Mecanismos de formação da LDL eletronegativa (LDL-): efeito da glicoxidação e da lipólise / Mechanisms of formation of electronegative LDL (LDL‾): the effect of glycoxidation and lipolysis

Yuahasi, Katia Kioko

28 June 2005

A fração plasmática da lipoproteína de baixa densidade (LDL) é formada por partículas de diferentes tamanhos, carga e densidade. Baseada na diferença de carga das partículas, a LDL pode ser subfracionada em LDL nativa (nLDL) e LDL eletronegativa (LDL‾). A LDL‾ está presente no plasma e possui propriedades aterogênicas e pró-inflamatórias, assim como, possui menor concentração de antioxidantes lipossolúveis, maior concentração de dienos conjugados, alterações conformacionais da apoliproteína B-100 e menor afinidade para o receptor da LDL em comparação com a nLDL. Concentrações elevadas de LDL‾ têm sido observadas em pacientes com alto risco para o desenvolvimento de doenças cardiovasculares, incluindo hipercolesterolemia familiar, diabetes. Considerando-se que os mecanismos envolvidos na formação endógena da LDL‾ ainda não estão elucidados, neste estudo foi investigado o efeito da glicoxidação e da lipólise sobre a partícula LDL para avaliar a contribuição destes processos para a formação da LDL‾ in vitro e in vivo. As modificações químicas da LDL e da imunorreatividade com anticorpo monoclonal anti-LDL‾ foi analisada antes e depois da incubação do plasma com lipoproteína lipase (LPL) ou fosfolipase A2 (PLA2), assim como mimetizando-se a lipólise intravascular. Além disso, na lipólise in vivo foi monitorado no periodo pós-prandial em indivíduos normolipidêmicos para investigar a LDL‾ formada endogenamente. A contribuição da glicoxidação para a geração de LDL‾ foi avaliada in vitro pela incubação da LDL com glicose. O efeito da glicoxidação endógena foi monitorada pela medida, ex-vivo, dos os produtos de glicação avançada (AGEs) e LDL‾ no plasma de pacientes diabéticos tipo I (DM I), tipo II (DM II) e indivíduos intolerantes à glicose (IGT). O processo de glicação não enzimática, in vitro, resultou no aumento da concentração de LDL‾. Os indivíduos dos grupos DM I, DM II e IGT apresentaram concentrações plasmáticas elevadas de LDL‾ em relação aos seus respectivos controles, enquanto observou-se aumento de AGEs apenas nos grupos DM I e DM II. O processo de lipólise in vitro mediado pela LPL e PLA2, induziu aumento significante da concentração de LDL‾; entretanto, somente pela ação da LPL foi associada com modificações oxidativas. Em concordância, o processo de lipólise in vivo (pós-prandial) também promoveu aumento significativo da concentração de LDL‾ associado com modificações oxidativas. Conclusão, nossos dados mostram que, glicoxidação e de lipólise, poderiam contribuir na formação da LDL‾ in vivo. / The low density lipoprotein (LDL) fraction in blood plasma is formed by particles with different size, charge and density. Based on particle charge differences, LDL fraction may be separated into native (nLDL) and electronegative (LDL‾) subfractions. LDL‾ is present in blood plasma and has atherogenic and proinflammatory properties, as well as, lower concentrations of lipid soluble antioxidants, higher content of conjugated dienes, conformational alterations of apolipoprotein B-100 and lower affinity by LDL receptor in comparison to nLDL. Increased LDL‾ concentrations have been found in subjects with high risk for cardiovascular diseases, including those with familiar hypercholesterolemia, diabetes and hyperlipidemia. Considering that the mechanisms involved in the endogenous generation of LDL‾ are not yet well elucidated, in this study the effect of glucoxidation and lipolysis of LDL particles was investigated in order to evaluate their contribution to in vitro e in vivo LDL‾ formation. LDL chemical modifications and its reactivity towards a monoclonal anti-LDL‾ antibody were analyzed before and after incubation of either plasma or LDL with lipoprotein lipase (LPL) or phospholipase A2 (PLA2) as an in vitro lipolysis biomimetic system. Moreover, in vivo lipolysis was monitored at the post-prandial period in normolipidemic subjects to investigate LDL‾ endogenously formed. The contribution of glucoxidation to LDL‾ generation was evaluated in vitro by incubating LDL with glucose. The effect of endogenous glucoxidation was monitored by ex-vivo measurement of advanced glycation end products (AGES) and LDL‾ in blood plasma of type I (DM I) and II (DM II) diabetic patients, as well as, in subjects with glucose intolerance (IGT). The in vitro non-enzymatic glycation resulted in increased LDL‾ formation. The DM I, DM II and IGT groups showed higher LDL‾ concentrations than the respective control groups, while AGEs were increased only in DM I e DM II groups. The in vitro lipolysis mediated by LPL and PLA2 induced a significant increase of LDL‾; however, only LPL action was also associated to LDL oxidative modification. In accordance, in vivo lipolysis (post-prandial) also promoted a significant increase of LDL‾ levels associated to LDL oxidative modification. In conclusion, our data show that both, glycoxidation and lipolysis, could contribute to in vivo LDL‾generation.

Bioquímica clínica

Clinical biochemistry

Diabetes mellitus (Clinical study)

Diabetes mellitus (Estudo clínico)

Glicoproteínas (Metabolismo)

Glycoproteins (Metabolism)

"Hipogonadismo hipogonadotrófico: diagnóstico pré-puberal e papel das isoformas e variantes gênicas do hormônio luteinizante no fenótipo da doença" / Hypogonadotropic hypogonadism : pre-pubertal diagnosis and the role of the isoforms and allelic variants of the luteinizing hormone in the disease phenotype

Berger, Karina

09 June 2006

A resposta do LH e do FSH ao estímulo com GnRH, realizado em estádio pré-puberal em pacientes com hipopituitarismo acompanhados até a idade puberal, são úteis para predizer o diagnóstico da deficiência de gonadotrofinas, principalmente nas meninas. O estudo da região codificadora do gene LH em pacientes com hipogonadismo hipogonadotrófico e concentrações normais de LH revelou 5 variantes alélicas. A freqüência das variantes alélicas Arg8 e Thr15 foi similar entre hipogonádicos e adultos normais e a sua presença não interferiu nas concentrações séricas do LH. O estudo das isoformas do LH mostrou um predomínio das isoformas ácidas do LH em hipogonádicos e indivíduos normais, não permitindo atribuir à sua presença a baixa atividade biológica do LH imunorreativo encontrado em 13% dos hipogonádicos / LH and FSH responses to GnRH stimulation carried out in the pre-pubertal stage in patients with hypopituitarism followed until the pubertal stage are useful tools for predicting the gonadotropin deficiency diagnosis, especially in girls. The study of the codifying region of the LH gene in patients with hypogonadotropic hypogonadism and normal LH levels disclosed 5 allelic variants. The frequencies of the allelic variants Arg8 and Thr15 were similar between hypogonadic and normal adults, and their presence did not alter serum LH levels. The study of LH isoforms showed a predominance of acid LH isoforms in hypogonadic and normal subjects, which does not allow us to ascribe to their presence the low biological activity of the immunoreactive LH, found in 13% of the hypogonadic individuals

Chromatography

Cromatografia

Fluorimunoensaio

Fluoroimmunoassay

Freqüência do gene

Gene frequency

Glicoproteínas

Glycoproteins

Hipogonadismo/diagnóstico

Hipopituitarismo

Hypogonadism/diagnosis

Hypopituitarism

Biologia da proteína prion celular / Cellular prion protein biology

Kil Sun Lee

30 December 2002

O prion celular (PrPc) é uma glicoproteína ligada à membrana plasmática por uma âncora de GPI (glycosylphosphatidylinositol). A sua isoforma anormal (PrPsc) é uma molécula infecciosa que causa várias doenças neurodegenerativas em mamíferos. A etiologia dessas doenças está associada a uma mudança conformacional pós-traducional de PrPc que ocorre após sua internalização (Prusiner, 1998). Na tentativa de desvendar as funções fisiológicas de PrPc, nosso grupo tem identificado e caracterizado as interações celulares que PrPc participa. A primeira delas é a interação entre PrPc e STI1 (Stress Inducible Protein 1). Essa interação transduz sinalização por cAMP e PKA levando a neuroproteção contra morte celular programada (Chiarini e cols, 2002; Zanata e cols, 2002). A segunda é a interação específica que existe entre PrPc e as proteínas da matriz extracelular, laminina e vitronectina, contribuindo para os processos neuronais, tais como crescimento, manutenção (Graner e cols., 2000 a e b) e regeneração dos neuritos (Hajj e cols., submetido), além da formação de memória de curta e longa duração (Coitinho e cols., submetido). Na primeira parte deste trabalho, procuramos investigar os genes regulados pelos sinais resultantes dessas interações e também pela remoção de PrPc usando a técnica de \"differential display\'\' RT-PCR. Na segunda parte do trabalho, caracterizamos que a interação PrPc - laminina é capaz de induzir uma sinalização transitória de cálcio, a qual ocorre mesmo na ausência de cálcio do meio extracelular. PrPc é uma molécula que cicla continuamente entre a membrana plasmática e os compartimentos intracelulares. Estudos recentes têm correlacionado o processo de internalização de PrPc com alguns dos seus papeis fisiológicos, tais como, homeostase de Cu2 + (Brown, 2001 ), interação com receptor de laminina (Gauczynski e cols, 2001) e até na conversão de PrPc para PrPsc (McKinley e cols, 1991; Arnold e cols, 1995). Portanto, na terceira parte deste trabalho, caracterizamos a localização e o tráfego celular de PrPc mostrando que PrPc está localizado na membrana plasmática e em compartimentos intracelulares e que trafega pelo Golgi, membrana plasmática, endossomos iniciais e de reciclagem. Foram mapeados ainda domínios na região amino-terminal responsáveis pela internalização de PrPc e na região carboxi-terminal como participantes da via secretora. Este trabalho contribuiu para o esclarecimento de alguns eventos biológicos relacionados à sinalização e ao tráfego de PrPc. Estes achados são de grande importância para a determinação das funções celulares de PrPc e ainda dos mecanismos envolvidos com as doenças relacionadas com esta molécula. / The cellular prion protein (PrPc) is a glycoprotein anchored to the plasma membrane by GPI (Glycosyl-phosphatidylinositol). Its abnormal isoform (PrPsc) is the infectious protein responsible for several neurodegenerative diseases. The main etiology of the prion diseases is related to conformational changes in the PrPc molecule, which occur after its internalization (Prusiner, 1998). In order to elucidate the physiological functions of PrPc, our group identified and characterized interactions between PrPc and other cellular molecules. The first is the interaction between PrPc and STI 1 (Stress Inducible Protein 1). This interaction has an important role in the neuroprotection against apoptosis through cAMP and PKA signaling (Chiarini et al., 2002; Zanata et al., 2002). PrPc also interacts with proteins of the extracellular matrix such as laminin and vitronetin. These interactions contribute for neurite outgrowth, maintenance and regeneration (Graner et al., 2000 a and b; Hajj et al., submitted) and also in memory formation (Coitinho et al., submitted). In the first part of this work we have applied the differential dysplay RTPCR technique in order to identify genes that are regulated by PrPc - STI 1 interaction and also by the deletion of PrPc. In the second part we have demonstrated that PrPc-laminin interaction induces transient calcium signaling in neuronal cells, which occurs even in the absence of extracellular calcium. PrPc cycles continuously between the plasma membrane and intracellular compartments. This mechanism is associated with some of the physiological function of PrPc, such as Cu2+ homeostasis (Brown, 2001 ), interaction with laminin receptor (Gauczynski et al., 2001 ), and PrPc conversion into PrPsc (McKinley et al., 1991; Arnold et al., 1995). Thus, in the third part of this project, we have characterized the PrPc localization at the cell surface and in intracellular compartments. The protein trafficking through Golgi apparatus, plasma membrane, early and recycling endosomes was also defined. Moreover, we have determinated that N-terminus PrPc domain is responsible for its internalization while C-terminus participates in PrPc delivery. Therefore, this work has contributed to elucidate biological events related to the cell signaling and trafficking of PrPc, which are important for the characterization of PrPc physiological functions and to understand the pathological mechanisms related to this molecule.

Biologia celular

Biologia molecular

Construção de vetores de expressão

Glicoproteínas da membrana

Prion

Proteínas da membrana

Tráfego intracelular

Cell biology

Construction of expression vectors

Intracellular traffic

Membrane glycoproteins

Membrane proteins

Molecular biology

Prion

Molecular genetic studies on cystinuria

Harnevik, Lotta

January 2007

Cystinuria is defined as an inherited disorder characterized by increased urinary excretion of cystine and the dibasic amino acids arginine, lysine and ornithine. The only clinical manifestation of cystinuria is renal cystine stone formation due to the low solubility of cystine in the urine. Cystinuria can be attributed to mutations in the SLC3A1 and SLC7A9 genes in the majority of all cases and it has been a common expectation that molecular genetic studies of cystinuria would aid in understanding of the varying clinical outcome seen in the disease. Besides human, the disease has been most extensively studied in the domestic dog. The present study was undertaken to investigate the molecular genetic basis of cystinuria in patients from Sweden and to correlate genetic findings with phenotypes produced regarding cystine and dibasic amino acid excretion. Further, attempts were made to elucidate the molecular genetics of cystinuria in the dog. The entire coding sequences of the SLC3A1 and SLC7A9 genes were analysed by means of SSCA and DNA sequencing in 53 cystinuria patients and genetic findings were related to urinary excretion of cystine and dibasic amino acids in a subset of the patient group. We detected a total number of 22 different mutations in the SLC3A1 and SLC7A9 genes, 18 of which were described for the first time. We have found a probable genetic cause of cystinuria in approximately 74 % of our patients and a possible contribution to the disease in another 19 %. Mutations in the SLC3A1 gene is the major cause of cystinuria in our group, with only a minor contribution of SLC7A9 mutations. The group of patients presenting SLC3A1 mutations in a heterozygous state or lacking mutations in both genes had higher values of total urinary cystine and dibasic amino acids compared to patients homozygous for SLC3A1 mutations. The reason for this discrepancy remains unclear, but the possible impact of medical treatment with sulfhydryl compounds on total cystine values was ruled out. Sequencing of the full-length canine SLC7A9 cDNA was accomplished using the RACE technology and results from mutation analyses of SLC7A9 and SLC3A1 in cystinuric dogs showed that only two out of 13 dogs have mutations with possible impact on protein function in these genes. DNA sequencing was used for all exons of both genes in the dog, and in human cystinuria patients, all samples lacking mutations or showing heterozygosity after SSCA screening were sequenced in both genes as well. This implies that all point mutations present have been detected, but the possibility of mutations escaping PCR based methods as well as mutations in regulatory parts of the SLC3A1 and SLC7A9 genes remains in cases lacking a full molecular genetic explanation of the disease. Finally, clinical and genetic data from our study of cystinuria both in man and dog exemplifies that manifestation and clinical severity of cystinuria is not determined by genetic alterations in the SLC3A1 and SLC7A9 alone. Environmental factors, congenital malformations and modulating genetic factors are all possible contributors to the clinical outcome of cystinuria.

Amino acid transport systems

Amino acids diamino

Mutation

Sulphydryl compounds

urine

Cystine

Carrier proteins

Cystinuria

DNA mutational analysis

Dog diseases

genetic

Membrane glycoproteins

Medical genetics

Medicinsk genetik

Biomolecular strategies for cell surface engineering

Wilson, John Tanner

09 January 2009

Islet transplantation has emerged as a promising cell-based therapy for the treatment of diabetes, but its clinical efficacy remains limited by deleterious host responses that underlie islet destruction. In this dissertation, we describe the assembly of cell surface-supported thin films that confer molecular-level control over the composition and biophysicochemical properties of the islet surface with implications for improving islet engraftment. Specifically, the process of layer-by-layer (LbL) polymer self assembly was employed to generate nanothin films of diverse architecture with tunable properties directly on the extracellular surface of individual islets. Importantly, these studies are the first to report in vivo survival and function of nanoencapsulated cells, and have helped establish a conceptual framework for translating the diverse applications of LbL films to cellular interfaces. Additionally, through proper design of film constituents, coatings displaying ligands and bioorthogonally reactive handles may be generated, providing a modular strategy for incorporating exogenously derived regulators of host responses alongside native constituents of the islet surface. Towards this end, a strategy was developed to tether thrombomodulin to the islet surface in a site-specific manner, thereby facilitating local generation of the powerful anti-inflammatory agent, activated protein C. Collectively, this work offers novel biomolecular strategies for cell surface engineering with broad biomedical and biotechnological applications in cell-based therapeutics and beyond.

Cell encapsulation

Islet transplantation

Cell surface engineering

Layer-by-layer self assembly

Thrombomodulin

Conformal coating

Cell membranes

Glycoproteins

Islands of Langerhans

Islands of Langerhans Transplantation

Structural and functional characterization of yellow head virus proteins

Chumporn Soowannayan

Unknown Date

Abstract Yellow head virus (YHV) has caused mass mortalities in Penaeus monodon shrimp farmed throughout Southeast Asia since it was first discovered in the early 1990’s. YHV possesses a positive-sense, single-stranded RNA genome and a rod-shaped enveloped virion. Together with the closely related gill-associated virus (GAV) identified in P. monodon shrimp in Australia, it is classified in the genus Okavirus, family Roniviridae within the order Nidovirales. YHV particles contain only three structural proteins, a nucleocapsid (N) protein (p20) protein and two envelope glycoproteins gp116 and gp64. In this study, the glycosylation status of gp116 and gp64 extracted from YHV virions was characterized in detail, including the identification of active N-linked glycosylation sites and the nature of the attached carbohydrates. This was achieved by optimizing and applying a combination of methods that included SDS-PAGE followed by carbohydrate-specific staining of gels or probing of membrane-bound proteins using lectins with different carbohydrate specificities, enzymatic removal of N-linked carbohydrates and a variety of mass spectrometry techniques. In these analyses, it was found that N-linked glycans are the major contributor to the higher estimated mass of gp116 and gp64 by SDS-PAGE compared to those estimated from their deduced amino acid sequences. Neither gp116 nor gp64 were found to posses O-linked glycans. Mannose residues were identified to be the major glycan component of carbohydrates linked to gp116 and gp64 and are possibly the sole component of carbohydrate linked to gp64. Unlike gp64, other glycans such as terminal N-acetyl--D-galactosamine and N-acetyl--D-glucosamine were identified to be attached to gp116. Assuming that glycosylation processes in shrimp mimic those of vertebrates that are known in more detail, the nature of the glycans attached to gp116 suggests that they might be added and modified during the transportation of the protein from the endoplasmic reticulum (ER) to the trans-Golgi network (TGN). Mass spectrometry analyses of tryptic peptides derived from the native glycoproteins and following their enzymatic deglycosylation, generated approximately 81% (gp116) and 66% (gp64) coverage of their predicted amino acid sequences. Detailed mass spectrometry analyses of peptides derived from the deglycosylated proteins identified that most of the potential N-linked glycosylated site in the virion envelope glycoproteins, 6 of 7 present in gp116 and 3 of 4 present in gp64 were identified to be modified by glycans. In gp116, one site was not identified and in gp64 one site was not utilized. As phosphorylation has been shown to affect nucleocapsid protein (N) functioning in vertebrate nidoviruses, SDS-PAGE using two phosphoprotein-specific staining methods, as well as mass spectrometry methods, were employed to examine whether the YHV N protein present in virions is phosphorylated. The protein staining methods provided contradicting results and no phosphate-containing peptides were identified by mass spectrometry. The apparent absence of phosphate in the N protein was also supported by its isoelectric point (pI ~10) determined by isoelectric focusing and two-dimensional electrophoresis (2-DE) analysis, which was very similar to that predicted (pI = 9.98) from its deduced amino acid sequence. Taken together, the data suggest that the YHV N protein encapsulated within virions is not phosphorylated. The RNA-binding capability of the GAV N protein was assessed using an electrophoretic mobility shift assay (EMSA) technique. Full-length and variously truncated forms of the GAV N protein expressed in bacteria were assessed in the assays. It was found that the full-length recombinant N protein bound to RNA in a sequence non-specific manner. Analysis of the five truncated N protein constructs localized the RNA-binding domain to a 50 amino acid sequence in the N-terminal region residing between Met11 and Arg60. A motif rich in proline and arginine residues, which are commonly found in other RNA-binding proteins, occurred in first 18 amino acids of this region. Although RNA-binding was not sequence-specific, the data suggest that this region of the GAV N protein is the most likely site at which it interacts with and nucleates viral genomic RNA during nucleocapsid formation. A synthetic peptide spanning the 18 amino acid of the putative RNA-binding domain was shown to possess RNA-binding properties similar to the recombinant protein fragment. These results indicated that the 18 amino acid, proline and arginine rich motif (MPVRRPLPPQPPRNARLI) in the N-terminal region of the GAV N protein confers its RNA-binding function. Using an immuno-co-precipitation assay, a host protein was found to interact abundantly with the GAV N protein in infected lymphoid organ cells. Mass spectrometry analysis identified the protein as -actin. Immuno-histochemistical double-labeling methods in conjunction with observations made using confocal and electron microscopy revealed that actin and the N protein were co-located in cytoplasm of infected cells. Electron microscopy suggested that interaction of the two proteins occurs before nucleocapsid envelopment within virions, suggesting that -actin might be involved in transporting the N protein or the nucleocapsid from their sites of synthesis to the rough endoplasmic reticulum where the virion acquires its envelopes. In summary, the research described in this thesis has advanced understanding of the YHV/GAV proteome through the identification of the glycosylation sites in the envelope glycoproteins gp116 and gp64, and demonstrating that nucleocapsid protein encapsulated within virion is unlikely to be phosphorylated. Functional studies have also shown that the nucleocapsid protein binds RNA non-specifically through an 18 amino acid domain near its N-terminus and that it binds and co-localizes with -actin in infected cells, suggesting that -actin may play role in trafficking N protein in infected cells.

yellow head virus (YHV)

gill-associated virus (GAV)

glycosylation

phosphorylation

immuno-co-precipitation

immunohistochemistry

nucleocapsid protein

envelope glycoproteins

actin

protein-protein interaction

Molecular genetic studies on cystinuria /

Harnevik, Lotta,

January 2007

Diss. (sammanfattning) Linköping : Linköpings universitet, 2007. / Härtill 4 uppsatser.

"Hipogonadismo hipogonadotrófico: diagnóstico pré-puberal e papel das isoformas e variantes gênicas do hormônio luteinizante no fenótipo da doença" / Hypogonadotropic hypogonadism : pre-pubertal diagnosis and the role of the isoforms and allelic variants of the luteinizing hormone in the disease phenotype

Karina Berger

09 June 2006

A resposta do LH e do FSH ao estímulo com GnRH, realizado em estádio pré-puberal em pacientes com hipopituitarismo acompanhados até a idade puberal, são úteis para predizer o diagnóstico da deficiência de gonadotrofinas, principalmente nas meninas. O estudo da região codificadora do gene LH em pacientes com hipogonadismo hipogonadotrófico e concentrações normais de LH revelou 5 variantes alélicas. A freqüência das variantes alélicas Arg8 e Thr15 foi similar entre hipogonádicos e adultos normais e a sua presença não interferiu nas concentrações séricas do LH. O estudo das isoformas do LH mostrou um predomínio das isoformas ácidas do LH em hipogonádicos e indivíduos normais, não permitindo atribuir à sua presença a baixa atividade biológica do LH imunorreativo encontrado em 13% dos hipogonádicos / LH and FSH responses to GnRH stimulation carried out in the pre-pubertal stage in patients with hypopituitarism followed until the pubertal stage are useful tools for predicting the gonadotropin deficiency diagnosis, especially in girls. The study of the codifying region of the LH gene in patients with hypogonadotropic hypogonadism and normal LH levels disclosed 5 allelic variants. The frequencies of the allelic variants Arg8 and Thr15 were similar between hypogonadic and normal adults, and their presence did not alter serum LH levels. The study of LH isoforms showed a predominance of acid LH isoforms in hypogonadic and normal subjects, which does not allow us to ascribe to their presence the low biological activity of the immunoreactive LH, found in 13% of the hypogonadic individuals

Cromatografia

Fluorimunoensaio

Freqüência do gene

Glicoproteínas

Hipogonadismo/diagnóstico

Hipopituitarismo

Chromatography

Fluoroimmunoassay

Gene frequency

Glycoproteins

Hypogonadism/diagnosis

Hypopituitarism

Mecanismos de formação da LDL eletronegativa (LDL-): efeito da glicoxidação e da lipólise / Mechanisms of formation of electronegative LDL (LDL‾): the effect of glycoxidation and lipolysis

Katia Kioko Yuahasi

28 June 2005

A fração plasmática da lipoproteína de baixa densidade (LDL) é formada por partículas de diferentes tamanhos, carga e densidade. Baseada na diferença de carga das partículas, a LDL pode ser subfracionada em LDL nativa (nLDL) e LDL eletronegativa (LDL‾). A LDL‾ está presente no plasma e possui propriedades aterogênicas e pró-inflamatórias, assim como, possui menor concentração de antioxidantes lipossolúveis, maior concentração de dienos conjugados, alterações conformacionais da apoliproteína B-100 e menor afinidade para o receptor da LDL em comparação com a nLDL. Concentrações elevadas de LDL‾ têm sido observadas em pacientes com alto risco para o desenvolvimento de doenças cardiovasculares, incluindo hipercolesterolemia familiar, diabetes. Considerando-se que os mecanismos envolvidos na formação endógena da LDL‾ ainda não estão elucidados, neste estudo foi investigado o efeito da glicoxidação e da lipólise sobre a partícula LDL para avaliar a contribuição destes processos para a formação da LDL‾ in vitro e in vivo. As modificações químicas da LDL e da imunorreatividade com anticorpo monoclonal anti-LDL‾ foi analisada antes e depois da incubação do plasma com lipoproteína lipase (LPL) ou fosfolipase A2 (PLA2), assim como mimetizando-se a lipólise intravascular. Além disso, na lipólise in vivo foi monitorado no periodo pós-prandial em indivíduos normolipidêmicos para investigar a LDL‾ formada endogenamente. A contribuição da glicoxidação para a geração de LDL‾ foi avaliada in vitro pela incubação da LDL com glicose. O efeito da glicoxidação endógena foi monitorada pela medida, ex-vivo, dos os produtos de glicação avançada (AGEs) e LDL‾ no plasma de pacientes diabéticos tipo I (DM I), tipo II (DM II) e indivíduos intolerantes à glicose (IGT). O processo de glicação não enzimática, in vitro, resultou no aumento da concentração de LDL‾. Os indivíduos dos grupos DM I, DM II e IGT apresentaram concentrações plasmáticas elevadas de LDL‾ em relação aos seus respectivos controles, enquanto observou-se aumento de AGEs apenas nos grupos DM I e DM II. O processo de lipólise in vitro mediado pela LPL e PLA2, induziu aumento significante da concentração de LDL‾; entretanto, somente pela ação da LPL foi associada com modificações oxidativas. Em concordância, o processo de lipólise in vivo (pós-prandial) também promoveu aumento significativo da concentração de LDL‾ associado com modificações oxidativas. Conclusão, nossos dados mostram que, glicoxidação e de lipólise, poderiam contribuir na formação da LDL‾ in vivo. / The low density lipoprotein (LDL) fraction in blood plasma is formed by particles with different size, charge and density. Based on particle charge differences, LDL fraction may be separated into native (nLDL) and electronegative (LDL‾) subfractions. LDL‾ is present in blood plasma and has atherogenic and proinflammatory properties, as well as, lower concentrations of lipid soluble antioxidants, higher content of conjugated dienes, conformational alterations of apolipoprotein B-100 and lower affinity by LDL receptor in comparison to nLDL. Increased LDL‾ concentrations have been found in subjects with high risk for cardiovascular diseases, including those with familiar hypercholesterolemia, diabetes and hyperlipidemia. Considering that the mechanisms involved in the endogenous generation of LDL‾ are not yet well elucidated, in this study the effect of glucoxidation and lipolysis of LDL particles was investigated in order to evaluate their contribution to in vitro e in vivo LDL‾ formation. LDL chemical modifications and its reactivity towards a monoclonal anti-LDL‾ antibody were analyzed before and after incubation of either plasma or LDL with lipoprotein lipase (LPL) or phospholipase A2 (PLA2) as an in vitro lipolysis biomimetic system. Moreover, in vivo lipolysis was monitored at the post-prandial period in normolipidemic subjects to investigate LDL‾ endogenously formed. The contribution of glucoxidation to LDL‾ generation was evaluated in vitro by incubating LDL with glucose. The effect of endogenous glucoxidation was monitored by ex-vivo measurement of advanced glycation end products (AGES) and LDL‾ in blood plasma of type I (DM I) and II (DM II) diabetic patients, as well as, in subjects with glucose intolerance (IGT). The in vitro non-enzymatic glycation resulted in increased LDL‾ formation. The DM I, DM II and IGT groups showed higher LDL‾ concentrations than the respective control groups, while AGEs were increased only in DM I e DM II groups. The in vitro lipolysis mediated by LPL and PLA2 induced a significant increase of LDL‾; however, only LPL action was also associated to LDL oxidative modification. In accordance, in vivo lipolysis (post-prandial) also promoted a significant increase of LDL‾ levels associated to LDL oxidative modification. In conclusion, our data show that both, glycoxidation and lipolysis, could contribute to in vivo LDL‾generation.

Bioquímica clínica

Diabetes mellitus (Estudo clínico)

Glicoproteínas (Metabolismo)

Clinical biochemistry

Diabetes mellitus (Clinical study)

Glycoproteins (Metabolism)

Estudo imuno-histoquímico de β2-glicoproteína I em fígado e intestino de ratos submetidos à sepse pela via endovenosa ou associada à translocação bacteriana / β2-glycoprotein expression in sepsis: an immunohistochemical study of rat liver and intestine following endovenous inoculation or bacterial translocation

Sheila Vieira da Cruz Augustinis

23 September 2005

β2-glicoproteina I (β2GPI), uma proteína circulante produzida em fígado e intestino, foi estudada no fígado e íleo de ratos durante sepse controlada (S) ou translocação bacteriana (TB) com E. coli R-6. A sepse foi induzida por inoculação endovenosa de 109 UFC/mL/100g. A TB, pelo confinamento de 10 mL 1010 UFC/mL, no intestino. Grupos controle receberam veículo. Após 2h, os animais foram sacrificados. β2GPI foi espressa nos tecidos de todos animais, em cortes fixados em metacarn e impregnados com parafina, após reação com anti-β2GPI amplificada com Envision-AP. O fígado mostrou dois padrões citoplasmáticos distintos. Um padrão difuso, atribuído à síntese protéica, aumentado somente no grupo S e um padrão focal, invariável. No íleo, a mucosa foi negativa; a submucosa, o endotélio sangüíneo e linfático, positivos. Esta marcação aumentou somente no grupo TB. Os resultados sugerem a participação da β2GPI na regulação local da resposta hepática e intestinal de fase aguda. / β2-glycoprotein I is a circulating protein (β2GPI) produced in liver and intestines. β2GPI was studied in liver and ileum in rats under controlled sepsis (S) or bacterial translocation (BT) with E. coli R-6. Sepsis was induced by endovenous inoculation with 109 CFU/mU100g. BT was induced by confining 10 mL 1010 CFU/mL, to the intestine. Control groups received vehicle. After 2h, animals were sacrificed. Metacarn fixed, paraffin embedded tissue slices were reacted with monoclonal anti-β2GPI, revealed with Envision-AP and hematoxylin counterstained. Ali animals stained for β2GPI in the liver and ileum. Liver presented two distinct cytoplasm staining patterns. The diffuse pattern, ascribed to protein synthesis, increased in group S animals only. The spotted pattern was invariant. Ileum mucosa was negative, while submucosa, blood and Iymphatic endothelium were positive. The ileum staining increased after TB, only. Results underline the hypothesis for locally regulated liver and intestine contribution to acute phase response modulation.

β2-glicoproteina I

Glicoproteínas (Imunologia)

Imuno-histoquímica

Imunologia (Experimentos)

Sepse

Testes imunológicos (Experimentos)

β2-glycoprotein I

Glycoproteins (Immunology)

Immunohistochemistry

Immunological tests (Experiments)

Immunology (Experiments)

Sepsis