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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.
441

The C Terminus of Activation Induced Cytidine Deaminase (AID) Recruits Proteins Important for Class Switch Recombination to the IG Locus: A Dissertation

Ranjit, Sanjay 14 December 2010 (has links)
Activation-induced cytidine deaminase (AID) is a key protein required for both class switch recombination (CSR) and somatic hypermutation (SHM) of antibody genes. AID is induced in B cells during an immune response. Lack of AID or mutant form of AID causes immunodeficiency; e.g., various mutations in the C terminus of AID causes hyper IgM (HIGM2) syndrome in humans. The C terminal 10 amino acids of AID are required for CSR but not for SHM. During both CSR and SHM, AID deaminates dCs within Ig genes, converting them to dUs, which are then either replicated over, creating mutations, or excised by uracil DNA glycosylase (UNG), leading to DNA breaks in Ig switch regions. Also, the mismatch repair (MMR) heterodimer Msh2-Msh6 recognizes U:G mismatches resulting from AID activity and initiates MMR, which leads to increased switch region double strand breaks (DSBs). DSBs are essential intermediates of CSR; lack of UNG or MMR results in a reduction of DSBs and CSR. The DSBs created in the Sμ and one of the downstream S-regions during CSR are recombined by non-homologous end joining (NHEJ) to complete CSR. Available data suggest that AID is required not only for the deamination step of CSR, but also for one or more of the steps of CSR that are downstream of deamination step. This study investigates the role of C terminus of AID in CSR steps downstream of deamination. Using retroviral transduction into mouse splenic B cells, I show that AID binds cooperatively with UNG and Msh2-Msh6 to the Ig Sμ region, and this depends on the AID C terminus. I also show that the function of MMR during CSR depends on the AID C terminus. Surprisingly, the C terminus of AID is not required for Sμ or Sγ3 DSBs, suggesting its role in CSR occurs during repair and/or recombination of DSBs.
442

Innate Signaling Pathways in the Maintenance of Serological Memory: A Dissertation

Raval, Forum M. 21 June 2012 (has links)
Long-term antiviral antibody responses provide protection from re-infection and recurrence of persistent viruses. Using a polyomavirus (PyV) mouse model, our lab has shown that MyD88-deficient mice generate low levels of virus-specific IgG after the acute phase of infection and that these IgG responses have a skewed isotype distribution with low levels of IgG2a/c. Moreover MyD88-deficient mice have reduced numbers of long-lived plasma cells in the bone marrow. These studies suggest an important role of MyD88-mediated signaling in long-term antiviral responses. Our lab has shown that T cell-deficient mice can also maintain long-term virus-specific IgG responses following PyV infection. The goal of this thesis is to evaluate the role of innate signaling pathways in maintaining serological memory to persistent virus infection and to elaborate on how long-term antiviral responses can be maintained in an immunocompetent or partially immune compromised, T cell-deficient host. Regarding T cell-dependent B cell responses, I set out to investigate the upstream and downstream components of the MyD88-mediated pathways required for normal antibody isotype and long-term humoral responses. IgG2a is a predominant immunoglobulin isotype in most virus infections. Wild type mice, in response to PyV infection, primarily induce antiviral IgG2a with some IgG1. MyD88-deficient mice in response to PyV infection display attenuated levels of virus-specific IgG2a, but normal levels of IgG1. Using Unc93B1 mutant mice (3d mice), which are defective in TLRs 3, 7 and 9 signaling, I show that 3d mice also generated low levels of virus-specific IgG2a following PyV infection. Studies in individual TLR3-/-, TLR7-/- or TLR9-/- mice displayed PyV-specific IgG2a responses similar to wild type responses. TLR7 and TLR9 double deficient mice generated similar skewed antibody isotype responses, where virus-specific IgG2a was reduced compared to wild type mice. This shows that TLR7 and TLR9-MyD88 mediated pathways are important in regulating IgG2a responses during a PyV infection. To investigate what components downstream of MyD88 are involved in mediating IgG2a responses, I worked with IRF5-deficient mice. IRF5 is a transcription factor that is activated upon stimulation of TLR7 or TLR9-MyD88-mediated pathways. Moreover, IRF5-deficient mice cannot generate autoantibodies specifically of the IgG2a isotype in a mouse lupus model, suggesting that IRF5 plays an important function in mediating class switching to IgG2a. In vitro studies where IRF5-/- B cells were stimulated with TLR7 or TLR9 ligands also generated low levels of γ2a germ-line transcripts, suggesting a B cell-intrinsic role for IRF5 in regulating γ2a germ-line transcription. PyV infection of IRF5-deficient mice resulted in similar skewed isotypes as observed in MyD88-deficient and 3d mice. To investigate a B cell-intrinsic role for IRF5 in regulating IgG2a responses in vivo upon PyV infection, I transferred IRF5-/- B cells and WT T cells into RAG KO mice prior to infection and compared the responses of these mice with mice reconstituted with wild type B6 B and T cells. Diminished numbers of IgG2a+ B cells and reduced levels of virus-specific IgG in mice reconstituted with IRF5-/- B cells were seen compared to mice reconstituted with wild type B cells. Regarding the defect in long-term IgG production in MyD88-/- mice upon PyV infection, I conducted studies in IRF5-/-, 3d, single TLR3-/-, TLR7-/-, TLR9-/- and TLR7/9 double deficient mice. These studies reveal an important and redundant role for TLR7- and TLR9-MyD88 signaling in maintaining long-term anti-PyV IgG responses. To determine how MyD88 signaling affects the generation of long-lived plasma cells and memory B cells, I investigated germinal center (GC) responses in MyD88-deficient mice. A defect in GC B cell numbers is observed in MyD88-deficient mice after the acute phase of infection. The GC reaction is essential for the generation and maintenance of long-lived plasma cells and memory B cells. T follicular helper (TFH) cells are absolutely required to generate normal GC. l found reduced numbers of TFH cells in MyD88-deficient mice. Lower numbers of T FH cells suggests that poor T cell help may contribute to the diminished number of GC B cells. However, interaction with B cells is required for the formation of fully differentiated TFH cells. Along with B cell function, MyD88 signaling can affect T cell and dendritic cell function as well. Thus, it is not clear at this point whether the requirement for intact MyD88 signaling for the formation and maintenance of long-term B cell populations is completely B cell-intrinsic. Some viruses can induce T cell-independent B cell responses, perhaps due to their complex arrays of repetitive antigenic epitopes on virions, coupled with the induction of innate cytokines. Nevertheless, T cell help is usually necessary for generating long-term antibody responses in the form of long-lived plasma cells and memory B cells. In contrast, our lab has found that T cell-deficient mice infected with PyV develop long-lasting, protective antiviral IgG responses. I questioned whether these mice could generate TI B cell memory cells or long-lived plasma cells. I show that long-lasting anti-PyV antibody in T cell-deficient mice was not due to the presence of long-lived plasma cells or memory B cell responses. TCRβδ deficient mice, which lack both CD4 and CD8 T cells, had ~10 a times higher virus load persisting in various organs. Therefore, I hypothesized that the high level of persistent PyV antigen, in completely T cell-deficient mice, may activate naïve B cell populations continuously, thereby maintaining the long-lasting IgG responses. Prior to PyV infection, T cell-deficient mice received wild type CD8 T cells, which reduced PyV loads, and this was associated with decreased levels of antiviral serum IgG over time. As in TCRβδ deficient mice, high PyV loads were detected in the bone marrow, which is the site for B cell lymphopoiesis, I questioned how B cells develop in the presence of PyV antigen and still stay responsive to PyV, generating long-term antiviral IgG responses in the periphery. Studies have shown that self-antigens that trigger both B cell receptor signaling and TLR-MyD88 signaling pathways in the bone marrow lead to the breaking of B cell tolerance and production of autoantibody in the periphery. Thus, we hypothesized that high PyV levels in the bone marrow signal through both B cell-receptors and TLRs, allowing continuous antiviral antibody production by B cells. Using mice that are deficient in T cells and MyD88 signaling, I found that PyV-specific TI IgG levels gradually decreased, supporting this hypothesis. Thus, high PyV loads and innate signaling together can break B cell tolerance. During a persistent virus infection this can result in sustaining long-term protective T cell-independent IgG responses.
443

Virus retentive filter paper for processing of plasma-derived proteins

Wu, Lulu January 2020 (has links)
The studies in the present thesis explored the feasibility of using nanocellulose-based filters in virus removal filtration of plasma-derived proteins.   In Paper I, two-step nanofiltration of commercially available human serum albumin (HSA) product, which was diluted to 10 g L-1 by phosphate buffer saline (PBS) and adjusted pH to 7.4, was performed to remove soluble protein aggregates and reduce filter fouling. The two-step filtration of HSA employed nanocellulose-based filters of varying thickness, i.e. 11 μm and 22 μm filters.  The removal of HSA aggregates during filtration through 11 μm pre-filters dramatically improves the flow properties of the 22 μm filter, enabling high protein throughput and high virus clearance. A distribution of pore sizes between 50 nm and 80 nm, which is present in the 11 μm filter and is absent in the 22 μm filter, plays a crucial part in removing the HSA aggregates. With respect to virus filtration, 1 bar constant trans-membrane pressure filtration shows poor removal ability of ΦX174 bacteriophage (28 nm), i.e., log10 reduction value (LRV) ≤ 3.75, while that at 3 bar and 5 bar achieves LRV[MOU1] [LW2]  > 5 model virus clearance and overall rapid filtration. Removal of protein aggregates during bioprocessing of HSA products is key to improving the filtration flux, which makes it possible to apply virus removal filtration for HSA to ensure its virus safety.   In Paper II, nanofiltration of human plasma-derived intravenous immuno-globulin (IVIG) intermediate (11.26 g L-1, pH 4.9) was carried out to demonstrate high product recovery and high model virus clearance. Virus removal filtration of industrial-grade human IVIG was achieved using 33μm filters at both low (60 Lm-2) and high (288 Lm-2) volumetric load. No changes in IVIG structure were detected and high product recovery was recorded. High virus clearance (LRV ≥ 5-6) was achieved for the small-size model viruses (ΦX174 and MS2 bacteriophages) during the load volume of 60 Lm-2. Side-by-side comparisons with commercial virus removal filters suggest that the nanocellulose-based filter paper presents great potential for industrial bioprocessing of plasma-derived IVIG.   In Paper III, process analytical technology (PAT) approach was employed to identify the critical filter parameters, e.g. thickness, basis weight, pore size, and flux, affecting model virus removal efficiency using filters produced by different hot presses.  The quality parameters were analyzed with ANOVA and Shewhart charts. Compared with other studied parameters, the hydraulic flux appears as the most relevant final product quality attribute of the nanocellulose-based filter paper to reflect the virus removal efficiency. In particular, a 15% higher flux may be associated with a 0.5-1.0 log10 reduced virus clearance (p=0.007). The results are highlight the importance of continued systematic studies in quality assurance using statistical process control tools  [MOU1]Define LRV  [LW2]Defined in the line above
444

Perspectives de l'usage de poudre de jaunes d’oeuf comme additif alimentaire contre Campylobacter jejuni chez le poulet : mode d'immunisation et effet de l’encapsulation

Soumaila Garba, Amina 08 1900 (has links)
No description available.
445

Stress and the Offspring : Adaptive Transgenerational Effects of Unpredictability on Behaviour and Gene Expression in Chickens (Gallus gallus)

Nätt, Daniel January 2008 (has links)
Environmental stress has shown to affect both the exposed individuals and the development of their offspring. Generally, it is thought that the stressed organism responds to stress by trying to adapt to it. This thesis investigates possible evolutionary consequences of cross-generational transmissions of stress, where the parent has been stressed but the offspring has not. In two studies we have exposed chicken parents of different breeds to an unpredictable circadian light rhythm, to investigate the influence of genetic background on the transmission of behaviour and patterns of genome-wide gene expression across generations. In Paper I, we can show that the domesticated chicken, by means of epigenetic factors, transmit their behaviours as well as their gene expression profiles to their offspring to a higher extent than their wild ancestor, the red junglefowl. Furthermore, in Paper II, even though the offspring never experienced the stress or had any contact with their stressed parents, they seemed to have adapted to it, which suggests that the parents might have prepared (or pre-adapted) them for living in the unpredictable environment. Additionally, eggs of stressed hens showed increased levels of estradiol that might have affected gene expression of specific immune genes, which were up-regulated in the offspring of stressed parents. It is possible that the traditional distinction between stress responses and evolutionary adaptation may be reevaluated, since our results indicate that they could be parts of the same evolutionary event.
446

Assessing Factor H-Fc Fusion Proteins as a Therapeutic for Controlling Burkholderia pseudomallei Infection

Morgan, Kelly Lane January 2022 (has links)
No description available.
447

PREVENTING STRESS SIGNALING AND INCREASED NEUROINFLAMMATION ALLEVIATES ALZHEIMER’S-LIKE PATHOLOGY IN MICE OVEREXPRESSING THE APP INTRACELLULAR DOMAIN (AICD)

Margevicius, Daniel Robert 03 September 2015 (has links)
No description available.
448

Pulsed electric field processing of functional foods

Li, Siquan 01 October 2003 (has links)
No description available.
449

KIR3DL1 Allotype-Dependent Modulation of NK Cell Immunity against Chronic Myeloid Leukemia / 慢性骨髄性白血病に対するNK細胞免疫のKIR3DL1アロタイプに基づく調節

Izumi, Kiyotaka 23 March 2022 (has links)
京都大学 / 新制・課程博士 / 博士(医学) / 甲第23775号 / 医博第4821号 / 新制||医||1057(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 河本 宏, 教授 永井 純正, 教授 濵﨑 洋子 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM
450

Synthesis and Evaluation of Antigenic Determinants for ß-lactam Allergy Diagnosis

Peña Mendizabal, Edurne 09 May 2022 (has links)
Tesis por compendio / [EN] About 10 % of all adverse drug reactions are due to allergies, with ß-lactam antibiotics causing the majority of the episodes. Although the actual incidence remains unknown, individuals suspected of being allergic to a drug end up being prescribed with other medications that are less effective, more expensive or harmful. Consequently, a correct diagnosis is key to reduce the derived economic costs and proceed to an adequate 'delabeling' of the population. At present, clinical approaches to diagnose allergies to ß-lactam antibiotics are based on in vivo and in vitro tests. These tests present limited clinical performances since they are invasive, dangerous, and provide false positives and/or negatives. Moreover, the diagnostic sensitivity is far from what is expected, possibly because the epitopes that cause the allergic episodes are still not well detected. In this respect, the preparation of antigens has commonly been determined by the direct attachment of antibiotics to carrier molecules through the formation of an amide bond between amino lysine groups of the carrier molecule and the carboxylate group of the antibiotic. Even so, specific IgE are barely detected with such antigens. This dissertation addresses the synthesis of haptens and the generation of antigens to ß-lactam antibiotics, which develop a more reliable in vitro diagnosis of allergies to these drugs. The evaluation of the antigens has been carried out by means of multiplex in vitro tests based on compact disc technology. This research begins by focusing on the synthesis and preparation of penicillin antigens. To this end, first, the effect of the incorporation of aliphatic spacer arms in the chemical structure of penicillin has been approached, considering the possibility that a better molecular recognition is obtained by moving the hapten away from the carrier protein. Thirteen haptens derived from benzylpenicillin and amoxicillin were synthesized in order to prepare antigens with human serum albumin. The evaluation of the antigens revealed that even though they were immunogenic and were detected by the raised IgG antibodies, they were not detected by specific IgE from allergic patients. Additionally, the next approach considered the cationization of the carrier proteins, human serum albumin and histone. The modification of carboxylate groups of the protein to amino groups allow for an increase of the molar hapten/protein ratio. This strategy led to the generation of five antigens, four of which (only those histone-based antigens), did increase the sensitivity of the assay. Concretely, specific IgE has been determined in sera from allergic patients at low concentrations (LOD = 0.07 IU/mL) with a diagnostic specificity of 100 % and a sensitivity of 60 and 31 % for benzylpenicillin and amoxicillin, respectively. That means a 60 % improvement in the diagnostic sensitivity when compared to the in vitro reference test. Subsequently, the idea of preparing minor antigens based on penicillin metabolites was approached. Penicilloic, penilloic, penicillic, and 6-aminopenicillanic acids, together with penicillamine, were therefore conjugated to the carrier proteins human serum albumin and histone. Except penilloic acid, the rest of antigens were selectively detected when testing a set of serum samples from allergic patients. The diagnostic specificity obtained was 100 %, 94 % in the case of penicillic acid, and the sensitivity was between 67 and 100 %. Another approach was focused on the production of antigens for other families of ß-lactam antibiotics. The generation of antigens for cephalosporins, carbapenems, monobactams or ß-lactam inhibitors is essential, since in vitro tests for the detection of allergies to these antibiotics are not commercially available. Therefore, the results obtained after the preparation of major and minor antigens for the antibiotics cefuroxime, cefotaxime, ceftriaxone, meropenem, and aztreonam were evaluated. / [ES] Alrededor del 10 % de las reacciones adversas a medicamentos son debidas a alergias, siendo los antibióticos ß-lactámicos los que más episodios alérgicos ocasionan. Aunque la incidencia real sigue siendo desconocida, los individuos sospechosos de presentar alergia a algún medicamento acaban siendo prescritos con otros medicamentos, menos efectivos, más caros o perjudiciales. Así pues, un correcto diagnóstico resulta clave para disminuir los costes económicos derivados y proceder a un adecuado 'desetiquetado' de la población. En la actualidad, las pruebas de diagnóstico de alergias a antibióticos ß-lactámicos se basan en ensayos in vivo e in vitro. Estos ensayos muestran bajas prestaciones, ya que son invasivos y peligrosos y proporcionan falsos positivos y/o negativos. Además, la sensibilidad diagnóstica está lejos de ser la esperada, posiblemente porque aún no se ha conseguido reconocer todos los epítopos causantes de los episodios alérgicos. En este sentido, la preparación de antígenos se ha basado hasta el momento, en mayor medida, en la unión directa de los antibióticos a las moléculas portadoras mediante la formación de un enlace amida entre los grupos amino de las lisinas de la molécula portadora y el grupo carboxilato del antibiótico. Aun así, las IgE específicas son vagamente detectadas con estos antígenos. En esta tesis se ha abordado la síntesis de haptenos y la generación de determinantes antigénicos a antibióticos ß-lactámicos con los que poder realizar un diagnóstico in vitro más fiable de alergias a estos fármacos. La evaluación de los mismos se ha llevado a cabo mediante ensayos in vitro multiplex basados en tecnología de disco compacto. Esta investigación comienza centrándose en la síntesis y preparación de antígenos de penicilina. Para ello, en una primera fase se ha estudiado el efecto de la incorporación de brazos espaciadores alifáticos en la generación de antígenos, considerando la posibilidad de que se obtenga un mejor reconocimiento molecular al alejar el hapteno de la proteína portadora. Se sintetizaron trece haptenos derivados de bencilpenicilina y amoxicilina con los que se prepararon antígenos con la proteína albumina de suero humano. La evaluación de los antígenos reveló que a pesar de ser suficientemente inmunogénicos y ser reconocidos por anticuerpos IgG de conejo, éstos no fueron reconocidos por IgE específicas de muestras de pacientes alérgicos. Así bien, por otro lado, la estrategia de cationización de las proteínas albumina de suero humano e histona fue abordada teniendo en cuenta que la modificación de grupos carboxilatos de la proteína a grupos amino aumenta la relación molar hapteno/proteína. Esta estrategia permitió la generación de 5 antígenos, 4 de los cuales (los antígenos de histona), esta vez sí, incrementaron la especificidad de la respuesta inmunológica obtenida, reconociendo IgE específicas. Concretamente, se han determinado IgE específicas en suero de pacientes alérgicos a bajas concentraciones (LOD = 0.07 IU/mL) con una especificidad diagnóstica del 100 % y una sensibilidad del 60 y 31 % para bencilpenicilina y amoxicilina, respectivamente, mejorando la sensibilidad un 60 % en comparación con el ensayo in vitro de referencia. A pesar de las mejoras obtenidas con las estrategias llevadas a cabo, se estudiaron otras vías no clásicas para la síntesis de nuevos haptenos con mayor diversidad química. Este enfoque se basa en la generación de antígenos en librerías químicas de compuestos con diversidad estructural para encontrar nuevos haptenos biológicamente activos. Dichas estrategias, hasta el momento, no han sido empleadas para la generación de antígenos y el análisis de muestras de suero de pacientes alérgicos. Con el fin de incorporar diversidad estructural, se sintetizaron, mediante la técnica combinatoria diversity-oriented synthesis, 22 compuestos de los precursores de las penicilinas y cefalosporinas, ácido 6-aminopenicilánico y ácido 7-amino-desacetoxicefalosporánico, respectivamente, y de los antibióticos amoxicilina y ampicilina. Su evaluación con el inmunoensayo in vitro basado en disco compacto ha demostrado que la incorporación de diversidad permite el reconocimiento de epítopos causantes de episodios alérgicos. Concretamente, se observó que estos antígenos eran capaces de detectar anticuerpos tipo IgG e IgE específicos procedentes de suero de conejos inmunizados y de suero humano de pacientes alérgicos, siendo especialmente selectivos los determinantes de amoxicilina y ampicilina. Concretamente, se obtuvo una sensibilidad diagnóstica del 79 % y una especificidad diagnóstica del 100 % / [CA] Al voltant del 10% de les reaccions adverses a medicaments són degudes a al·lèrgies, sent els antibiòtics ß-lactàmics aquells que més episodis al·lèrgics ocasionen. Encara que la incidència real continua sent desconeguda, els individus sospitosos de presentar al·lèrgia a algun medicament acaben sent prescrits amb altres medicaments, menys efectius, més cars o perjudicials. Així doncs, un correcte diagnòstic resulta clau per a disminuir els costos econòmics derivats i procedir a un adequat 'desetiquetatge' de la població. En l'actualitat, les proves de diagnòstic d'al·lèrgies a antibiòtics ß-lactàmics es basen en assaigs in vivo i in vitro. Aquests assaigs mostren baixes prestacions, ja que són invasius i perillosos i proporcionen falsos positius i/o negatius. A més a més, la sensibilitat diagnòstica està lluny de ser l'esperada, possiblement perquè encara no s'ha aconseguit reconéixer tots els epítopes causants dels episodis al·lèrgics. En aquest sentit, la preparació d'antígens s'ha basat fins al moment, en major mesura, en la unió directa dels antibiòtics a les molècules portadores mitjançant la formació d'un enllaç amida entre els grups amino de les lisines de la molècula portadora i el grup carboxilat de l'antibiòtic. Així i tot, les IgE específiques són vagament detectades amb aquests antígens. En aquesta tesi s'ha abordat la síntesi d'haptens i la generació de determinants antigènics a antibiòtics ß-lactàmics amb els quals poder realitzar un diagnòstic in vitro més fiable d'al·lèrgies a aquests fàrmacs. La seua avaluació s'ha dut a terme mitjançant assaigs in vitro multiplex basats en tecnologia de disc compacte. Aquesta investigació comença centrant-se en la síntesi i preparació d'antígens de penicil·lina. Per a això, en una primera fase s'ha estudiat l'efecte de la incorporació de braços espaiadors alifàtics en la generació d'antígens, considerant la possibilitat que s'obtinga un millor reconeixement molecular en allunyar l'haptè de la proteïna portadora. Es van sintetitzar tretze haptens derivats de bencilpenicil·lina i amoxicil·lina amb els quals es van preparar antígens amb la proteïna albúmina de sèrum humà. L'avaluació dels antígens va revelar que malgrat ser prou immunogènics i ser reconeguts per anticossos IgG de conill, aquests no van ser reconeguts per IgE específiques de mostres de pacients al·lèrgics. Així bé, d'altra banda, l'estratègia de cationització de les proteïnes albúmina de sèrum humà i histona va ser abordada tenint en compte que la modificació dels grups carboxilats de la proteïna a grups amino augmenta la relació molar hapten/proteïna. Aquesta estratègia va permetre la generació de 5 antígens, 4 dels quals (els antígens d'histona), aquesta vegada sí, van incrementar l'especificitat de la resposta immunològica obtinguda, reconeixent IgE específiques. Concretament, s'han determinat IgE específiques en sèrum de pacients al·lèrgics a baixes concentracions (LOD = 0.07 IU/mL) amb una especificitat diagnòstica del 100 % i una sensibilitat del 60 i 31 % per a bencilpenicil·lina i amoxicil·lina, respectivament, millorant la sensibilitat un 60 % en comparació amb l'assaig in vitro de referència. Malgrat les millores obtingudes amb les estratègies dutes a terme, es van estudiar altres vies no clàssiques per a la síntesi de nous haptens amb major diversitat química. Aquest enfocament es basa en la generació d'antígens en llibreries químiques de compostos amb diversitat estructural per a trobar nous haptens biològicament actius. Aquestes estratègies, fins al moment, no han sigut emprades per a la generació d'antígens i l'anàlisi de mostres de sèrum de pacients al·lèrgics. Amb la finalitat d'incorporar diversitat estructural, es van sintetitzar, mitjançant la tècnica combinatòria diversity- oriented synthesis, 22 compostos dels precursors de les penicil·lines i cefalosporines, àcid 6-aminopenicilànic i àcid 7-amino-desacetoxicefalosporànic, respectivament, i dels antibiòtics amoxicil·ina i ampicil·lina. La seua avaluació amb l'immunoassaig in vitro basat en disc compacte ha demostrat que la incorporació de diversitat permet el reconeixement d’epítops causants d'episodis al·lèrgics. Concretament, es va observar que aquests antígens eren capaços de detectar anticossos tipus IgG i IgE específics procedents de sèrum de conills immunitzats i de sèrum humà de pacients al·lèrgics, sent especialment selectius els determinants d’amoxicil·lina i ampicil·lina. Concretament, es va obtindre una sensibilitat diagnòstica del 79 % i una especificitat diagnòstica del 100 %. / This work was supported by the H2020 program (project COBIOPHAD, grant agreement No. 688448 awarded to A.M.), being an initiative of the Photonics Public Private Partnership; Agencia Estatal de Investigación Agencia Estatal de Investigación (CTQ2016-75749-R, FEDER) (PID2019-110713RB-I00, FEDER) awarded to S.M.; Generalitat Valenciana (PROMETEO/2020/094 awarded to A.M. & S.M.); program UPV-La FE 2019 (P105 VALBIOAL awarded to S.M & E. I-E.); and the National Institute of General Medical Sciences (GM-1R35GM127045 awarded to S.L.S.). E.P.M. was supported by a FPU fellowship from the Ministerio de Educación, Cultura y Deporte (FPU15/01738 and EST18/00360). B.K.H. was supported by a fellowship from the National Science Foundation (DGE1144152 and DGE1745303). The authors acknowledge the Instituto de Investigación Sanitaria La Fe, Valencia, Spain, which provided the samples from both allergic patients and controls. / Peña Mendizabal, E. (2022). Synthesis and Evaluation of Antigenic Determinants for ß-lactam Allergy Diagnosis [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/182979 / Compendio

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