Studies on the use of bovine serum albumin as aerosol performance enhancer in dry powder inhalation formulations prepared by spray drying. / 小牛血清白蛋白(BSA)對以噴霧乾燥(spray dry)制作的粉霧吸入劑(DPI)粉霧性能(aerosol performance)提升的研究 / Xiao niu xue qing bai dan bai (BSA) dui yi pen wu qan zao (spray dry) zhi zuo de fen wu xi ru ji (DPI) fen wu xing neng (aerosol performance) ti sheng de yan jiu

January 2010

Chan, Pui. / "November, 2009." / Thesis (M.Phil.)--Chinese University of Hong Kong, 2010. / Includes bibliographical references (leaves 108-114). / Abstracts in English and Chinese. / Table of Contents --- p.i / Acknowledgement --- p.vi / Abstract --- p.vii / Abstract (Chinese) --- p.ix / Chapter Chapter One --- Introduction / Chapter 1.1. --- Pulmonary Route for Drug Delivery --- p.2 / Chapter 1.2. --- Factors Affecting the Performance of Inhaled Formulations --- p.3 / Chapter 1.2.1. --- Particle Aerodynamic Diameter --- p.4 / Chapter 1.2.2. --- Dispersibility of Particles --- p.5 / Chapter 1.2.3. --- Clearance Mechanism in Lung and Dissolution of Particles --- p.6 / Chapter 1.3. --- Production of Dry Powder Inhalation by Spray Drying --- p.7 / Chapter 1.4. --- Approaches to Enhance Aerosol Performance of Spray Dried Particles --- p.8 / Chapter 1.4.1 --- Porous/Hollow Particles --- p.9 / Chapter 1.4.2 --- Non-Porous Corrugated Particles --- p.10 / Chapter 1.4.3 --- Blends and Ternary Systems --- p.10 / Chapter 1.4.4 --- Surface Energy and Crystallinity Modification --- p.11 / Chapter 1.4.5 --- Other Approaches to Enhancing Aerosol Performance --- p.12 / Chapter 1.5 --- Objectives and Rationale of the Present Study --- p.13 / Chapter 1.6 --- Scope of Present Study and Particle Characterization Techniques Employed --- p.14 / Chapter 1.6.1 --- Microscopy and Particle Density Measurements --- p.14 / Chapter 1.6.2 --- Particle Size Analysis and Particle Dispersibility --- p.15 / Chapter 1.6.3 --- Thermal Analysis and Particle Crystallinity --- p.15 / Chapter 1.6.4 --- Particle Surface Characterization --- p.16 / Chapter 1.6.5 --- Inverse Gas Chromatography --- p.18 / Chapter 1.6.6 --- Fractal Analysis --- p.19 / Chapter 1.6.6.1 --- Background and Origin of Fractal Analysis --- p.19 / Chapter 1.6.6.2 --- Use of Fractal Analysis in Pharmaceutical Research --- p.20 / Chapter 1.6.6.3 --- Methods for fractal analysis --- p.21 / Chapter 1.6.7 --- Atomic Force Microscopy --- p.23 / Chapter 1.6.7.1 --- Background of Atomic Force Microscopy --- p.23 / Chapter 1.6.7.2 --- Characterization of Surface Topography by Atomic Force Microscopy --- p.23 / Chapter 1.6.7.3 --- Measurement of Interaction Forces by Colloid Probe 226}0Ø Microscopy --- p.25 / Chapter 1.6.7.4 --- Use of Atomic Force Microscopy in Pharmaceutical Research --- p.27 / Chapter Chapter Two --- Materials and Methods / Chapter 2.1. --- Materials --- p.30 / Chapter 2.2. --- Equipment --- p.31 / Chapter 2.3. --- Methods --- p.33 / Chapter 2.3.1. --- Powder Preparation --- p.33 / Chapter 2.3.1.1 --- Preparation of Salbutamol Sulphate Samples --- p.33 / Chapter 2.3.1.2 --- Preparation of Disodium Cromoglycate Samples --- p.33 / Chapter 2.3.1.3 --- Preparation of ß-Galactosidase (BG) Samples --- p.34 / Chapter 2.3.2. --- Determination of Aerosol Performance --- p.35 / Chapter 2.3.3. --- Determination of Protein Activity for BG Samples --- p.36 / Chapter 2.3.3.1. --- Enzyme Assay Procedure --- p.37 / Chapter 2.3.3.2. --- Calculation of Enzyme Activity --- p.38 / Chapter 2.3.3.3. --- Determination of Enzyme Activity Retained in Spray-dried Samples --- p.38 / Chapter 2.3.4. --- Physicochemical Characterization of Particles --- p.39 / Chapter 2.3.4.1. --- Scanning Electron Microscopy --- p.39 / Chapter 2.3.4.2. --- Particle Density Determination --- p.39 / Chapter 2.3.4.3. --- Particle Size Analysis --- p.40 / Chapter 2.3.4.4. --- Thermal analysis --- p.41 / Chapter 2.3.4.5. --- Powder X-ray Diffraction --- p.42 / Chapter 2.3.4.6. --- Surface Area Determination --- p.42 / Chapter 2.3.4.7. --- Surface Composition Characterization --- p.43 / Chapter 2.3.4.8. --- Surface Tension Measurement --- p.44 / Chapter 2.3.4.9. --- Inverse Gas Chromatography --- p.45 / Chapter 2.3.4.9.1. --- Calculation of Standard Free Energy of Adsorption --- p.46 / Chapter 2.3.4.9.2. --- Calculation of Dispersive Component of Surface Free Energy --- p.47 / Chapter 2.3.4.9.3. --- Determination of Specific Interactions and Associated Acid-Base Properties --- p.48 / Chapter 2.3.4.10. --- Fractal Analysis --- p.49 / Chapter 2.3.4.11. --- Atomic Force Microscopy --- p.49 / Chapter Chapter Three --- Results / Chapter 3.1. --- In vitro Aerosol Performance --- p.52 / Chapter 3.2. --- Enzyme Activity Retained in BG Samples --- p.55 / Chapter 3.3. --- Scanning Electron Microscopy (SEM) --- p.56 / Chapter 3.3.1. --- SEM of Salbutamol Sulphate Formulations --- p.56 / Chapter 3.3.2. --- SEM of DSCG Formulations --- p.59 / Chapter 3.3.3. --- SEM of BG Formulations --- p.61 / Chapter 3.4. --- Density Measurements --- p.65 / Chapter 3.4.1. --- Densities of Salbutamol Sulphate Formulations --- p.65 / Chapter 3.4.2. --- Densities of DSCG Formulations --- p.66 / Chapter 3.4.3. --- Densities of BG Formulations --- p.67 / Chapter 3.5. --- Particle Size Analysis by Laser Diffraction --- p.68 / Chapter 3.5.1. --- Volume Mean Diameter Measurements --- p.68 / Chapter 3.5.2. --- Particle Size Distributions and Dispersion Patterns of Formulations --- p.70 / Chapter 3.6. --- Thermal Analysis --- p.75 / Chapter 3.7. --- Powder X-ray Diffraction --- p.80 / Chapter 3.8. --- Surface Area Measurements --- p.84 / Chapter 3.9. --- Surface Composition Characterization --- p.85 / Chapter 3.9.1. --- Surface Composition of Salbutamol Sulphate Formulations --- p.85 / Chapter 3.9.2. --- Surface Composition of DSCG Formulations --- p.88 / Chapter 3.9.3. --- Surface Composition of BG/BSA Formulations --- p.89 / Chapter 3.10. --- Surface Tension Measurements --- p.91 / Chapter 3.11. --- Inverse Gas Chromatography --- p.92 / Chapter 3.12. --- Fractal Analysis --- p.93 / Chapter 3.13. --- Atomic Force Microscopy --- p.94 / Chapter Chapter Four --- Discussion / Chapter 4.1. --- Influence of BSA on Aerosol Performance and Protein Integrity --- p.98 / Chapter 4.2. --- Influence of BSA on Physicochemical Properties of Particles --- p.98 / Chapter 4.2.1. --- Influence of BSA on surface corrugation --- p.98 / Chapter 4.2.2. --- Influence of BSA on particle size and dispersion behavior --- p.99 / Chapter 4.2.3. --- Influence of BSA on crystallinity and thermal properties of particles --- p.100 / Chapter 4.2.4. --- Influence of BSA on surface energetics of particles --- p.100 / Chapter 4.3. --- Relationship between Surface Corrugation and Aerosol Performance --- p.101 / Chapter 4.4. --- Mechanism of Surface Modification for BSA on Spray-dried Particles --- p.103 / Chapter Chapter Five --- Conclusions and Future Work / Chapter 5.1. --- Conclusions --- p.106 / Chapter 5.1.1. --- General Aerosolization-Enhancing Effect of BSA --- p.106 / Chapter 5.1.2. --- Surface Modifying Effect of BSA --- p.106 / Chapter 5.1.3. --- Relationship between Surface Corrugation and Aerosol Performance --- p.106 / Chapter 5.2. --- Future Work --- p.107 / References --- p.108

Powders (Pharmacy)

Aerosol therapy

Serum albumin

Dry Powder Inhalers--methods

Aerosols--therapeutic use

Powders

Administration, Inhalation

Evasion and Attack: Structural Studies of a Bacterial Albumin-binding Protein and of a Cephalosporin Biosynthetic Enzyme

Lejon, Sara

January 2008

<p>This thesis describes the crystal structures of two proteins in the context of combatting bacterial infections. The GA module is a bacterial albumin-binding domain from a surface protein expressed by pathogenic strains of the human commensal bacterium <i>Finegoldia magna</i>. The structure of the GA module in complex with human serum albumin (HSA) provides insights into bacterial immune evasion, where pathogenicity is acquired by the bacterial cell through the ability to coat (and disguise) itself with serum proteins. The structure shows binding of the GA module to HSA in the presence of fatty acids, and reveals interactions responsible for the host range specificity of the invading bacterium. The complex resulting from binding of the GA module to HSA readily forms stable crystals that permit structural studies of drug binding to HSA. This was exploited to study the specific binding of the drug naproxen to the albumin molecule.</p><p>Antibiotics play a major role in controlling infections by attacking invading bacteria. The enzyme deacetylcephalosporin C acetyltransferase (DAC-AT) catalyses the last step in the biosynthesis of the beta-lactam antibiotic cephalosporin C, one of the clinically most important antibiotics in current use. The enzyme uses acetyl coenzyme A as cofactor to acetylate a biosynthetic intermediate. Structures of DAC-AT in complexes with reaction intermediates have been determined. The structures suggest that the acetyl transfer reaction proceeds through a double displacement mechanism, with acetylation of a catalytic serine by the cofactor through a suggested tetrahedral transition state, followed by acetyl transfer to the intermediate through a second suggested tetrahedral transition state. The structure of DAC-AT yields valuable information for the continued study of cephalosporin biosynthesis in the context of developing new beta-lactam compounds.</p>

human serum albumin

GA module

albumin-binding

Finegoldia magna

cephalosporin C

antibiotic

beta-lactam

biosynthesis

Acremonium chrysogenum

X-ray crystallography

Structural biology

Strukturbiologi

Protein engineering to explore and improve affinity ligands

Linhult, Martin

January 2003

In order to produce predictable and robust systems forprotein purification and detection, well characterized, small,folded domains descending from bacterial receptors have beenused. These bacterial receptors, staphylococcal protein A (SPA)and streptococcal protein G (SPG), possess high affinity to IgGand / or HSA. They are composed of repetitive units in whicheach one binds the ligand independently. The domains foldindependently and are very stable. Since the domains also havewellknown three-dimensional structures and do not containcysteine residues, they are very suitable as frameworks forfurther protein engineering. Streptococcal protein G (SPG) is a multidomain proteinpresent on the cell surface ofStreptococcus. X-ray crystallography has been used todetermine the binding site of the Ig-binding domain. In thisthesis the region responsible for the HSA affinity of ABD3 hasbeen determined by directed mutagenesis followed by functionaland structural analysis. The analysis shows that the HSAbindinginvolves residues mainly in the second α-helix. Most protein-based affinity chromatography media are verysensitive towards alkaline treatment, which is the preferredmethod for regeneration and removal of contaminants from thepurification devices in industrial applications. Here, aprotein engineering strategy has been used to improve thetolerance to alkaline conditions of different domains fromprotein G, ABD3 and C2. Amino acids known to be susceptibletowards high pH were substituted for less alkali susceptibleresidues. The new, engineered variants of C2 and ABD shownhigher stability towards alkaline pH. Also, very important forthe potential use as affinity ligands, these mutated variantsretained the secondary structure and the affinity to HSA andIgG, respectively. Moreover, dimerization was performed toinvestigate whether a higher binding capacity could be obtainedby multivalency. For ABD, binding studies showed that divalentligands coupled using non-directed chemistry demonstrated anincreased molar binding capacity compared to monovalentligands. In contrast, equal molar binding capacities wereobserved for both types of ligands when using a directed ligandcoupling chemistry involving the introduction and recruitmentof a unique C-terminal cysteine residue. The staphylococcal protein A-derived domain Z is also a wellknown and thoroughly characterized fusion partner widely usedin affinity chromatography systems. This domain is consideredto be relatively tolerant towards alkaline conditions.Nevertheless, it is desirable to further improve the stabilityin order to enable an SPA-based affinity medium to withstandeven longer exposure to the harsh conditions associated withcleaning in place (CIP) procedures. For this purpose adifferent protein engineering strategy was employed. Smallchanges in stability due to the mutations would be difficult toassess. Hence, in order to enable detection of improvementsregarding the alkaline resistance of the Z domain, a by-passmutagenesis strategy was utilized, where a mutated structurallydestabilized variant, Z(F30A) was used as a surrogateframework. All eight asparagines in the domain were exchangedone-by-one. The residues were all shown to have differentimpact on the alkaline tolerance of the domain. By exchangingasparagine 23 for a threonine we were able to remarkablyincrease the stability of the Z(F30A)-domain towards alkalineconditions. Also, when grafting the N23T mutation to the Zscaffold we were able to detect an increased tolerance towardsalkaline treatment compared to the native Z molecule. In allcases, the most sensitive asparagines were found to be locatedin the loops region. In summary, the work presented in this thesis shows theusefulness of protein engineering strategies, both to explorethe importance of different amino acids regarding stability andfunctionality and to improve the characteristics of aprotein. <b>Keywords:</b>binding, affinity, human serum albumin (HSA),albumin-binding domain (ABD), affinity chromatography,deamidation, protein A, stabilization, Z-domain, capacity,protein G, cleaning-in-place (CIP), protein engineering, C2receptor.

binding

affinity

human serum albumin (HSA)

albumin-binding domain (ABD)

affinity chromatography

deamidation

protein A

stabilization

Z-domain

capacity

protein G

cleaning-in-place (CIP)

protein engineering

C2 receptor

Evasion and Attack: Structural Studies of a Bacterial Albumin-binding Protein and of a Cephalosporin Biosynthetic Enzyme

Lejon, Sara

January 2008

This thesis describes the crystal structures of two proteins in the context of combatting bacterial infections. The GA module is a bacterial albumin-binding domain from a surface protein expressed by pathogenic strains of the human commensal bacterium Finegoldia magna. The structure of the GA module in complex with human serum albumin (HSA) provides insights into bacterial immune evasion, where pathogenicity is acquired by the bacterial cell through the ability to coat (and disguise) itself with serum proteins. The structure shows binding of the GA module to HSA in the presence of fatty acids, and reveals interactions responsible for the host range specificity of the invading bacterium. The complex resulting from binding of the GA module to HSA readily forms stable crystals that permit structural studies of drug binding to HSA. This was exploited to study the specific binding of the drug naproxen to the albumin molecule. Antibiotics play a major role in controlling infections by attacking invading bacteria. The enzyme deacetylcephalosporin C acetyltransferase (DAC-AT) catalyses the last step in the biosynthesis of the beta-lactam antibiotic cephalosporin C, one of the clinically most important antibiotics in current use. The enzyme uses acetyl coenzyme A as cofactor to acetylate a biosynthetic intermediate. Structures of DAC-AT in complexes with reaction intermediates have been determined. The structures suggest that the acetyl transfer reaction proceeds through a double displacement mechanism, with acetylation of a catalytic serine by the cofactor through a suggested tetrahedral transition state, followed by acetyl transfer to the intermediate through a second suggested tetrahedral transition state. The structure of DAC-AT yields valuable information for the continued study of cephalosporin biosynthesis in the context of developing new beta-lactam compounds.

human serum albumin

GA module

albumin-binding

Finegoldia magna

cephalosporin C

antibiotic

beta-lactam

biosynthesis

Acremonium chrysogenum

X-ray crystallography

Structural biology

Strukturbiologi

Protein engineering to explore and improve affinity ligands

Linhult, Martin

January 2003

<p>In order to produce predictable and robust systems forprotein purification and detection, well characterized, small,folded domains descending from bacterial receptors have beenused. These bacterial receptors, staphylococcal protein A (SPA)and streptococcal protein G (SPG), possess high affinity to IgGand / or HSA. They are composed of repetitive units in whicheach one binds the ligand independently. The domains foldindependently and are very stable. Since the domains also havewellknown three-dimensional structures and do not containcysteine residues, they are very suitable as frameworks forfurther protein engineering.</p><p>Streptococcal protein G (SPG) is a multidomain proteinpresent on the cell surface of<i>Streptococcus</i>. X-ray crystallography has been used todetermine the binding site of the Ig-binding domain. In thisthesis the region responsible for the HSA affinity of ABD3 hasbeen determined by directed mutagenesis followed by functionaland structural analysis. The analysis shows that the HSAbindinginvolves residues mainly in the second α-helix.</p><p>Most protein-based affinity chromatography media are verysensitive towards alkaline treatment, which is the preferredmethod for regeneration and removal of contaminants from thepurification devices in industrial applications. Here, aprotein engineering strategy has been used to improve thetolerance to alkaline conditions of different domains fromprotein G, ABD3 and C2. Amino acids known to be susceptibletowards high pH were substituted for less alkali susceptibleresidues. The new, engineered variants of C2 and ABD shownhigher stability towards alkaline pH. Also, very important forthe potential use as affinity ligands, these mutated variantsretained the secondary structure and the affinity to HSA andIgG, respectively. Moreover, dimerization was performed toinvestigate whether a higher binding capacity could be obtainedby multivalency. For ABD, binding studies showed that divalentligands coupled using non-directed chemistry demonstrated anincreased molar binding capacity compared to monovalentligands. In contrast, equal molar binding capacities wereobserved for both types of ligands when using a directed ligandcoupling chemistry involving the introduction and recruitmentof a unique C-terminal cysteine residue.</p><p>The staphylococcal protein A-derived domain Z is also a wellknown and thoroughly characterized fusion partner widely usedin affinity chromatography systems. This domain is consideredto be relatively tolerant towards alkaline conditions.Nevertheless, it is desirable to further improve the stabilityin order to enable an SPA-based affinity medium to withstandeven longer exposure to the harsh conditions associated withcleaning in place (CIP) procedures. For this purpose adifferent protein engineering strategy was employed. Smallchanges in stability due to the mutations would be difficult toassess. Hence, in order to enable detection of improvementsregarding the alkaline resistance of the Z domain, a by-passmutagenesis strategy was utilized, where a mutated structurallydestabilized variant, Z(F30A) was used as a surrogateframework. All eight asparagines in the domain were exchangedone-by-one. The residues were all shown to have differentimpact on the alkaline tolerance of the domain. By exchangingasparagine 23 for a threonine we were able to remarkablyincrease the stability of the Z(F30A)-domain towards alkalineconditions. Also, when grafting the N23T mutation to the Zscaffold we were able to detect an increased tolerance towardsalkaline treatment compared to the native Z molecule. In allcases, the most sensitive asparagines were found to be locatedin the loops region.</p><p>In summary, the work presented in this thesis shows theusefulness of protein engineering strategies, both to explorethe importance of different amino acids regarding stability andfunctionality and to improve the characteristics of aprotein.</p><p><b>Keywords:</b>binding, affinity, human serum albumin (HSA),albumin-binding domain (ABD), affinity chromatography,deamidation, protein A, stabilization, Z-domain, capacity,protein G, cleaning-in-place (CIP), protein engineering, C2receptor.</p>

binding

affinity

human serum albumin (HSA)

albumin-binding domain (ABD)

affinity chromatography

deamidation

protein A

stabilization

Z-domain

capacity

protein G

cleaning-in-place (CIP)

protein engineering

C2 receptor

AVALIAÇÃO DA LIGAÇÃO DA ALBUMINA HUMANA AO NÍQUEL E SUA POTENCIAL APLICAÇÃO NA DETECÇÃO DA ISQUEMIA CARDÍACA / EVALUATION OF A NICKEL-ALBUMIN BINDING AND ITS POTENTIAL APPLICATION ON THE DETECTION OF CARDIAC ISCHEMIA

Silva, Sandra Huber da

16 July 2010

Acute coronary syndrome (ACS) is characterized by the occurrence of a set of signs and symptoms that are related to myocardial ischemia. Unstable angina (UA) and acute myocardial infarction with ST segment elevation (AMI-SST) and without ST segment elevation (AMI-SSST) comprise this syndrome. It stands out among the diseases that affect the cardiovascular system due to its high prevalence and its impact on mortality in the general population. Its formation occurs due to rupture or erosion of atheromatous plaque, producing progressive tissue ischemia. This ischemia may progress to necrosis of the cardiomyocytes and changes could be detected by laboratory biomarkers. The gold standard biomarkers for the diagnosis of myocardial necrosis are the cardiac troponins I (cTnI) or T (cTnT), which have nearly absolute myocardial specificity and clinical sensitivity, reflecting microscopic areas of myocardial necrosis. However, markers used for the detection of myocardial ischemia during the pre-infarction are potentially the most interesting because they offer the opportunity for early intervention to prevent progression of the infarction. Thus, a biomarker to detect myocardial ischemia in the absence of necrosis would add substantially to the current clinical tools. The main objectives of this study were: (a) to evaluate the binding of albumin to nickel in patients with suspected ACS and develop a laboratory method based on this property capable of detecting cardiac ischemia, (b) develop a test protocol on the binding of albumin to nickel adapted to the automated Cobas Mira, (c) to investigate the diagnostic features of this method in the diagnosis of ACS, and (d) compare the test results of albumin binding to nickel with the albumin cobalt- binding to investigate whether the type of metal used in the test interferes with the diagnostic features of the method. Patients with myocardial ischemia showed a reduction in the capacity of binding albumin to nickel. A test, which was adapted for the automated Cobas Mira, was developed to detect this change. The binding test of albumin to nickel showed a potential role in excluding the diagnosis of AMI and was effective in the diagnosis of ACS because of its significant negative and positive predictive values, respectively. The test using nickel showed a slightly higher skill in the diagnosis of ACS than the test using cobalt. Thus, we could conclude that the type of metal (nickel or cobalt) influences the characteristics of the diagnostic test. / A síndrome coronariana aguda (SCA) caracteriza-se pela ocorrência de um conjunto de sinais e sintomas que estão relacionados à isquemia miocárdica. A angina instável (AI) e o infarto agudo do miocárdio com elevação do segmento ST (IAM-SST) e sem elevação do segmento ST (IAM-SSST) compõem esta síndrome. Destaca-se dentre as doenças que acometem o sistema cardiovascular devido a sua alta prevalência e seu impacto sobre a mortalidade na população em geral. Sua formação ocorre devido à ruptura ou erosão da placa ateromatosa, produzindo isquemia progressiva tecidual, sendo que esta isquemia pode progredir para necrose dos cardiomiócitos, podendo as alterações serem detectadas por biomarcadores laboratoriais. Os biomarcadores padrão-ouro para o diagnóstico de necrose miocárdica são as troponinas cardíacas I (cTnI) ou T (cTnT), que tem quase absolutas especificidade miocárdica e sensibilidade clínica, refletindo zonas microscópicas de necrose miocárdica. No entanto, marcadores utilizados para detecção da isquemia miocárdica na fase pré-infarto são potencialmente os mais interessantes, pois oferecem a oportunidade de intervenção precoce para impedir a progressão do infarto. Desta forma, um biomarcador que realmente detecte isquemia miocárdica na ausência de necrose acrescentaria substancialmente às atuais ferramentas clínicas. Os objetivos principais deste estudo foram: (a) avaliar a ligação da albumina ao níquel em pacientes com suspeita de SCA e desenvolver um método laboratorial baseado nesta propriedade capaz de detectar a isquemia cardíaca; (b) desenvolver um protocolo do teste de ligação da albumina ao níquel adaptado ao sistema automatizado Cobas Mira; (c) investigar as características diagnósticas deste método no diagnóstico da SCA; (d) comparar os resultados obtidos no teste de ligação da albumina ao níquel com o teste de ligação da albumina ao cobalto a fim de investigar se o tipo de metal utilizado no ensaio interfere nas características diagnósticas do método. Os pacientes com isquemia do miocárdio apresentaram uma redução na capacidade de ligação da albumina ao níquel, sendo desenvolvido um teste capaz de detectar essa alteração, o qual foi adaptado para o sistema automatizado Cobas Mira. O teste de ligação da albumina ao níquel apresentou um potencial papel na exclusão diagnóstica do IAM e foi eficaz no diagnóstico da SCA em virtude de seus significativos valores preditivos negativo e positivo, respectivamente. O ensaio utilizando o níquel demonstrou uma habilidade discretamente superior no diagnóstico da SCA, do que o ensaio que utiliza o cobalto, o que permite concluir que o tipo de metal (níquel ou cobalto) influencia nas características diagnósticas do ensaio.

Síndrome coronariana aguda

Isquemia

Albumina

Cobalto

Níquel

Albumina modificada pela isquemia

Acute coronary syndrome

Ischemia

Albumin

Cobalt

Nickel

Ischemia-modified albumin

CNPQ::CIENCIAS BIOLOGICAS::FARMACOLOGIA

Genetické a molekulární mechanizmy hypertenze ve vztahu k zánětu oxidačnímu stresu a chronickému renálnímu onemocnění / Genetic and molecular mechanisms of arterial hypertension in relation to chronic inflammation, oxidative stress, and chronic kidney disease

Krajčoviechová, Alena

January 2017

This thesis provides an appraisal of the structure of clustering of metabolic phenotypes and evaluates the pathophysiological mechanisms underlying the relationship between urinary uric acid and albumin excretion. Two population-based studies were involved. In the first part, we used data obtained in a large representative cross-sectional survey in the Czech Republic (Czech post-MONICA study). We showed that the urinary albumin/creatinine ratio (uACR) was an independent factor for an increase in serum uric acid (SUA) levels in adults without manifest metabolic syndrome (MetS), but with 1-2 MetS component(s). Furthermore, SUA levels increased by the synergistic interaction of uACR with visceral adiposity and blood pressure, which may suggest obesity-related hypertension with altered renal hemodynamics as the primary mechanism. In the second part, we analyzed data captured in a representative population sample of French Canadians (CARTaGENE study) with more detailed urine biochemical analyses available. This study yielded two novel observations. First, we showed that the rs13129697 major T allele, which has been associated with increased SUA levels in our analysis as well as in prior publications, was associated with a paradoxical decrease in uACR. The reason for this discrepant finding is the...

Mouvements transmembranaires et effet sécrétagogue de l'albumine au niveau du syncytiotrophopblaste humain / Transmembrane movements and secretory effect of albumin at the human syncytiotrophoblast level

Lambot, Nathalie

17 February 2006

Le placenta assure les échanges materno-fœtaux et possède une fonction endocrine autonome. Les hormones placentaire lactogène (hPL) et chorionique gonadotrope (hCG) sont synthétisées par le syncytiotrophoblaste. A ce jour, les mécanismes impliqués dans le contrôle de la sécrétion de ces deux hormones ne sont pas connus. In vitro, l’influx d’ions Ca2+ entraîne une augmentation immédiate et soutenue de la libération d’hPL et d’hCG à partir d’explants de placentas à terme. En outre, l’élévation de la concentration extracellulaire en albumine, principale protéine maternelle circulante en contact direct avec le trophoblaste, stimule de manière immédiate et transitoire la libération d’hPL et d’hCG.<p><p>L’objectif de nos travaux a été de vérifier la spécificité de l’activité sécrétagogue de l’albumine au niveau du placenta, de caractériser les messagers cellulaires potentiellement impliqués dans la libération d’hPL et d’hCG, et de définir l’interaction entre l’albumine et le trophoblaste, en utilisant des explants provenant de placentas humains à terme.<p> <p>Nos travaux démontrent que la riposte sécrétoire à l’albumine (5%, m/v) est largement mimée par d’autres agents colloïdaux (dextran et polygéline). Cette stimulation colloïdale de la libération d’hPL et d’hCG impliquerait une mobilisation de Ca2+ à partir de réserves intracellulaires. L’intervention de 3 messagers cellulaires a été envisagée: les IPs/DAG, l’AMPc, et le GMPc. Le fluorure de sodium, la forskoline, ou le nitroprussiate sodique, activateurs connus de la production respective des IPs, de l’AMPc, et du GMPc, augmentent de manière significative les taux placentaires de chacun de ces messagers, sans toutefois affecter la libération d’hPL ou d’hCG. De plus, l’élévation de la concentration extracellulaire en albumine (5%, m/v) ne modifie pas les taux des IPs, de l’AMPc et du GMPc dans les explants placentaires, tandis qu’elle stimule la sécrétion hormonale. Ces systèmes de signalisation, bien que fonctionnels au niveau du trophoblaste, ne joueraient donc pas un rôle majeur dans la régulation de la libération d’hPL et d’hCG. <p><p>Nos résultats mettent en évidence une internalisation rapide d’albumine marquée, avec de l’125I ou de la fluorescéïne, dans le syncytiotrophoblaste. Une large fraction de cette albumine est recyclée, intacte, vers la circulation maternelle selon un processus sensible à l’abaissement de la température et indépendant du cytosquelette. L’albumine marquée restant dans les explants placentaires est partiellement dégradée. Trois mécanismes ont été envisagés pour expliquer ces mouvements d’entrée et de sortie de l’albumine au sein du placenta humain: l’endocytose médiée par l’albondine via les caveolae, le système des coated pits clathrine-dépendant, et l’endocytose médiée par la mégaline. Par immunohistochimie, nous avons montré que, dans le tissu placentaire, la caveoline-1, protéine caractéristique des caveolae, est localisée uniquement dans l’endothelium des capillaires fœtaux. La clathrine, au niveau des coated pits, et la mégaline se trouvent au contraire dans le syncytiotrophoblaste. La méthyl-b-cyclodextrine et l’hydrochlorure de chlorpromazine, inhibiteurs d’une endocytose dépendant de la clathrine, réduisent significativement l’internalisation placentaire de l’albumine marquée. Par contre, le DIDS ou le NPPB, susceptibles de perturber l’endocytose médiée par la mégaline, n’affectent pas la captation d’albumine marquée par les explants placentaires. L’albumine pénétrerait donc dans le syncytiotrophoblaste principalement par un processus clathrine-dépendant. La mégaline ne jouerait ici qu’un rôle mineur dans l’entrée de la protéine. Un tel processus de recyclage de l’albumine pourrait être similaire à celui décrit pour les immunoglobulines G au niveau du syncytiotrophoblaste.<p><p>Ces mouvement d’entrée et de sortie de l’albumine ne semblent pas associés à la stimulation de la libération d’hPL et d’hCG par l’albumine. Ils pourraient par contre participer significativement, étant donné leur ampleur, à la nutrition fœtale. L’albumine est en effet un transporteur notoire d’ions et d’acides gras, molécules qui pourraient être acheminées au fœtus via le phénomène de recyclage placentaire de l’albumine mis en évidence par ce travail. /<p><p>The human placenta is the site of all maternal-fetal exchanges, and is also an active endocrine organ. Placental lactogen (hPL) and chorionic gonadotrophin (hCG) hormones are synthesized by the syncytiotrophoblast. So far, the mechanisms involved in the regulation of both hormones secretion remain elusive. In vitro, calcium inflow causes an immediate and sustained rise in the hPL and hCG releases from human term placenta explants. Moreover, increasing the extracellular concentration of albumin, the major maternal plasma protein in direct contact with the human trophoblast, stimulates the hPL and hCG releases in an immediate and transient way.<p><p>Our study have aimed to check the specificity of this secretory effect of albumin, to investigate the potential cellular messengers involved in the hPL and hCG releases, and to define the interaction between albumin and the throphoblast layer, using human term placenta explants.<p><p>Our results indicate that the triggering effect of albumin (5%, w/v) is largely mimicked by two other colloidal agents (dextran and polygelin). This “colloidal” stimulation of the hPL and hCG releases would involve the mobilization of calcium from intracellular pools. Three cellular messengers have been considered to mediate this process: the IPs/DAG, the cAMP, and the cGMP. Sodium fluoride, forskolin, or sodium nitroprusside, known activators of respectively the IPs, cAMP, and cGMP production, significantly increase the placental content of each of those messengers, without modifying the hPL and hCG releases. In addition, raising the extracellular concentration of albumin does not cause any change in the placental level of IPs, cAMP, and cGMP, while stimulating the hormonal release. These three signaling pathways are thus functional in human term trophoblast but do not appear to significantly modulate the hPL and hCG secretions. <p><p>Our findings show that albumin, labeled with 125I or with fluorescein, is rapidly internalized into the syncytiotrophoblast. Thereafter, the intact protein is largely recycled to the maternal circulation, through a temperature-sensitive and cytoskeleton-independent process. The labeled albumin remaining in placental explants is partially degraded. Three different mechanisms could participate to the albumin entry into the human placenta: the albondin-mediated endocytosis via the caveolae, the clathrin-dependent coated pits system, and the megalin-mediated endocytosis. Using immunohistochemistry, caveolin-1, marker of the caveolae, is localized in the endothelium of the fetal capillaries and not in the syncytiotrophoblast. By contrast, clathrin and megalin are observed only in the syncytiotrophoblast. Methyl-b-cyclodextrin, and chlorpromazine hydrochloride, known inhibitors of the clathrin-dependent endocytotic process, significantly reduce the placental uptake of labeled albumin. On the other hand, DIDS or NPPB, able to perturb the megalin-mediated endocytosis, do not affect the labeled albumin uptake. Thus, albumin seems to be internalized into the syncytiotrophoblast mainly through a clathrin-dependent mechanism. Megalin would only play a minor role in this process. Such movements of albumin in the human placenta may be similar to the recycling process reported for IgG at that site.<p><p>The placental apical recycling of albumin is not associated to the albumin triggering effect on the hPL and hCG releases. This quantitatively significant internalization process may participate to the fetus’ nutrition. Indeed, Albumin carries ions and fatty acid, which could be brought to the fetus via the protein recycling evidenced by our study.<p><p><p> <p> / Doctorat en sciences biomédicales / info:eu-repo/semantics/nonPublished

Médecine pathologie humaine

Maternal-fetal exchange

Placenta

Trophoblast

Albumin

Echange foeto-maternel

Placenta

Trophoblaste

Albumine

hPL

endocytosis

human placenta

trophoblaste / albumin

endocytose

hCG

placenta humain

albumine

Protein interaction with polyelectrolytes and ligands: A structural and thermodynamic investigation

Yu, Shun

29 August 2017

Der erste Teil dieser Arbeit untersucht die Ladungswechselwirkung zwischen Proteinen und Polyelektrolyten. Dabei wird die Bindung von Polyakrylsäure (PAA) als kurzes Modell-Polyelektrolyt an Humanalbumin (HSA) in einer umfassenden experimentellen und theoretischen Studie untersucht und sehr gute Übereinstimmung der Resultate konnte festgestellt werden. Die Computersimulationen in dieser Arbeit wurden von Xiao Xu im Rahmen seiner Promotion durchgeführt. Thermodynamische Daten wurden mit Hilfe von Isothermer Titrationskalorimetrie (ITC) gesammelt und strukturelle Untersuchungen wurden mit Hilfe von Neutronenkleinwinkelstreuung (SANS) durchgeführt. Die Analyse von Bindungsaffinitäten zeigte eine eins zu eins Bindung von PAA mit HSA, die entropisch getrieben ist und strukturellen Untersuchungen weisen eine stabile Proteilstruktur unabhängig von der Adsorption durch PAA auf. Im zweiten Teil der Arbeit wird die Wechselwirkung zweier uremischer Toxinen, nämlich Phenylessigsäure (PhAA) und Indoxylsulfat (IDS), mit HSA untersucht. Eine wichtige Schlussfolgerung aus der Analyse der ITC Daten ist, dass begünstigende, hydrophobe Wechselwirkungen die treibende Kraft für die Adsorption von Toxinen an HSA sind, und dass hierbei die Enthalpie-Entropie-Kompensation (EEC) zu tragen kommt. Weiterhin zeigen SANS Untersuchungen, dass die Proteinstruktur trotz Adsorption stabil bleibt und konnte außerdem über Interpartikulare Wechselwirkung von HSA-Toxin Komplexen aufklären. Im Allgemeinen ist HSA strukturell unverändert durch die Adsorption von Liganden. Diese Feststellung erlaubt die Interpretation von ITC Daten, da damit gemessene Wärmeprozesse ausschließlich von Bindungsprozessen herrühren. Die vorliegende Arbeit konnte zeigen, dass eine ausführliche thermodynamische Analyse durch Kombination von theoretischer mit experimenteller Arbeit, eine umfassende Einsicht in die Mechanismen von Bindungsprozessen ermöglicht. / The first part of the thesis explores the charge-charge interaction between proteins and polyelectrolytes. Polyacrylic acid (PAA) is used as a short model polyelectrolyte to interact with human serum albumin (HSA) the most abundand protein in blood, in a comprehensive experimental and theoretical study. The results thereby coincide very well. Computer simulation studies were performed by Xiao Xu within the framework of his PhD thesis. Thermodynamic data were collected by means of isothermal titration calorimetry (ITC) and structural analysis performed using small-angle neutron scattering (SANS). The analysis of binding free energies revealed one to one binding that is mainly driven by entropy. Structural investigations give proof of the stability of the protein beside adsorption. In the second part, the interaction of two uremic toxins, namely phenylacetic acid (PhAA) and indoxyl sulfate (IDS), with HSA is studied. Systematic ITC experiments reveal two binding sites for both of the two toxins and show small dependence of binding affinities on ionic strength in contrast to PAA adsorption to HSA. This leads to the key conclusion that the favorable hydrophobic interaction is the driving contribution for adsorption and enthalpy-entropy compensation (EEC) effect comes into play. SANS studies of high concentrated HSA-toxin solutions proofed the stability of the protein structure and shed light on the interparticle interaction of HSA-toxin complexes. In general, HSA is structurally robust regardless of ligand uptake. This finding allows the interpretation of ITC data by confirming that the measured heat signals are purely associated to the binding process. The present thesis has demonstrated that a full thermodynamic analysis in combination with theoretical modelling can provide a comprehensive understanding of binding in terms of identifying driving forces and their contributions to protein ligand interaction.

Polyeletrolyt

Human Serum Albumin

Ligand

Isothermale Titrationskalorimetrie

polyelectrolyte

human serum albumin

ligand

isothermal titration calorimetry

530 Physik

WD 5275

VG 7107

ddc:530

Identifizierung von geeigneten equinen Seren zur Zellkultivierung durch massenspektrometrische Bestimmung von Lipid-Biomarkern

Ditz, Timo

11 February 2022

Bei der Zellkultivierung wird dem artifiziell hergestellten Grundmedium meist tierisches Serum hinzugefügt, um ein adäquates Wachstum der Zellen zu gewährleisten. So liefert das Serum zusätzliche Nährstoffe, essenzielle Wachstumsfaktoren und eine Vielzahl weiterer Moleküle. Die Seren werden kommerziell aus tierischem Vollblut hergestellt und normalerweise vor ihrer Auslieferung auf bestimmte Parameter, wie zum Beispiel Aminosäure-Gehalt und Albumin-Konzentration, getestet. Trotz dieser Testung seitens der vertreibenden Unternehmen bestehen große Qualitätsunterschiede bei den Zellkulturanwendungen. Somit sind Forschungslabore häufig gezwungen Probeseren anzufordern und diese in eigenen zeitaufwendigen und kostenintensiven Zellkulturversuchen zu testen, bevor ein Serum ausgewählt und in den eigentlichen Versuchen eingesetzt werden kann. Auch die serumvertreibenden Unternehmen müssen demzufolge alle Serumchargen bis zum Abschluss der Testversuche in ausreichenden Mengen bereithalten, was einen bedeutenden Mehraufwand darstellt. Aus diesen Gründen wäre es eine entscheidende Vereinfachung, wenn ein geeigneter Biomarker zur Testung der Serumtauglichkeit gefunden werden könnte, der diese aufwendigen Vorversuche ersetzt. Ein potenzieller Biomarker könnte das Glycerophospholipid Lysophosphatidylcholin (LPC) sein. Seine stressbedingte Bildung, vorrangig aus Phosphatidylcholin (PC), im Rahmen von Entzündungen, oxidativem Stress oder ungünstigen Lagerungsbedingungen könnte als Indikator für qualitätsmindernde Prozesse im Serum dienen. Des Weiteren könnte das vermehrte LPC selbst einen entscheidenden Einfluss auf das Wachstum von Zellen haben und somit die Qualität der Seren widerspiegeln. Die Matrix-assisted laser desorption/ionization time-of-flight Massenspektrometrie (MALDI-TOF MS) eignet sich aufgrund ihrer Robustheit gegenüber Verunreinigungen und der hohen Messgeschwindigkeit für die Detektion beider Moleküle in biologischen Materialen. Zur weiteren Vereinfachung der Bestimmung der LPC-Konzentration mittels MALDI-TOF MS wird oft auf den Zusatz eines internen Standards verzichtet, um zusätzliche Fehlerquellen zu vermeiden. Hierbei wird LPC ausschließlich relativ zur PC-Konzentration ermittelt (PC/LPC-Verhältnis). Da es sich bei Serum um eine komplexe, biologische Probe handelt, könnten Molekülinteraktionen wie beispielsweise Protein-Lipid-Interaktionen Grund für unterschiedliche PC/LPC-Verhältnisse sein. Albumin als ubiquitär im Serum vorhandenes Protein kann eine Vielzahl von Molekülen binden, darunter auch bestimmte Lysophospholipide. Somit ist es wichtig zu klären, inwieweit Albumin eine adäquate Detektion von Lysophosphatidylcholin verhindern beziehungsweise beeinflussen kann. Die hier publizierte Arbeit konnte zeigen, dass Albumin-Zusatz (von Pferd und Rind) zu einem Anstieg des detektierten PC/LPC-Verhältnisses im „intakten“ Serum führt. Umgekehrt sinkt das PC/LPC-Verhältnis beim enzymatischen Verdau des Albumins wieder, weil nun mehr LPC detektiert werden kann. Der Einfluss von Pepsin und Trypsin, die durch den enzymatischen Verdau des Albumins zu einer verbesserten LPC-Detektion führen, wurde unter verschiedenen Bedingungen (Konzentration, Inkubationszeit, Temperatur) verglichen. Abschließend wurde ein verbessertes Protokoll für die MALDI-TOF MS-Messungen des PC/LPC-Verhältnisses im „intakten“ Serum durch einen vorausgehenden Pepsin-Verdau vorgeschlagen. Dabei muss vor allem darauf geachtet werden, möglichst niedrige Temperaturen zu verwenden, um die temperaturbedingte Konversion von PC zu LPC zu minimieren. Sowohl das ursprüngliche als auch das erweiterte Messprotokoll fand im zweiten Teil der Arbeit Anwendung. Hier wurde die aufwendige konventionelle Qualitätstestung von Pferdeseren mittels Zellkultur mit der massenspektrometrischen Messung von LPC als Biomarker verglichen, um eine etwaige Vereinfachung der Serumselektion zu evaluieren. Die verwendeten FDCPmix-Zellen sind murine hämatopoetische Vorläuferzellen, die beispielsweise zur Untersuchung der hämatopoetischen Stammzellnische verwendet werden. Ähnlich wie die hämatopoetischen Stammzellen selbst, stellen die FDCPmix-Zellen hohe Anforderungen an die Zellkulturbedingungen. Wird inadäquates Medium bzw. Serum verwendet, können Wachstum und Differenzierungspotential negativ beeinflusst werden, wodurch die Zellen nicht mehr für weitere Versuche geeignet sind. Folglich ist die achtsame Auswahl des Pferdeserums essenziell. Acht Pferdeseren von verschiedenen Anbietern wurden zur Kultivierung nach derzeitigem Goldstandard eingesetzt. Als Evaluationsparameter für die Qualität des jeweiligen Serums wurden Zellwachstum, Differenzierungspotenzial nach Kultivierung und die Fähigkeit Zellkolonien im semifesten Medium (colony forming units - CFUs) zu bilden, verwendet. Hierbei zeigten sich deutliche Unterschiede zwischen den verschiedenen Seren. Insbesondere in der Fähigkeit CFUs auszubilden und im Wachstum waren die größten Unterschiede zu erkennen. Diese Zellkultur-Ergebnisse wurden mit MALDI-TOF MS-Messungen des PC/LPC-Verhältnisses vor und nach Pepsinverdau im „intakten“ Serum verglichen. Jedoch korrelierte das PC/LPC-Verhältnis nicht mit den Ergebnissen der Zellkulturexperimente. Dies ist mit den Unterschieden in der PC-Konzentration zwischen den verschiedenen Seren zu erklären. Enthält ein Serum generell viel PC, so kann trotz eines hohen PC/LPC-Verhältnisses die LPC-Konzentration im Serum zu hoch sein und die Zellkultivierung negativ beeinflussen. Deshalb wurde LPC mit Hilfe eines internen Standards quantifiziert. Bei den für die Kultivierung ungeeigneten Seren lag, sowohl vor als auch nach Proteinverdau, eine hohe LPC-Konzentration vor. Umgekehrt konnten die Pferdeseren mit geringen LPC-Konzentrationen mit günstigen Zellkultur-Ergebnissen assoziiert werden. Dieser negative Einfluss einer hohen LPC-Konzentration konnte durch die artifizielle Zugabe von LPC zur Zellkultur weiter bestätigt werden. Im Gegensatz zum nicht manipulierten Kontrollmedium zeigten die Proben mit artifiziell erhöhter LPC-Konzentration vor allem eine deutlich geringere Fähigkeit CFUs auszubilden, welches ein Kernkriterium für die Verwendbarkeit des Serums ist. Insgesamt konnte folglich der negative Einfluss von LPC auf die Zellkultur gezeigt werden, was seine Eignung als Indikator für die Serumqualität bestätigt. Zusätzlich zur LPC-Konzentration wurden weitere Mediator- und Signalmoleküle untersucht, die im Zuge des PC/LPC-Stoffwechsels entstehen können und unter anderem Entzündungsprozesse beeinflussen. Bei der Konversion von PC zu LPC durch die Phospholipase A2 oder durch oxidativen Stress wird die Fettsäure (z.B. Arachidonsäure oder Linolsäure) an der sn-2-Position vom Glycerolrückgrat freigesetzt und steht zur weiteren Metabolisierung durch beispielsweise Cyclooxygenasen oder Lipoxygenasen zur Verfügung. Hierbei können Eikosanoide wie Thromboxane, Prostaglandine oder Leukotriene entstehen. Daher wurden die Pferdeseren weiterhin auf Eikosanoide mittels Flüssigchromatographie (LC)-MS/MS getestet. Hierbei zeigte sich, dass erhöhte Thromboxan B1-, Thromboxan B2- und 12-S-Hydroxy-Heptadecatriensäure-Konzentrationen ebenfalls auf eine ungünstige Serumqualität hinweisen. Zudem konnte gezeigt werden, dass die Seren mit hohen LPC-Konzentrationen und daher schlechten Zellkultur-Ergebnissen ebenfalls hohe Konzentrationen an Linolsäure aufweisen. Diese Fettsäure wird typischerweise bei der Konversion von im Pferdeserum vorkommenden PC zu LPC aus der sn-2-Position freigesetzt. Somit scheint neben der LPC-Konzentration auch das Eikosanoidprofil qualitative Aussagen über das jeweilige Pferdeserum zu erlauben. Zusammenfassend lässt sich sagen, dass sowohl niedrige absolute LPC- als auch niedrige entzündungsfördernde Eikosanoid-Level mit einer günstigen Serumqualität korrelieren. Jedoch benötigt die Bestimmung des Eikosanoidprofils im Gegensatz zur LPC-Bestimmung anspruchsvollere Messmethoden wie LC-MS/MS. Die LPC-Konzentration kann mittels MALDI-TOF MS zuverlässig ermittelt werden. Diese robuste, schnelle und preiswerte Methode ermöglicht die direkte Messung im „intakten“ Serum. Dabei ist die Zugabe eines internen Standards zur Bestimmung der absoluten LPC-Konzentration notwendig, da sich das PC/LPC-Verhältnis als ungeeignet für die Qualitätsevaluation von Zellkulturseren erwiesen hat.:Inhaltsverzeichnis Abkürzungsverzeichnis Abbildungsverzeichnis 1 Einführung 1.1 Allgemeine Einleitung 1.2 Factor dependent cells Paterson mixed potential (FDCPmix-Zelllinie) 1.3 Phosphatidylcholin und Lysophosphatidylcholin 1.4 Eikosanoide 1.5 Massenspektrometrie 1.5.1 MALDI-TOF Massenspektrometrie 1.5.2 ESI-IT Massenspektrometrie 1.6 Ziele der Dissertation 2 Publikationsmanuskripte 2.1 Determination of the Phosphatidylcholine/Lysophosphatidylcholine Ratio in Intact Serum by Matrix-Assisted Laser Desorption/Ionization Mass Spectrometry with Prior Enzymatic Albumin Digestion 2.2 Phospholipase A2 products predict the hematopoietic support capacity of horse serum 3 Zusammenfassung der Arbeit 4 Literaturverzeichnis 5 Nachweis über Anteile der Co-Autoren 6 Erklärung über die eigenständige Abfassung der Arbeit 7 Lebenslauf 8 Publikationen 9 Danksagung

info:eu-repo/classification/ddc/610

ddc:610