing chylomicron-triglyceride clearance, the oral and intravenous fat tolerance tests and a steady state duodenal perfusion method were compared. Good correlations (r > 0.8) were found between each of these methods. Since the intravenous fat tolerance test is independent of fat absorption, these data suggested that the serum triglyceride response to fat feeding was largely determined by the rate of chylomicron-triglyceride clearance. To determine the influence of the quantity and type of meal fat on postprandial serum triglyceride concentrations, the serum triglyceride responses to three different doses of dairy cream, and to standard doses of olive and sunflower oil were examined. For a given type of fat, the magnitude of postprandial lipemia (the integrated serum triglyceride excursion) varied directly with the quantity of fat in the meal. This finding suggested that the chylomicron- triglyceride clearance system(s) did not become saturated even after large fat meals. In addition, it appeared that the hormonal factors released in response to fat ingestion (some of which are known to increase lipoprotein lipase activity in vitro) did not increase the rate of chylomicron-triglyceride clearance. If the quantity of fat in a meal was fixed, then postprandial lipemia increased with increasing saturation of the triglyceride fatty acids. These differences did not appear to reflect differences in triglyceride absorption. Since acute fat feeding per se did not appear to stimulate chylomicron-triglyceride clearance, the effects of dietary proteins and carbohydrates were studied. The addition of up to 35g protein to a standard test meal did not affect postprandial lipemia. These results were supported by the observation that protein ingestion did not affect intravenous fat tolerance. Postprandial serum triglyceride concentrations were significantly influenced by carbohydrate ingestion. Fructose (50g) and sucrose (100g) markedly increased postprandial lipemia, although glucose ingestion did not. In agreement with earlier studies, glucose ingestion decreased serum triglyceride concentrations 2 hours after the meal. This effect was abolished by intraduodenal fat administration and by substituting starch for glucose in the test meal. The effects of glucose could be reproduced by iso-osmotic quantities of urea, however. These findings suggested that glucose ingestion did not increase chylomicron -triglyceride clearance. It is more likely that glucose delayed the absorption of triglycerides by slowing gastric emptying, and that this effect was partly related to the increased osmolarity of glucose- containing meals. The effects of chronic exercise on postprandial lipemia and chylomicron-triglyceride clearance were determined in endurance- adapted athletes. The serum triglyceride responses to large and small fat meals were lower in athletes than in sedentary men with comparable fasting triglyceride concentrations. These differences were not eliminated by a single bout of acute exercise in the sedentary men. The clearance of intravenously administered lntralipid, and chylomicron -triglyceride clearance assessed from steady state chylomicron-triglyceride concentrations during duodenal fat perfusion were faster in athletes than in the sedentary men. These data suggested that the low postprandial lipemia in athletes reflects increased chylomicron-triglyceride clearance caused by increased activity of the triglyceride clearing system(s). Given these considerations. it appears that the pathway(s) for chylomicron triglyceride clearance are extremely efficient in normal men and that these pathways are not subject to acute physiological regulation.

Triglycerides - Physiology

Fat - Physiological effect

Triglycerides - Physiological effect

Dietary fats - Physiology

Lipoprotein lipase - Metabolism

Lip

Atherosclerosis-Related Functions of C-Reactive Protein

Agrawal, Alok, Hammond, David J., Singh, Sanjay K.

01 January 2010

C-reactive protein (CRP) is secreted by hepatocytes as a pentameric molecule made up of identical monomers, circulates in the plasma as pentamers, and localizes in atherosclerotic lesions. In some cases, localized CRP was detected by using monoclonal antibodies that did not react with native pentameric CRP but were specific for isolated monomeric CRP. It has been reported that, once CRP is bound to certain ligands, the pentameric structure of CRP is altered so that it can dissociate into monomers. Accordingly, the monomeric CRP found in atherosclerotic lesions may be a stationary, ligand-bound, by-product of a ligand-binding function of CRP. CRP binds to modified forms of low-density lipoprotein (LDL). The binding of CRP to oxidized LDL requires acidic pH conditions; the binding at physiological pH is controversial. The binding of CRP to enzymatically-modified LDL occurs at physiological pH; however, the binding is enhanced at acidic pH. Using enzymatically-modified LDL, CRP has been shown to prevent the formation of enzymatically-modified LDL-loaded macrophage foam cells. CRP is neither pro-atherogenic nor atheroprotective in ApoE-/-and ApoB100/100Ldlr-/-murine models of atherosclerosis, except in one study where CRP was found to be slightly atheroprotective in ApoB100/100Ldlr-/-mice. The reasons for the ineffectiveness of human CRP in murine models of atherosclerosis are not defined. It is possible that an inflammatory environment, such as those characterized by acidic pH, is needed for efficient interaction between CRP and atherogenic LDL during the development of atherosclerosis and to observe the possible atheroprotective function of CRP in animal models.

atherosclerosis

C-reactive protein

foam cells

oxidized low-density lipoprotein

Biomedical Sciences

Regulation of VLDL Trafficking by ORP 10

Wessels, Philip A.

01 January 2015

Of the challenges facing the improvement of human health, none has taken the forefront quite like the endeavor to discover novel treatments for heart disease. As heart disease has now become the leading cause of death throughout the world [1], the medical community has made incredible strides in the mission to treat atherosclerosis which is the major contributor to heart disease. Very Low Density Lipoproteins (VLDL) are secreted by the liver and subsequently converted to Low Density Lipoproteins (LDL). Many factors contribute to the narrowing of the arterial walls, however oxidized LDL is the main factor that leads to the deposition of plaque, leading to atherosclerosis pathologies. Recently, a main focus of research into atherosclerotic processes has been the synthesis and trafficking of VLDL in hepatocytes. The rate-limiting step for the secretion of VLDL from the liver has been determined to be the transport of VLDL from the endoplasmic reticulum (ER) to the Golgi apparatus. VLDL molecules are transported in a specialized transport vesicle the Very Low Density Lipoprotein Transport Vesicle (VTV) [2]. VLDL’s core protein, apolipoproteinB-100 (apoB100), is initially lipidated in the ER, and then subsequently delivered to the Golgi apparatus where the VLDL molecule undergoes maturation involving further lipidation and glycosylation of apoB100. Oxysterol Binding Proteins (OSBP) and the sub family OSBP Related Proteins (ORP) have been implicated in many different trafficking processes, mainly the trafficking of sterols, cholesterol, and lipids. Recently, ORP 10 was shown to be a negative regulator of apoB100 secretion in growth medium [3]. Using co-immunoprecipitation, the current study shows that ORP 10 interacts with VLDL’s core protein apoB100 directly. Employing an in vitro budding assay, we show that the blocking of ORP 10 with a specific antibody against ORP10 increases VTV formation from the ER. Given that the ER to Golgi pathway is the rate-limiting step in overall VLDL secretion, these findings support the conclusion that ORP 10 is a negative regulator of VLDL trafficking between the ER and Golgi, and that this process is mediated by the ORP 10 protein binding with apoB100.

Orp 10

Very low density lipoprotein

Vldl

Vtv

Microbiology

Molecular Biology

Efeitos da quimioterapia neoadjuvante sobre os receptores de lipoproteínas no tecido tumoral em pacientes com carcinoma da mama localmente avançado / Effects of neoadjuvant chemotherapy on lipoprotein receptors in tumor tissues of patients with locally advanced breast cancer

Pires, Luis Antonio

27 July 2010

Os tumores malignos apresentam um aumento da expressão dos receptores de lipoproteínas, devido ao aceleramento da proliferação celular com consequente aumento da necessidade de lípides para a síntese das membranas celulares. Esse aumento da expressão dos receptores de LDL no câncer pode ser utilizado para concentrar fármacos de ação antineoplásica em tecido tumoral, utilizando lipoproteínas ou nanoemulsões semelhantes a lipoproteínas como veículo. No presente estudo, foram investigados os efeitos da quimioterapia convencional na expressão dos receptores de LDL e LRP-1 em 16 pacientes com carcinoma de mama estádios II ou III, não candidatas à cirurgia conservadora e com indicação de tratamento quimioterápico neoadjuvante. A expressão dos receptores LDLR e LRP-1 foi avaliada por imunoistoquimica em tecido mamário normal e em tecido neoplásico antes e depois da quimioterapia neoadjuvante. Quatro pacientes que apresentaram resposta completa à quimioterapia foram retiradas da análise da expressão de receptores por não existir tumor no fragmento cirúrgico. Em relação ao LDLR, a expressão desse receptor no tecido neoplásico foi maior em comparação ao tecido normal em 8 das 11 pacientes. Após a quimioterapia, a expressão do receptor de LDL diminuiu em 6, aumentou em 4 e não se alterou em 2 pacientes. Do mesmo modo, a expressão do receptor LRP-1 no tecido tumoral estava aumentada em relação ao tecido normal em 4 pacientes das 12 avaliadas. Em comparação com o tecido tumoral antes da quimioterapia, a expressão do receptor LRP-1 diminuiu em 6, aumentou em 4 e permaneceu inalterada em 2 pacientes após a quimioterapia. Esses dados mostram que o efeito da quimioterapia na expressão dos receptores de lipoproteínas foi heterogêneo. A redução da expressão dos receptores não foi o padrão observado, o que indica que o uso de sistemas de carreamento de fármacos via receptores de LDL para o tratamento do câncer pode ser de grande importância. Esses resultados podem contribuir para o desenho de futuros estudos clínicos / Proliferative tumor cells present a high expression of LDL receptors due to accelerated mitosis rates which takes to increased need of lipids internalization for building new membranes. Upregulation of LDL receptors may be used as a gate to deliver anticancer drugs to tumor tissues using lipoproteins or artificial nanoemulsions as vehicle. This study investigated the effects of conventional chemotherapy on the expression of LDL and LRP-1 receptors in 16 patients with breast cancer in stage II or III who were not candidates to conservative surgery and with indication of neo-adjuvant chemotherapy. Expression of LDL and LRP-1 receptor was evaluated by immunohistochemistry in normal and neoplastic breast tissue before and after chemotherapy. For absence of tumor in the surgical fragments, 4 patients who presented complete response to chemotherapy were excluded from this analysis. In relation of LDLR, the expression in neoplastic tissue was higher than in normal tissue in 8 of 11 patients. After chemotherapy, LDL receptor expression diminished in 6, increased in 4 and unchanged in 2 patients. Expression of LRP-1 in tumor tissue was higher in 4 of 12 patients when compared to normal tissue. After chemotherapy, the expression of LRP-1 diminished in 6, increased in 4 and showed no difference in 2 patients. These data show that the chemotherapy effects on the tumor expression of LDL receptors were very heterogeneous. The diminution of the receptor expression is not the post-chemotherapy pattern, allowing the use of drug carrier systems that target cancer cells via the LDL receptor pathway. These results may contribute for the design of future clinical assays

Breast cancer

LDL receptors

Lipoprotein receptors

Low-density lipoprotein receptor

Neoadjuvant treatment

Neoplasias da mama

Receptores de LDL

Receptores de lipoproteínas

Terapia neoadjuvante

Efeitos da quimioterapia neoadjuvante sobre os receptores de lipoproteínas no tecido tumoral em pacientes com carcinoma da mama localmente avançado / Effects of neoadjuvant chemotherapy on lipoprotein receptors in tumor tissues of patients with locally advanced breast cancer

Luis Antonio Pires

27 July 2010

Os tumores malignos apresentam um aumento da expressão dos receptores de lipoproteínas, devido ao aceleramento da proliferação celular com consequente aumento da necessidade de lípides para a síntese das membranas celulares. Esse aumento da expressão dos receptores de LDL no câncer pode ser utilizado para concentrar fármacos de ação antineoplásica em tecido tumoral, utilizando lipoproteínas ou nanoemulsões semelhantes a lipoproteínas como veículo. No presente estudo, foram investigados os efeitos da quimioterapia convencional na expressão dos receptores de LDL e LRP-1 em 16 pacientes com carcinoma de mama estádios II ou III, não candidatas à cirurgia conservadora e com indicação de tratamento quimioterápico neoadjuvante. A expressão dos receptores LDLR e LRP-1 foi avaliada por imunoistoquimica em tecido mamário normal e em tecido neoplásico antes e depois da quimioterapia neoadjuvante. Quatro pacientes que apresentaram resposta completa à quimioterapia foram retiradas da análise da expressão de receptores por não existir tumor no fragmento cirúrgico. Em relação ao LDLR, a expressão desse receptor no tecido neoplásico foi maior em comparação ao tecido normal em 8 das 11 pacientes. Após a quimioterapia, a expressão do receptor de LDL diminuiu em 6, aumentou em 4 e não se alterou em 2 pacientes. Do mesmo modo, a expressão do receptor LRP-1 no tecido tumoral estava aumentada em relação ao tecido normal em 4 pacientes das 12 avaliadas. Em comparação com o tecido tumoral antes da quimioterapia, a expressão do receptor LRP-1 diminuiu em 6, aumentou em 4 e permaneceu inalterada em 2 pacientes após a quimioterapia. Esses dados mostram que o efeito da quimioterapia na expressão dos receptores de lipoproteínas foi heterogêneo. A redução da expressão dos receptores não foi o padrão observado, o que indica que o uso de sistemas de carreamento de fármacos via receptores de LDL para o tratamento do câncer pode ser de grande importância. Esses resultados podem contribuir para o desenho de futuros estudos clínicos / Proliferative tumor cells present a high expression of LDL receptors due to accelerated mitosis rates which takes to increased need of lipids internalization for building new membranes. Upregulation of LDL receptors may be used as a gate to deliver anticancer drugs to tumor tissues using lipoproteins or artificial nanoemulsions as vehicle. This study investigated the effects of conventional chemotherapy on the expression of LDL and LRP-1 receptors in 16 patients with breast cancer in stage II or III who were not candidates to conservative surgery and with indication of neo-adjuvant chemotherapy. Expression of LDL and LRP-1 receptor was evaluated by immunohistochemistry in normal and neoplastic breast tissue before and after chemotherapy. For absence of tumor in the surgical fragments, 4 patients who presented complete response to chemotherapy were excluded from this analysis. In relation of LDLR, the expression in neoplastic tissue was higher than in normal tissue in 8 of 11 patients. After chemotherapy, LDL receptor expression diminished in 6, increased in 4 and unchanged in 2 patients. Expression of LRP-1 in tumor tissue was higher in 4 of 12 patients when compared to normal tissue. After chemotherapy, the expression of LRP-1 diminished in 6, increased in 4 and showed no difference in 2 patients. These data show that the chemotherapy effects on the tumor expression of LDL receptors were very heterogeneous. The diminution of the receptor expression is not the post-chemotherapy pattern, allowing the use of drug carrier systems that target cancer cells via the LDL receptor pathway. These results may contribute for the design of future clinical assays

Neoplasias da mama

Receptores de LDL

Receptores de lipoproteínas

Terapia neoadjuvante

Breast cancer

LDL receptors

Lipoprotein receptors

Low-density lipoprotein receptor

Neoadjuvant treatment

The Opposing Effects of HDL Metabolism on Prostate Cancer

Traughber, Cynthia Alicia

07 September 2020

No description available.

Molecular Biology

Cellular Biology

Medicine

Oncology

CRISPR-Cas

SCARB1

cell proliferation

high-density lipoprotein

HDL

lipoprotein metabolism

lipoprotein receptor

prostate cancer

scavenger receptor

scavenger receptor class B, type 1