Nouvelles approches par spectrométrie de masse pour la caractérisation de systèmes archéologiques et biologiques : application à l'étude de cheveux de momies préhispaniques de la côte andine / New approaches by mass spectrometry for the characterization of archaeological and biological systems : application to the study of hair of prehispanic mummies from the Andean coast

Fresnais, Margaux

21 September 2016

Les cheveux constituent un matériau de choix en archéométrie pour l’étude des civilisations anciennes. L’étude moléculaire de cheveux de momies et de leur protéome peut apporter de précieuses informations sur la composition, la préservation et l’environnement de la fibre. Une approche protéomique bottom-up dédiée à l’analyse en MS des protéines de cheveux de momies a été donc implémentée. Celle-ci a permis l’identification des protéines capillaires de cheveux anciens à partir de quantités minimales, ainsi que la caractérisation de leur état de conservation. Cette approche a été associée à une stratégie interdisciplinaire, intégrant également des analyses structurelles par FTIR, et élémentaires par SEM-EDS, XRF et PIXE. Enfin, le couplage direct TLC-MALDI-MS a été mis en place pour la caractérisation de systèmes biologiques et archéologiques, complexes et précieux. / Hair is an ideal material for the archaeometric study of past civilizations. Although it is rarely described, molecular study of hair and its proteome can provide precious clues on the ancient hair composition, its preservation state, as well as its environment. Here, we describe the implementation of a bottom-up proteomic approach for the mass spectrometry analysis of proteins from mummy hair. Through this approach, it was possible to identify the ancient hair proteins from a minimal initial amount of sample, and to characterize their molecular conservation state. This study was associated to an interdisciplinary project that also integrates structural analyses by FTIR and elemental analyses by SEM-EDS, XRF and PIXE. Finally, TLC-MALDI-MS hyphenation was implemented for the characterization of biological and archaeological systems, which are also complex and precious.

Spectrométrie de masse

Cheveux de momie

Protéomique

TLC-MALDI-MS

Mass spectrometry

Mummy hair

Proteomics

Biomarker of keratin degradation

TLC-MALDI-MS

543

Vliv probíhající gravidity na mechanické parametry vlasů / Changes in the mechanical parameters of women's hair during pregnancy

Skřontová, Marie

January 2017

Title: Changes in the mechanical parameters of women's hair during pregnancy Matters: We can look from different angles on the hair - as on a nanocomposite fiber and as on biomaterial changing with the origin and age. The hair doesn't differ only by lenght, stucture and color but also by diameter and shape. It reflects the overall health of the individual and all the processes in the organism of the individual and thus also the pregnancy. During pregnancy, hormonal changes take place which have an effect on the hair. Many women experience faster hair growth, extension and increased volume of the hair during pregnancy. This status is only temporary and lasts only to the childbirth. Aim: The aim of this work was to show the influence of pregnancy on mechanical parameters of hair and what direction this influence takes. Next, using questionnaires, to better solve the effect of particular pregnancy parameters on the hair, i.e. pregnancy order, sex of the child. Then, evaluate the whole problem using statistical tests and so make better sense of it. Methods: We'd selected a group of 64 pregnant women; hair samples were cut from them in the nape area each month throughout pregnancy. Each measurement started with evaluation of hair diameter with the use of optical microscope. Next, the hair had been...

From Horns to Helmets: Multi-Objective Design Optimization Considerations to Protect the Brain

Johnson, Kyle Leslie

12 August 2016

This dissertation presents an investigation and design optimization of energy absorbent protective systems that protect the brain. Specifically, the energy absorption characteristics of the bighorn sheep skull-horn system were quantified and used to inform a topology optimization performed on a football helmet facemask leading to reduced values of brain injury indicators. The horn keratin of a bighorn sheep was experimentally characterized in different stress states, strain rates, and moisture contents. Horn keratin demonstrated a clear strain rate dependence in both tension and compression. As the strain rate increased, the flow stress increased. Also, increased moisture content decreased the strength and increased ductility. The hydrated horn keratin energy absorption increased at high strain rates when compared to quasi-static data. The keratin experimental data was then used to inform constitutive models employed in the simulation of bighorn sheep head impacts at 5.5 m/s. Accelerations values as high as 607 G’s were observed in finite element simulations for rams butting their heads, which is an order of magnitude higher than predicted brain injury threshold values. In the most extreme case, maximum tensile pressure and maximum shear strains in the ram brain were 245 kPa and 0.28, respectively. These values could serve as true injury metrics for human head impacts. Finally, a helmeted human head Finite Element (FE) model is created, validated, and used to recreate impacts from a linear impactor. The results from these simulations are used to train a surrogate model, which is in turn utilized in multi-objective design optimization. Brain injury indicators were significantly reduced by performing multi-objective design optimization on a football helmet facemask. In particular, the tensile pressure and maximum shear strain in the brain decreased 7.5 % and 39.5 %, respectively when comparing the optimal designs to the baseline design. While the maximum tensile pressure and maximum shear strain values in the brain for helmeted head impacts (30.2 kPa and 0.011) were far less than the ram impacts (245 kPa and 0.28), helmet impacts up to 12.3 m/s have been recorded, and could easily surpass these thresholds.

structure-property relationship

metamodeling

surrogate modeling

football helmet

traumatic brain injury

concussion

multi-objective design optimization

shock wave

keratin

mechanical properties

bighorn sheep

ram horn

Vliv probíhající gravidity na mechanické parametry vlasů / Changes in the mechanical parameters of women's hair during pregnancy

Skřontová, Marie

January 2017

Title: Changes in the mechanical parameters of women's hair during pregnancy Matters: We can look from different angles on the hair - as on a nanocomposite fiber and as on biomaterial changing with the origin and age. The hair doesn't differ only by lenght, stucture and color but also by diameter and shape. It reflects the overall health of the individual and all the processes in the organism of the individual and thus also the pregnancy. During pregnancy, hormonal changes take place which have an effect on the hair. Many women experience faster hair growth, extension and increased volume of the hair during pregnancy. This status is only temporary and lasts only to the childbirth. Aim: The aim of this work was to show the influence of pregnancy on mechanical parameters of hair and what direction this influence takes. Next, using questionnaires, to better solve the effect of particular pregnancy parameters on the hair, i.e. pregnancy order, sex of the child. Then, evaluate the whole problem using statistical tests and so make better sense of it. Methods: We'd selected a group of 64 pregnant women; hair samples were cut from them in the nape area each month throughout pregnancy. Each measurement started with evaluation of hair diameter with the use of optical microscope. Next, the hair had been...

Validation of anti-cytokeratin antibodies used in rapid cancer diagnostics by isoelectric focusing and QCM technology

Kostines, Reneh

January 2021

Antibodies are Y-shaped proteins. In the human body, antibodies areproduced by plasma cells, mainly T and B cells which are included inthe adaptive immune system. The production of antibodies is stimulatedby antigens. The binding between an antigen-specific antibody and itsantigen can be like the interconnect between a lock and a key.Therefore, antibodies are widely used as diagnostic tools for avariety of diseases but most importantly cancer. Some rapid diagnostictests are completely dependent on the specificity and reactivity ofantibodies such as UBC® Rapid produced by IDL Biotech AB. Therefore,the quality of these antibodies is important. This master thesis at IDL Biotech aimed to validate six anticytokeratinantibodies that are currently used in several rapid cancerdiagnostic tests produced by IDL. Antibody validation is a processwhere specificity, selectivity and reproductivity of an antibody isdemonstrated through specific laboratory investigations. During thisthesis, two laboratory methods were used to validate antibodies,namely, isoelectric focusing electrophoresis and the Attana QuartzCrystal Microbalance based biosensor. Isoelectric focusing electrophoresis (IEF) is a method that determinesproteins pI-values which can then reveal information about posttranslationalmodifications and protein sustainability during storage.IEF revealed changes in pI-values in two antibodies: AB2 and AB4. Attana biosensor analysis on AB1-5 showed that all antibodies havehigh specificity, reactivity and relatively high affinity to theircytokeratin targets. It also revealed that 4 antibodies (AB1 and AB3-5) have lower cross-reactivity with other cytokeratins than theirtarget cytokeratins compared to AB2. Keywords: Antibody validation, Isoelectric focusing, QCM, Attanabiosensor, biosensors, rapid diagnostics, epithelial carcinomas.

IEF

Isoelectric focusing

QCM

Attana

Cytokeratin

Keratin

Attana

Anti-cytokeratin

cancer

UBC

IDL

epithelial carcinomas

Antibody validation

Biosensor

Biosensors

Diagnostic Biotechnology

Diagnostisk bioteknologi

The influence of acid and direct azo dyes and their intermediates on the degradation of wool keratin. The characterisation by yarn strength measurements of the degradation of wool under conditions relevant to dyeing and of the keratin degradation products, by fractionation, electrophoresis and amino acid analysis.

McComish, John

January 1981

The degradation of wool keratin under conditions relevant to those of wool dyeing was investigated using the techniques of gel permeation chromatography (GPC), ion exchange gel chromatography, and amino acid analysis. Physical testing of the treated and untreated wool was also carried out to determine the physical changes occurring, parameters used being percentage elongation at the break, and the breaking strain of the fibre. Samples of wool keratin were immersed in various aqueous solutions at 1000C for 24 hours and the filtered, aqueous, oxidised extracts were analysed* The solutions used varied only in the dye, or dye intermediate present in the treatment solution. All treatment baths contained 10% owf 1.02 x 10 -2 MSulphuric VI acid; 10%owf 7.04x 10 -3 MSodium sulphate VI ; A 100 :1 liquor ratio was used in each case. Some of the dye intermediates showed a marked catalytic effect, particularly in their effect on breaking strain, a decrease of 40% in some cases. The GPC profiles of the extracted proteins were examined in detail and compared against previous workers' results. An explanation of the behaviour of the dyes and intermediates was proposed. The amino acid composition data of the extracted and fractionated proteins were compared against various morphological components extracted by other workers, as was the total gelatin obtained from each treatment. / Science Research Council

Dyeing

Wool

Keratin

Azo dyes

Degradation

Yarn strength

Fractionation

Electrophoresis

Amino acid analysis

Gel permeation chromatography (GPC)

Ion exchange gel chromatography

An isotopic and historical study of diet and migration during the great Irish Potato famine (1845-1852). High-resolution carbon and nitrogen isotope profiling of teeth to investigate migration and short-term dietary change at the Union workhouse, Kilkenny and Lukin street, London.

Beaumont, Julia

January 2013

Historical evidence from contemporary documents established that Irish migrants to London during the Great Irish Famine (1845-1852) were likely to come from low socio-economic groups in south-west Ireland, and has characterised mid-19th-century health status and living conditions in both locations. Using samples from 119 individuals from the Catholic cemetery at Lukin Street, London (1843-1854) and 20 from the Union Workhouse Famine cemetery, Kilkenny, Ireland (1847-51), mean bone collagen isotope values were established for the well-documented Irish pre-Famine potato-based diet (¿15N 10.6¿, ¿13C -19.1¿), and the diet of contemporaneous Londoners (¿15N 12.6¿, ¿13C -19.1¿). The introduction of maize as a short-term Famine relief food was identified in three Kilkenny juveniles with bone collagen ¿13C above -17¿, and incremental dentine collagen demonstrating temporal changes in ¿13C consistent with dietary change from C3 to C4 plants. Bone collagen values for two Lukin Street individuals were consistent with high marine protein consumption. Techniques developed in this study to sample increments of dentine representing nine months or less of life have improved temporal resolution not only for migration events but also short-term dietary changes and physiological status during childhood. Combining epigraphic, osteological and archaeological evidence, individual ¿lifeways¿ have been constructed using isotope data and provide insights into the connection between health, diet and skeletal manifestations of deprivation during childhood and adolescence. New models are investigated for examining maternal and infant health using dentine collagen increments formed in utero and combining dentine and bone collagen values to explore the effects of nutritional stress on bone turnover. / Arts and Humanities Council. The British Federation of Women Graduates (the Eila Campbell scholarship). The British Association for Biological, Anthropology and Osteoarchaeology (the Jane Moore prize).

Stable isotopes

England

Ireland

Maize

Bone

Collagen

Dentine

Palaeodiet

Great Irish Famine (1845-1852)

Irish Potato Famine

Nutritional stress

Dietary changes

Physiological status

Stable isotope analysis

Hair keratin

Modulation of Keratin Biomaterial Formulations for Controlled Mechanical Properties, Drug Delivery, and Cell Delivery Applications

Lee, Ryan Thomas

09 December 2013

No description available.

Biomedical Engineering

Materials Science

Chemical Engineering

Keratose Hydrogels Promote Vascular Smooth Muscle Differentiation from c-kit+ Human Cardiac Stem Cells: Underlying Mechanism and Therapeutic Potential

Ledford, Benjamin

23 March 2018

Cardiovascular disease is the leading cause of death in the United States, and coronary artery disease (CAD) kills over 370,000 people annually. There are available therapies that offer a temporary solution; however, only a heart transplant can fully resolve heart failure, and donor organ shortages severely limit this therapy. C-kit+ human cardiac stem cells (hCSCs) offers a viable alternative therapy to treat cardiovascular disease by replacing damaged cardiac tissue; however, low cell viability, low retention/engraftment, and uncontrollable in vivo differentiation after transplantation has limited the efficacy of stem cell therapy. Tissue engineering solutions offer potential tools to overcome current limitations of stem cell therapy. Materials derived from natural sources such as keratin from human hair offers innate cellular compatibility, bioactivity, and low immunogenicity. Keratin proteins extracted using oxidative chemistry known as keratose (KOS) have shown therapeutic potential in a wide range of applications including cardiac regeneration. My studies utilize KOS hydrogels to modulate c-kit+ hCSC differentiation, and explore the capability of differentiated cells to regenerate vascular tissue. In the first Chapter, we reviewed literature relevant to keratin-based biomaterials and their biomedical applications, the use of stem cells in cardiovascular research, and the differentiation of vascular smooth muscle cells (VSMCs). The section on biomedical applications of keratin biomaterials focuses on the oxidized form of keratin known as keratose (KOS), because this was the material used for our research. Since we planned to use this material in conjunction with c-kit+ hCSCs, we also briefly explored the use of stem cells in cardiovascular research. Additionally, we examined some key signaling pathways, developmental origins, and the cell phenotype of VSMCs for reasons that will become clear after observing results from chapters 2 and 3. Based upon our review of the literature, KOS biomaterials and c-kit+ hCSCs were determined to be promising as a combined therapeutic for the regeneration of cardiac tissue. Research in Chapter 2 focused on characterizing the effects of KOS hydrogel on c-kit+ hCSC cell viability, proliferation, morphology, and differentiation. Results demonstrated that KOS hydrogels could maintain hCSC viability without any observable toxic effects, but it modulated cell size, proliferation, and differentiation compared to standard tissue culture polystyrene cell culture (TCPS). KOS hydrogel produced gene and protein expression consistent with a VSMC phenotype. Further, we also observed novel "endothelial cell tube-like" microstructures formed by differentiated VSMCs only on KOS hydrogel, suggesting a potential capability of the hCSC-derived VSMCs for in vitro angiogenesis. Results from this study lead us to question what signaling pathways might be responsible for the apparent VSMC differentiation pattern we observed on KOS hydrogels. Research in Chapter 3 explored the time course of VSMC differentiation, cell contractility, inhibition of VSMC differentiation, and measured protein expression of transforming growth factor beta 1 (TGF-β1) and its associated peptides for hCSCs cultured on KOS hydrogels, tissue culture polystyrene, and collagen hydrogels. A review of VSMC differentiation signaling pathways informed our decision to investigate the role of TGF-β1 in VSMC differentiation. Results demonstrated that KOS hydrogel differentiated hCSCs significantly increased expression for all three vascular smooth muscle (VSM) markers compared to TCPS differentiated cells. Additionally, KOS differentiated hCSCs were significantly more contractile than cells differentiated on TCPS. Recombinant human (rh) TGF-β1 was able to induce VSM differentiation on TCPS. VSM differentiation was successfully inhibited using TGF-β NABs and A83-01. Enzyme-Linked Immunosorbent Assay (ELISA) analysis revealed that both TCPS and KOS hydrogel differentiated cells produced TGF-β1, with higher levels being measured at early time points on TCPS and later time points on KOS hydrogels. Results from supplementing rhTGF-β1 to TCPS and KOS hydrogels revealed that KOS seems to interact with TGF-β to a greater extent than TCPS. Western blot results revealed that latency TGFβ binding protein (LTBP-1) and latency associated peptide (LAP) had elevated levels early during differentiation. Further, the levels of LTBP-1 and LAP were higher on KOS differentiated hCSCs than TCPS hCSCs. This study reaffirms previous results of a VSM phenotype observed on KOS hydrogels, and provides convincing evidence for TGF-β1 inducing VSM differentiation on KOS hydrogels. Additionally, results from ELISA and western blot provide evidence that KOS plays a direct role in this pathway via interactions with TGF-β]1 and its associated proteins LTBP-1 and LAP. Results from chapter 2 and 3 offered significant evidence that our cells exhibited a VSMC phenotype, and that TGF-β1 signaling was a key contributor for the observed phenotype, but we still needed an animal model to explore the therapeutic potential of our putative VSMCs. Research in Chapter 4 investigated a disease model to test the ability of KOS hydrogel differentiated cells to regenerate vascular tissue. To measure vascular regenerative capability, we selected a murine model of critical limb ischemia (CLI). CLI was induced in 3 groups (n=15/group) of adult mixed gender NSG mice by excising the femoral artery and vein, and then treated the mice with either PBS (termed as PBS-treated), Cells differentiated on TCPS (termed as Cells from TCPS), or KOS hydrogel-derived VSMCs (termed as Cells from KOS). Blood perfusion of the hind limbs was measured immediately before and after surgery, then 14, and 28 days after surgery using Laser Doppler analysis. Tissue vascularization, cell engraftment, and skeletal muscle regeneration were measured using immunohistochemistry, 1,1'-Dioctadecyl3,3,3',3'-Tetramethylindocarbocyanine Perchlorate (DiL) vessel painting, and hematoxylin and eosin (HandE) pathohistological staining. During the 4-week period, both cell treatment groups showed significant increases in blood perfusion compared to the PBS-treated control, and at day 28 the Cells from KOS group had significantly better blood flow than the Cells from TCPS group. Additionally, the Cells from KOS group demonstrated a significant increase in the ratio of DiL positive vessels, capillary density, and a greater density of small diameter arterioles compared to the PBS-treated group. Further, both cell-treated groups had similar levels of engraftment into the host tissue. We conclude that Cells from KOS therapy increases blood perfusion in an NSG model of CLI, but does not lead to increased cell engraftment compared to other cell based therapies. Overall, the results from this dissertation demonstrated that KOS hydrogels produce VSMC differentiation from c-kit+ hCSCs mediated by TGF-β1 signaling, and that the differentiated cells are able to increase blood perfusion in a CLI model by increasing capillary density, suggesting enhanced angiogenesis. Future studies should explore potential protein-protein interactions between KOS, TGF-β1 and its associated proteins. Additionally, we should plan animal studies that examine the efficacy of our cells to regenerate cardiac tissue following an acute myocardial infarction (AMI). / PHD

Keratin/Keratose

Biomaterials

Human c-kit+ cardiac stem cells

Differentiation

Vascular smooth muscle cells

Hind limb ischemic mouse model

Laser Doppler Imaging

Blood flow

Cardiovascular diseases

Expressão gênica diferencial das células estromais obtidas de medula óssea na presença ou ausência de célula tumoral oculta em pacientes com câncer de mama / Differential gene expression of bone marrow stromal cells from breast cancer patients in the presence or abscence of occult tumor cells

Milani, Cintia

21 September 2006

A célula estromal pode influenciar o desenvolvimento do tumor no sítio primário e secundário, mas pouco é conhecido sobre as características moleculares das células estromais presentes na medula óssea de pacientes com câncer de mama. Nosso objetivo foi avaliar a expressão gênica diferencial entre as células estromais oriundas de medula óssea na presença ou ausência de célula tumoral oculta. Coletamos dez aspirados de medula óssea das pacientes com câncer de mama. A classificação do comprometimento da medula por células tumorais ocultas foi realizada pela detecção da expressão de CK19 por Nested-RT-PCR e quatro entre dez pacientes apresentaram presença de célula tumoral na medula óssea. Estabelecemos culturas primárias de células estromais de todas as amostras e, selecionamos amostras originárias de duas pacientes contendo linfonodos comprometidos e presença de célula tumoral oculta em medula e também de duas pacientes que não apresentavam linfonodos comprometidos e nem célula tumoral oculta na medula. As pacientes selecionadas eram pós-menopausadas com diagnóstico de carcinoma ductal invasor e expressão imunohistoquímica positiva para receptor de estrógeno e progesterona. Realizamos avaliação do perfil de expressão gênica entre estes dois grupos, o que nos revelou 21 genes diferencialmente expressos dentre os 4.608 genes imobilizados em lâmina de cDNA microarray; nove genes hiperexpressos em célula estromal de medula comprometida (PTHLH, TLOC1, NCOA6, C17orf57, ANAPC11, MAST4, POLR3E, CPNE1 e B4GALT5) e doze genes hipoexpressos em célula estromal de medula comprometida (MRPL2, NAT10, DAP, RNF2, FLOT2, FKBP10, SLIT3, EBNA1BP2, SLC35B2, MICAL2, GPR3, TSPAN17). Nossos dados sugerem que apesar da expressão gênica de células estromais oriundas de medula óssea comprometida ou não por micrometástases ser semelhante, algumas diferenças podem ser identificadas. / Stromal cells may influence tumor development in primary and secundary sites, however, molecular characteristics of bone marrow stromal cells from breast cancer patients are almost unknown. Our aim was to evaluate the differential gene expression of bone marrow stromal cells from breast cancer patients in the presence or abscence of occult tumor cells. Bone marrow (BM) aspirates were obtained from 10 breast cancer patients. The presence of occult bone marrow disseminated tumor cells was detected by CK19 expression quantified by reverse transcriptase polymerase chain reaction (RT-PCR). Presence of tumoral cell was detected in four of ten BM samples. Stromal cells primary cultures were established and samples from two patients with positive lymph nodes and presence of occult tumor cells in bone marrow and samples from two patients with negative lymph nodes and abscence of occult tumor cells in bone marrow were selected. All the included patients were postmenopausal with invasive ductal carcinoma and positive estrogen and progesterone receptors detected by immunohistochemical analysis. Gene profile evaluated in cDNA microarray slides containing 4.608 spotted genes revealed 21 differencially expressed genes, nine upregulated (PTHLH, TLOC1, NCOA6, C17orf57, ANAPC11, MAST4, POLR3E, CPNE1 e B4GALT5) and twelve downregulated (MRPL2, NAT10, DAP, RNF2, FLOT2, FKBP10, SLIT3, EBNA1BP2, SLC35B2, MICAL2, GPR3, TSPAN17) in stromal cell derived from bone marrow in the presence of tumor breast cancer cell. Our data suggest that gene expression from bone marrow derived stromall cells in the presence or abscence of occult tumor cells seems similar, however small differences may be identified.

Bone marrow

Breast neoplasms

Células estromais

Expressão gênica

Gene expression

Keratin/analysis

Medula óssea

Neoplasias mamárias

Queratina/análise

Stromal cells