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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
11

Interactions of MHC class I molecules with peptide ligands and [beta]₂-microglobulin

Robinson-Smith, Ruth A. January 1996 (has links)
Thesis (Ph. D.)--University of Missouri--Columbia, 1996. / Typescript. Vita. Includes bibliographical references (leaves : [128]-155). Also available on the Internet.
12

Does Pauling and Corey's alpha-pleated sheet define the prefibrillar amyloidogenic intermediate in amyloid disease? /

Armen, Roger S. January 2004 (has links)
Thesis (Ph. D.)--University of Washington, 2004. / Vita. Includes bibliographical references (leaves 196-228).
13

Amyloid-forming peptides from beta2-microglobulin-Insights into the mechanism of fibril formation in vitro.

Jones, Susan, Kad, N.M., Manning, J., Radford, S.E. January 2003 (has links)
No / ß2-Microglobulin (ß2m) is one of over 20 proteins known to be involved in human amyloid disease. Peptides equivalent to each of the seven ß-strands of the native protein, together with an eighth peptide (corresponding to the most stable region in the amyloid precursor conformation formed at pH 3.6, that includes residues in the native strand E plus the eight succeeding residues (named peptide E¿)), were synthesised and their ability to form fibrils investigated. Surprisingly, only two sequences, both of which encompass the region that forms strand E in native ß2m, are capable of forming amyloid-like fibrils in vitro. These peptides correspond to residues 59¿71 (peptide E) and 59¿79 (peptide E¿) of intact ß2m. The peptides form fibrils under the acidic conditions shown previously to promote amyloid formation from the intact protein (pH <5 at low and high ionic strength), and also associate to form fibrils at neutral pH. Fibrils formed from these two peptides enhance fibrillogenesis of the intact protein. No correlation was found between secondary structure propensity, peptide length, pI or hydrophobicity and the ability of the peptides to associate into amyloid-like fibrils. However, the presence of a relatively high content of aromatic side-chains correlates with the ability of the peptides to form amyloid fibrils. On the basis of these results we propose that residues 59¿71 may be important in the self-association of partially folded ß2m into amyloid fibrils and discuss the relevance of these results for the assembly mechanism of the intact protein in vitro.
14

Predicting the efficacy of monoclonal antibodies against multiple myeloma / 多発性骨髄腫に対する抗体療法の有効性の予測

Shimazu, Yutaka 25 March 2024 (has links)
京都大学 / 新制・論文博士 / 博士(医学) / 乙第13603号 / 論医博第2313号 / 新制||医||1073(附属図書館) / 京都大学大学院医学研究科医学専攻 / (主査)教授 森田 智視, 教授 佐藤 俊哉, 教授 永井 純正 / 学位規則第4条第2項該当 / Doctor of Medical Science / Kyoto University / DFAM
15

Modifikace myších nádorových linií systémem CRISPR/Cas9 a charakterizace jejich vlastností / Modification of murine tumor cell lines with CRISPR/Cas9 system and their characterization

Lhotáková, Karolína January 2019 (has links)
MHCI molecules are constitutively expressed in all nucleated cells and play a key role in antigen presentation to CD8+ T lymphocytes. One of the tumor immune evasion strategies is MHCI expression downregulation. This leads to an impaired recognition of tumor antigens by CD8+ T lymphocytes that are unable to start the immune response. Since the MHCI expression downregulation occurs in up to 90 % of some tumors it is neccesary to have a clinical relevant tumor model without a MHCI surface expression that would be used for testing of immunotherapeutic approaches. This thesis describes a production of new model cell lines of TC-1 tumor cells with irreversibly downregulated MHCI. That was achieved by an inactivation of B2m, which is a part of MHCI, by gene editing using CRISR/Cas9. The B2m inactivation was confirmed by flow cytometry, western blot and sanger sequencing of single alleles. The inactivation slowed down the cell growth for both in vitro and in vivo. The cell metastatic activity was not affected. The tumors established by cells without the B2m expression are not sensitive to DNA vaccine against HPV16 E7 oncoprotein by a pBSC/PADRE.E7GGG vaccine. The main effector function against these tumors possess the NK1.1+ cells. In a therapeutic vaccination experiment it was repeatedly achieved of...
16

NK cell recognition : adaptability to host factors in normal and diabetic mice /

Johansson, Sofia, January 2005 (has links)
Diss. (sammanfattning) Stockholm : Karolinska institutet, 2005. / Härtill 4 uppsatser.
17

Etude du repliement des protéines par RMN temps réel et autres méthodes biophysiques : l'exemple de la Beta-2-microglobuline / Folding of proteins studied by real time NMR and other biophysical methods : the example of Beta-2-microglobulin : the example of Beta-2-microglobulin

Cutuil, Thomas 14 December 2012 (has links)
La Beta-2-microglobuline est une protéine de 12kDa, impliquée dans une maladie dûe à un mauvais repliement: l'amylose liée à la dialyse. Elle constitue donc un modèle pour la formation de fibrilles amyloides et pour le repliement des protéines. La B2M est un objet à la fois difficile et fructueux à étudier. La production de B2M est complexe et demande une optimisation important pour obtenir une protéine correctement repliée et atteindre des rendements approprié pour des études de RMN et SAXS. Le repliement de la B2M est sensible au solvent, à la température, à la concentration et souvent aux conditions de préparation. Pourtant notre étude, à l'aide de plusieurs méthodes biophysiques, a pu révéler plusieurs faits essentiels de son mécanisme de repliement et de la structure et propriétés des intermédiaires. Un premier résultat est que le repliement et l'oligomérisation sont deux processus concourants. Une découverte majeure est l'existence d'un équilibre monomère oligomère entre deux états I1 et I2 intermédiaires du repliement. Détecté indirectement à l'aide de RMN temps réel comme SOFAST, I2 a été directement charactérisé en SAXS: Il s'agit probablement d'un dimère. Les états intermédiaires de repliement de B2M avaient été pointés comme favorisant la formation de fibrilles: cela s'explique facilement avec l'existence d'un intermédiaire dimérique. Une combinaison de méthodes biophysiques permet la caractérisation de cet équilibre monomère-oligomère. En SAXS, puis confirmé en RMN, la stoichiométrie de l'équilibre est celle d'un monomère-dimère. Des travaux complémentaires utilisant les techniques développées pour cette étude pourront servir à caractériser plus finement cet équilibre. L'étude approfondie du repliement de B2M pousse les techniques biophysiques dans leurs retranchements: la sensibilité et le temps d'acquisition pour la RMN, la polydispersité pour le SAXS. Pourtant dans les deux cas un grand oligomère I3, qui disparait en quelques minutes, a pu être détecté, ce qui fut confirmé par UV-Fluo. La caractérisation d'I3 demandera des dévelopements méthodologiques supplémentaires, ainsi qu'un nouveau plan d'expérience. D'autres méthodes comme la spectrométrie de masse nano-ESI pourraient représenter des sources d'information utiles. S'attaquer aux limites des méthodes biophysiques pousse au développement méthodologique. Ainsi pour étudier la structure et dynamique d'I1, la méthode d'acquisition continue des données a permis l'attribution des résonnances de cette espèce qui a une demi vie de quelques dizaines de minutes. Un échange conformationnel a été découvert pour l'état I1 du mutant W60G, en développant une méthode de relaxation RMN: R2-BEST-TROSY. Les méthodes développées pour cette étude pourront servir des études sur le repliement d'autres protéines, mais aussi dans d'autres contextes où la demi-vie des objets étudiés est courte, comme dans les expérience RMN intracellulaires. Cette étude est évidemment éloignée d'une application directe dans le combat contre les maladies du mauvais repliement des protéines. Pour autant, la découverte d'états intermédiaires oligomériques souligne que l'oligomérisation et le repliement ne devraient pas être étudiés séparément, mais sont des processus liés. Les développements méthodologiques de cette étude pourront aussi être appliqués à d'autres protéines comme à d'autres contexte. Il est donc permis d'espérer que ces questionnements et développements permettront d'avancer vers une meilleure compréhension de ces maladies. / Beta-2-microglobulin is a 12kDa protein, involved in a misfolding disease: dialysis related amyloidosis. It is therefore a model for amyloid fibril formation and protein folding studies. B2M is both a fruitful and difficult object of study. B2M production is complex, requiring optimization to obtain a well folded protein and reach yields suitable to NMR and SAXS studies. B2M folding is highly sensitive on buffer, temperature, concentration and often preparation conditions. Yet our studies, using several biophysical methods, revealed several essential facts of the folding mechanism and of the structure and dynamics of folding intermediates. A first outcome of our studies is that folding and oligomerization are co-existing processes. A major finding is the existence of a monomer-oligomer equilibrium between I1 and I2 folding intermediate states. Indirectly detected using real time NMR methods like SOFAST, I2 was directly detected and characterized using SAXS: I2 is likely to be a dimer. Folding intermediate states of B2M had been shown to favor fibril formation: this is easily explained by the existence of a dimeric folding intermediate state with an important population. A combination of biophysical methods allows the characterization of this monomer-oligomer equilibrium. Using SAXS, and later confirmed by NMR relaxation experiments, stoichiometry is shown to be a monomer-dimer equilibrium. Further work based on the methodology applied to the folding of the W60G-B2M mutant, including a further optimization of the sensitivity of the experiment, will give a sharper picture of the I1-I2 equilibrium for the WT protein, and may provide information on the timescale of the equilibrium. The thorough study of the folding of B2M pushes biophysical methods to their limits: sensitivity and acquisition time for NMR, polydispersity for SAXS. Yet in both cases a large oligomer (I3) that disappears within minutes was detected, and confirmed using UV-fluo. Characterization of I3 will demand further methodological developments, a new experimentation plan including a full dilution scale, or double jump experiments, for example. A question that arises is the comparison of this large oligomer and oligomeric intermediate states that are populated during the formation of fibrils. Other biophysical methods, such as ESI mass spectroscopy, may be an interesting input. Tackling the limits of biophysical methods leads to methodological developments. For example, to study the structure and dynamics of I1, the continuous data acquisition method allowed the assignment of this species that has a half-lifetime of tens of minutes. A conformational exchange was discovered for the I1 state of the W60G-B2M mutant, through the development of a spin relaxation measurement experiment: R2-BEST-TROSY. The methods developed for this study may be later used to study the folding and folding intermediate states of other proteins, such as alpha-lactalbumin , or in other contexts in which the short lifetime of the protein is an issue, as for in-cell NMR experiments. Our studies are of course far from an application or a concrete result in the fight against misfolding diseases such as dialysis related amyloidosis or Parkinson's. But the discovery of oligomeric folding intermediate states underlines that oligomerization (including fibril formation) and folding should not be studied separately, and are processes that are closely related. Methodological developments included in our work can be applied to other proteins as well as other contexts. Hopefully these questionings and developments will constitute a step forward a better understanding of this diseases.
18

Hereditary colorectal cancer : registration, screening and prognostic biomarker analysis

Barrow, Paul January 2015 (has links)
Aims: The purpose of the research was to investigate the benefits of a hereditary colorectal cancer registry in the management of patients and families with Lynch syndrome. In study one, a systematic review was performed to quantify the impact of registration and screening on colorectal cancer (CRC) incidence and mortality, with comparison between familial adenomatous polyposis (FAP) and Lynch syndrome (LS). In study two, a regional Lynch syndrome registry was utilised to evaluate the uptake of predictive testing and colorectal screening among first-degree relatives (FDRs) and investigate novel methods for engaging at-risk relatives, including an enhanced role for the general practitioner (GP). In study three, the registry was used to investigate proposed associations between Lynch syndrome and prostate and bladder cancer. In study four, mismatch repair-deficient (dMMR) CRCs from Lynch syndrome patients and randomised-controlled trials (RCTs) were used to evaluate a novel prognostic biomarker, beta-2 microglobulin (B2M). Methods: An electronic database search was conducted to identify studies describing CRC incidence and/or mortality in FAP or LS, with comparison of either: 1) screened and unscreened patients or 2) patients ‘before and after’ establishment of the registry. Using the Manchester regional Lynch syndrome registry database, the uptake of predictive testing and colorectal screening among FDRs was assessed with Kaplan-Meier analysis. Novel strategies for improving engagement were explored via a patient advisory group discussion and a regional primary care questionnaire. Cases of prostate and bladder cancer in male mutation carriers and their male FDRs were identified, and cumulative and relative risks were calculated, using expected rates from cancer registry data. DNA from 350 dMMR CRC specimens from Lynch syndrome patients and RCTs were tested for B2M mutations using Sanger sequencing, and correlated with clinical outcome. Results: 43 studies were included in the systematic review (33 FAP; 10 Lynch). Registry-based screening was associated with a significant reduction in CRC incidence and in Lynch syndrome, CRC-related mortality was negligible in those undergoing surveillance. 242 Lynch syndrome families were recorded on the Manchester Lynch syndrome registry. 329 of 591 (55.7%) eligible FDRs had undergone predictive testing. Uptake was significantly lower in males and younger age groups (<25 yrs). Compliance with colorectal screening was excellent following a mutation positive predictive test but poor in untested individuals (97.3% vs 35.0%). Eight prostate cancers were identified in 821 male LS mutation carriers and male FDRs. MSH2 mutation carriers had a ten-fold increased risk of prostate cancer (RR 10.41; 95%CI 2.80, 26.65) but no association with bladder cancer was identified. 69/286 (24.1%) of dMMR CRCs contained significant B2M mutations. B2M mutations were associated with complete absence of recurrence (0/39) during follow-up in the QUASAR trial (stage II), compared with 14/77 (18.2%) in wild-type B2M (p=0.005). Conclusion: Studies consistently report that registration and screening result in a reduction of CRC incidence and mortality in FAP and LS (Level 2a evidence, Grade B recommendation). Funding and managerial support for registries should be made available. Uptake of predictive testing and colorectal screening in Lynch syndrome could be substantially improved, particularly among males and younger age groups, but this requires advances in communication with at-risk relatives. It is unlikely that GPs will actively participate without considerable support from genetics services. A trial of PSA screening in MSH2 mutation carriers from 50 years would be appropriate. B2M mutation status has potential clinical utility as a prognostic biomarker in stage II dMMR CRC.
19

A expressão dos genes codificantes da proteína de interação com tiorredoxina, da beta 2 microglobulina e do transportador de tiamina 1, correlaciona-se com marcadores clínicos da doença renal em pacientes com diabetes tipo 1 / The expression of the genes encoding thioredoxin interacting protein, beta 2 microglobulin and thiamine transporter 1, correlates with clinical markers of renal disease in type 1 diabetes patients

Caillaud, Maria Beatriz Camargo Monteiro 20 January 2016 (has links)
A nefropatia diabética (ND) é uma das principais causas de doença renal terminal. Além da lesão glomerular, o compartimento tubulointersticial é afetado no desenvolvimento da ND, não somente pela proteinúria como pelos efeitos pró-inflamatórios, profibróticos, pró-oxidantes e angiogênicos da hiperglicemia e dos produtos finais de glicação avançada (AGEs). Sabese que as concentrações de marcadores do estresse oxidativo estão aumentadas em pacientes com diabetes mellitus (DM). O sistema tiorredoxina (TXN) é um dos principais sistemas antioxidantes endógenos. A TXN é capaz de interagir com um grande número de fatores de transcrição e proteínas, tal como a Thioredoxin interacting protein (TXNIP) que tem sido reconhecida na patogênese do DM e de suas complicações. Além da TXNIP, a deficiência de tiamina, ou vitamina B1, já foi relatada em modelos experimentais de DM, concomitantemente a um aumento de seu clearance renal. Os transportadores de tiamina 1 (THTR1) e 2 (THTR2) (codificados pelos genes SLC19A2 e SLC19A3, respectivamente) são os responsáveis pela reabsorção de tiamina no túbulo proximal após sua filtração pelo glomérulo. Estudos já demonstraram que a excreção aumentada de tiamina pode ser um fator de risco para o declínio precoce da função renal em pacientes DM. Uma outra proteína de interesse é a beta 2 microglobulina (B2M), expressa em situações que cursam com inflamação, um fenômeno bem caracterizado na tubulopatia diabética. O estudo da ativação intrarenal de vias potencialmente associadas à evolução da ND em humanos é dificultada pela necessidade de biópsia renal. Recentemente o sedimento urinário tem sido utilizado na avaliação das doenças renais, tanto na tentativa de identificar biomarcadores que possam predizer o declínio da função renal, como para o melhor entendimento da patogênese dessa complicação. O objetivo deste trabalho foi estudar a participação dos genesalvo TXNIP, TXN, SLC19A2, SLC19A3 e B2M na patogênese da ND em portadores de DM1. Estudamos o RNA mensageiro (mRNA) do sedimento urinário de pacientes DM1 (n=55), portadores de glomeruloesclerose segmentar e focal (GESF, um modelo de nefropatia não diabética, n=12) e de indivíduos controles (n=11) para avaliação da expressão dos genes-alvo, e sua associação com as manifestações da ND. Também foi extraído mRNA de células linfomononucleares de pacientes DM1 (n=162) e indivíduos controles (n=26) para comparação com os resultados obtidos no sedimento urinário e foram dosadas as concentrações plasmáticas de tiamina em um subgrupos de pacientes DM1 e de indivíduos controles. Além disso, uma linhagem de células renais humanas foi tratada com altas concentrações de glicose e albumina glicada ou não glicada in vitro para avaliar se os AGEs estão implicados na alteração de expressão dos genes-alvos. Como resultado observamos (1) um aumento na expressão de TXNIP e TXN no sedimento urinário de pacientes DM1 com doença renal e associação da expressão de TXNIP com a magnitude do declínio da taxa de filtração glomerular; (2) um aumento na expressão de TXNIP e TXN nas células linfomononucleares dos pacientes DM1; (3) um aumento na expressão de SLC19A2 no sedimento urinário de pacientes DM1 com doença renal; (4) uma diminuição nas concentrações plasmáticas de tiamina nos pacientes DM1 em comparação aos controles; (5) um aumento na expressão de B2M no sedimento urinário de pacientes DM1 com doença renal e (6) um aumento na expressão de TXNIP e B2M nas células renais humanas tratadas concomitantemente com altas concentrações de glicose e albumina glicada. Os resultados do presente estudo sugerem fortemente a participação do sistema TXN e da B2M na etiopatogênese da ND / Diabetic nephropathy (DN) is a major cause of end stage renal disease. Glomerular and tubulointerstitial compartments are affected not only by proteinuria but also by the pro-inflammatory, profibrotic, pro-oxidants and pro-angiogenic effects exerted by hyperglycemia and advanced glycation end products (AGEs) in the development of DN. It is well known that concentrations of oxidative stress markers are increased in patients with diabetes mellitus (DM). The thioredoxin system (TXN) is one of the majors endogenous antioxidant systems; TXN molecule is able to interact with a large number of transcription factors and proteins such as Thioredoxin interacting protein (TXNIP), which has been recognized in the pathogenesis of DM and its complications. Deficiency of thiamine, or B1 vitamin, has been reported in experimental models of DM concomitantly with an increase in its renal clearance. Thiamine transporter 1 (THTR1), encoded by the SLC19A2 gene and Thiamine transporter 2 (THTR2), encoded by the SLC19A3 gene are responsible for thiamine reabsorption in the proximal tubule after glomerular filtration. Studies have shown that increased urinary excretion of thiamine may be a risk predictor for an early decline in kidney function in diabetic patients. Another protein of interest is beta-2-microglobulin (B2M), expressed in situations of inflammation, a well-characterized phenomenon in diabetic tubulopathy. The study of activation or inactivation of intrarenal pathways potentially associated with progression of DN in humans is complicated by the need for renal biopsy. Recently urinary sediment has been used in the evaluation of kidney diseases in an attempt to identify biomarkers that can predict kidney function decline and as a tool for a better understanding of the pathogenesis of this complication. The objective of this work was to study the participation of the target genes TXNIP, TXN, SLC19A2, SLC19A3 and B2M in the pathogenesis of DN in type 1 DM (T1D) patients. We studied the urinary sediment messenger RNA (mRNA) from patients with T1D (n=55); with focal and segmental glomerulosclerosis (FSGS, a non diabetic nephropathy model, n=12) and from control subjects (n=11) to assess the expression of the target genes and their association with the severity of DN. We also studied the mRNA expression of peripheral lymphomononuclear (PLMN) cells from T1D patients (n=162) and control subjects (n=26) in order to compare with the results obtained in the urinary sediment. Plasmatic concentrations of thiamine were also measured in a subgroup of T1D patients and control subjects. In addition, a lineage of human kidney cells was exposed to high glucose concentrations and to glycated and non-glycated albumin to evaluate if AGEs are implicated in the modulation of expression of the target genes. As a result we found that (1) TXNIP and TXN are upregulated in the urinary sediment of T1D patients with kidney disease and TXNIP is associated with the magnitude of glomerular filtration rate decline; (2) TXNIP and TXN are upregulated in PLMN cells from T1D patients; (3) SLC19A2 is upregulated in the urinary sediment of T1D patients with kidney disease; (4) T1D patients present decreased plasmatic thiamine concentrations compared to control subjects; (5) B2M is upregulated in the urinary sediment of T1D patients with kidney disease and (6) TXNIP and B2M are upregulated in human kidney cells exposed concomitantly to high glucose concentrations and glycated albumin. The results of the present study strongly suggest the participation of the TXN system and of B2M in the pathogenesis of DN. Descriptors: diabetes mellitus, diabetic nephropathies, urine, glycosylation end products, advanced, thiamine, thioredoxins, beta 2-microglobulin Diabetic nephropathy (DN) is a major cause of end stage renal disease. Glomerular and tubulointerstitial compartments are affected not only by proteinuria but also by the pro-inflammatory, profibrotic, pro-oxidants and pro-angiogenic effects exerted by hyperglycemia and advanced glycation end products (AGEs) in the development of DN. It is well known that concentrations of oxidative stress markers are increased in patients with diabetes mellitus (DM). The thioredoxin system (TXN) is one of the majors endogenous antioxidant systems; TXN molecule is able to interact with a large number of transcription factors and proteins such as Thioredoxin interacting protein (TXNIP), which has been recognized in the pathogenesis of DM and its complications. Deficiency of thiamine, or B1 vitamin, has been reported in experimental models of DM concomitantly with an increase in its renal clearance. Thiamine transporter 1 (THTR1), encoded by the SLC19A2 gene and Thiamine transporter 2 (THTR2), encoded by the SLC19A3 gene are responsible for thiamine reabsorption in the proximal tubule after glomerular filtration. Studies have shown that increased urinary excretion of thiamine may be a risk predictor for an early decline in kidney function in diabetic patients. Another protein of interest is beta-2-microglobulin (B2M), expressed in situations of inflammation, a well-characterized phenomenon in diabetic tubulopathy. The study of activation or inactivation of intrarenal pathways potentially associated with progression of DN in humans is complicated by the need for renal biopsy. Recently urinary sediment has been used in the evaluation of kidney diseases in an attempt to identify biomarkers that can predict kidney function decline and as a tool for a better understanding of the pathogenesis of this complication. The objective of this work was to study the participation of the target genes TXNIP, TXN, SLC19A2, SLC19A3 and B2M in the pathogenesis of DN in type 1 DM (T1D) patients. We studied the urinary sediment messenger RNA (mRNA) from patients with T1D (n=55); with focal and segmental glomerulosclerosis (FSGS, a non diabetic nephropathy model, n=12) and from control subjects (n=11) to assess the expression of the target genes and their association with the severity of DN. We also studied the mRNA expression of peripheral lymphomononuclear (PLMN) cells from T1D patients (n=162) and control subjects (n=26) in order to compare with the results obtained in the urinary sediment. Plasmatic concentrations of thiamine were also measured in a subgroup of T1D patients and control subjects. In addition, a lineage of human kidney cells was exposed to high glucose concentrations and to glycated and non-glycated albumin to evaluate if AGEs are implicated in the modulation of expression of the target genes. As a result we found that (1) TXNIP and TXN are upregulated in the urinary sediment of T1D patients with kidney disease and TXNIP is associated with the magnitude of glomerular filtration rate decline; (2) TXNIP and TXN are upregulated in PLMN cells from T1D patients; (3) SLC19A2 is upregulated in the urinary sediment of T1D patients with kidney disease; (4) T1D patients present decreased plasmatic thiamine concentrations compared to control subjects; (5) B2M is upregulated in the urinary sediment of T1D patients with kidney disease and (6) TXNIP and B2M are upregulated in human kidney cells exposed concomitantly to high glucose concentrations and glycated albumin. The results of the present study strongly suggest the participation of the TXN system and of B2M in the pathogenesis of DN
20

A expressão dos genes codificantes da proteína de interação com tiorredoxina, da beta 2 microglobulina e do transportador de tiamina 1, correlaciona-se com marcadores clínicos da doença renal em pacientes com diabetes tipo 1 / The expression of the genes encoding thioredoxin interacting protein, beta 2 microglobulin and thiamine transporter 1, correlates with clinical markers of renal disease in type 1 diabetes patients

Maria Beatriz Camargo Monteiro Caillaud 20 January 2016 (has links)
A nefropatia diabética (ND) é uma das principais causas de doença renal terminal. Além da lesão glomerular, o compartimento tubulointersticial é afetado no desenvolvimento da ND, não somente pela proteinúria como pelos efeitos pró-inflamatórios, profibróticos, pró-oxidantes e angiogênicos da hiperglicemia e dos produtos finais de glicação avançada (AGEs). Sabese que as concentrações de marcadores do estresse oxidativo estão aumentadas em pacientes com diabetes mellitus (DM). O sistema tiorredoxina (TXN) é um dos principais sistemas antioxidantes endógenos. A TXN é capaz de interagir com um grande número de fatores de transcrição e proteínas, tal como a Thioredoxin interacting protein (TXNIP) que tem sido reconhecida na patogênese do DM e de suas complicações. Além da TXNIP, a deficiência de tiamina, ou vitamina B1, já foi relatada em modelos experimentais de DM, concomitantemente a um aumento de seu clearance renal. Os transportadores de tiamina 1 (THTR1) e 2 (THTR2) (codificados pelos genes SLC19A2 e SLC19A3, respectivamente) são os responsáveis pela reabsorção de tiamina no túbulo proximal após sua filtração pelo glomérulo. Estudos já demonstraram que a excreção aumentada de tiamina pode ser um fator de risco para o declínio precoce da função renal em pacientes DM. Uma outra proteína de interesse é a beta 2 microglobulina (B2M), expressa em situações que cursam com inflamação, um fenômeno bem caracterizado na tubulopatia diabética. O estudo da ativação intrarenal de vias potencialmente associadas à evolução da ND em humanos é dificultada pela necessidade de biópsia renal. Recentemente o sedimento urinário tem sido utilizado na avaliação das doenças renais, tanto na tentativa de identificar biomarcadores que possam predizer o declínio da função renal, como para o melhor entendimento da patogênese dessa complicação. O objetivo deste trabalho foi estudar a participação dos genesalvo TXNIP, TXN, SLC19A2, SLC19A3 e B2M na patogênese da ND em portadores de DM1. Estudamos o RNA mensageiro (mRNA) do sedimento urinário de pacientes DM1 (n=55), portadores de glomeruloesclerose segmentar e focal (GESF, um modelo de nefropatia não diabética, n=12) e de indivíduos controles (n=11) para avaliação da expressão dos genes-alvo, e sua associação com as manifestações da ND. Também foi extraído mRNA de células linfomononucleares de pacientes DM1 (n=162) e indivíduos controles (n=26) para comparação com os resultados obtidos no sedimento urinário e foram dosadas as concentrações plasmáticas de tiamina em um subgrupos de pacientes DM1 e de indivíduos controles. Além disso, uma linhagem de células renais humanas foi tratada com altas concentrações de glicose e albumina glicada ou não glicada in vitro para avaliar se os AGEs estão implicados na alteração de expressão dos genes-alvos. Como resultado observamos (1) um aumento na expressão de TXNIP e TXN no sedimento urinário de pacientes DM1 com doença renal e associação da expressão de TXNIP com a magnitude do declínio da taxa de filtração glomerular; (2) um aumento na expressão de TXNIP e TXN nas células linfomononucleares dos pacientes DM1; (3) um aumento na expressão de SLC19A2 no sedimento urinário de pacientes DM1 com doença renal; (4) uma diminuição nas concentrações plasmáticas de tiamina nos pacientes DM1 em comparação aos controles; (5) um aumento na expressão de B2M no sedimento urinário de pacientes DM1 com doença renal e (6) um aumento na expressão de TXNIP e B2M nas células renais humanas tratadas concomitantemente com altas concentrações de glicose e albumina glicada. Os resultados do presente estudo sugerem fortemente a participação do sistema TXN e da B2M na etiopatogênese da ND / Diabetic nephropathy (DN) is a major cause of end stage renal disease. Glomerular and tubulointerstitial compartments are affected not only by proteinuria but also by the pro-inflammatory, profibrotic, pro-oxidants and pro-angiogenic effects exerted by hyperglycemia and advanced glycation end products (AGEs) in the development of DN. It is well known that concentrations of oxidative stress markers are increased in patients with diabetes mellitus (DM). The thioredoxin system (TXN) is one of the majors endogenous antioxidant systems; TXN molecule is able to interact with a large number of transcription factors and proteins such as Thioredoxin interacting protein (TXNIP), which has been recognized in the pathogenesis of DM and its complications. Deficiency of thiamine, or B1 vitamin, has been reported in experimental models of DM concomitantly with an increase in its renal clearance. Thiamine transporter 1 (THTR1), encoded by the SLC19A2 gene and Thiamine transporter 2 (THTR2), encoded by the SLC19A3 gene are responsible for thiamine reabsorption in the proximal tubule after glomerular filtration. Studies have shown that increased urinary excretion of thiamine may be a risk predictor for an early decline in kidney function in diabetic patients. Another protein of interest is beta-2-microglobulin (B2M), expressed in situations of inflammation, a well-characterized phenomenon in diabetic tubulopathy. The study of activation or inactivation of intrarenal pathways potentially associated with progression of DN in humans is complicated by the need for renal biopsy. Recently urinary sediment has been used in the evaluation of kidney diseases in an attempt to identify biomarkers that can predict kidney function decline and as a tool for a better understanding of the pathogenesis of this complication. The objective of this work was to study the participation of the target genes TXNIP, TXN, SLC19A2, SLC19A3 and B2M in the pathogenesis of DN in type 1 DM (T1D) patients. We studied the urinary sediment messenger RNA (mRNA) from patients with T1D (n=55); with focal and segmental glomerulosclerosis (FSGS, a non diabetic nephropathy model, n=12) and from control subjects (n=11) to assess the expression of the target genes and their association with the severity of DN. We also studied the mRNA expression of peripheral lymphomononuclear (PLMN) cells from T1D patients (n=162) and control subjects (n=26) in order to compare with the results obtained in the urinary sediment. Plasmatic concentrations of thiamine were also measured in a subgroup of T1D patients and control subjects. In addition, a lineage of human kidney cells was exposed to high glucose concentrations and to glycated and non-glycated albumin to evaluate if AGEs are implicated in the modulation of expression of the target genes. As a result we found that (1) TXNIP and TXN are upregulated in the urinary sediment of T1D patients with kidney disease and TXNIP is associated with the magnitude of glomerular filtration rate decline; (2) TXNIP and TXN are upregulated in PLMN cells from T1D patients; (3) SLC19A2 is upregulated in the urinary sediment of T1D patients with kidney disease; (4) T1D patients present decreased plasmatic thiamine concentrations compared to control subjects; (5) B2M is upregulated in the urinary sediment of T1D patients with kidney disease and (6) TXNIP and B2M are upregulated in human kidney cells exposed concomitantly to high glucose concentrations and glycated albumin. The results of the present study strongly suggest the participation of the TXN system and of B2M in the pathogenesis of DN. Descriptors: diabetes mellitus, diabetic nephropathies, urine, glycosylation end products, advanced, thiamine, thioredoxins, beta 2-microglobulin Diabetic nephropathy (DN) is a major cause of end stage renal disease. Glomerular and tubulointerstitial compartments are affected not only by proteinuria but also by the pro-inflammatory, profibrotic, pro-oxidants and pro-angiogenic effects exerted by hyperglycemia and advanced glycation end products (AGEs) in the development of DN. It is well known that concentrations of oxidative stress markers are increased in patients with diabetes mellitus (DM). The thioredoxin system (TXN) is one of the majors endogenous antioxidant systems; TXN molecule is able to interact with a large number of transcription factors and proteins such as Thioredoxin interacting protein (TXNIP), which has been recognized in the pathogenesis of DM and its complications. Deficiency of thiamine, or B1 vitamin, has been reported in experimental models of DM concomitantly with an increase in its renal clearance. Thiamine transporter 1 (THTR1), encoded by the SLC19A2 gene and Thiamine transporter 2 (THTR2), encoded by the SLC19A3 gene are responsible for thiamine reabsorption in the proximal tubule after glomerular filtration. Studies have shown that increased urinary excretion of thiamine may be a risk predictor for an early decline in kidney function in diabetic patients. Another protein of interest is beta-2-microglobulin (B2M), expressed in situations of inflammation, a well-characterized phenomenon in diabetic tubulopathy. The study of activation or inactivation of intrarenal pathways potentially associated with progression of DN in humans is complicated by the need for renal biopsy. Recently urinary sediment has been used in the evaluation of kidney diseases in an attempt to identify biomarkers that can predict kidney function decline and as a tool for a better understanding of the pathogenesis of this complication. The objective of this work was to study the participation of the target genes TXNIP, TXN, SLC19A2, SLC19A3 and B2M in the pathogenesis of DN in type 1 DM (T1D) patients. We studied the urinary sediment messenger RNA (mRNA) from patients with T1D (n=55); with focal and segmental glomerulosclerosis (FSGS, a non diabetic nephropathy model, n=12) and from control subjects (n=11) to assess the expression of the target genes and their association with the severity of DN. We also studied the mRNA expression of peripheral lymphomononuclear (PLMN) cells from T1D patients (n=162) and control subjects (n=26) in order to compare with the results obtained in the urinary sediment. Plasmatic concentrations of thiamine were also measured in a subgroup of T1D patients and control subjects. In addition, a lineage of human kidney cells was exposed to high glucose concentrations and to glycated and non-glycated albumin to evaluate if AGEs are implicated in the modulation of expression of the target genes. As a result we found that (1) TXNIP and TXN are upregulated in the urinary sediment of T1D patients with kidney disease and TXNIP is associated with the magnitude of glomerular filtration rate decline; (2) TXNIP and TXN are upregulated in PLMN cells from T1D patients; (3) SLC19A2 is upregulated in the urinary sediment of T1D patients with kidney disease; (4) T1D patients present decreased plasmatic thiamine concentrations compared to control subjects; (5) B2M is upregulated in the urinary sediment of T1D patients with kidney disease and (6) TXNIP and B2M are upregulated in human kidney cells exposed concomitantly to high glucose concentrations and glycated albumin. The results of the present study strongly suggest the participation of the TXN system and of B2M in the pathogenesis of DN

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