Modeling and design optimization of a microfluidic chip for isolation of rare cells

Gannavaram, Spandana

12 1900

Indiana University-Purdue University Indianapolis (IUPUI) / Cancer is still among those diseases that prominently contribute to the numerous deaths that are caused each year. But as technology and research is reaching new zeniths in the present times, cure or early detection of cancer is possible. The detection of rare cells can help understand the origin of many diseases. The current study deals with one such technology that is used for the capture or effective separation of these rare cells called Lab-on-a-chip microchip technology. The isolation and capture of rare cells is a problem uniquely suited to microfluidic devices, in which geometries on the cellular length scale can be engineered and a wide range of chemical functionalizations can be implemented. The performance of such devices is primarily affected by the chemical interaction between the cell and the capture surface and the mechanics of cell-surface collision and adhesion. This study focuses on the fundamental adhesion and transport mechanisms in rare cell-capture microdevices, and explores modern device design strategies in a transport context. The biorheology and engineering parameters of cell adhesion are defined; chip geometries are reviewed. Transport at the microscale, cell-wall interactions that result in cell motion across streamlines, is discussed. We have concentrated majorly on the fluid dynamics design of the chip. A simplified description of the device would be to say that the chip is at micro scale. There are posts arranged on the chip such that the arrangement will lead to a higher capture of rare cells. Blood consisting of rare cells will be passed through the chip and the posts will pose as an obstruction so that the interception and capture efficiency of the rare cells increases. The captured cells can be observed by fluorescence microscopy. As compared to previous studies of using solid microposts, we will be incorporating a new concept of cylindrical shell micropost. This type of micropost consists of a solid inner core and the annulus area is covered with a forest of silicon nanopillars. Utilization of such a design helps in increasing the interception and capture efficiency and reducing the hydrodynamic resistance between the cells and the posts. Computational analysis is done for different designs of the posts. Drag on the microposts due to fluid flow has a great significance on the capture efficiency of the chip. Also, the arrangement of the posts is important to contributing to the increase in the interception efficiency. The effects of these parameters on the efficiency in junction with other factors have been studied and quantified. The study is concluded by discussing design strategies with a focus on leveraging the underlying transport phenomena to maximize device performance.

CFD

Microfluidics

Circulating Tumor Cells

Cancer -- Detection

Cancer -- Diagnosis -- Research

Microelectronics

Microfluidics -- Research -- Analysis

Molecular diagnosis

Cell interaction

Cell adhesion

Fluorescence microscopy

Nanotechnology

Medicine -- Computer simulation

Computational fluid dynamics

Fluid mechanics

Navier-Stokes equations

Darcy's law

Nanowires

Modeling cancer predisposition: Profiling Li-Fraumeni syndrome patient-derived cell lines using bioinformatics and three-dimensional culture models

Phatak, Amruta Rajendra

07 October 2015

Indiana University-Purdue University Indianapolis (IUPUI) / Although rare, classification of over 200 hereditary cancer susceptibility syndromes accounting for ~5-10% of cancer incidence has enabled the discovery and understanding of cancer predisposition genes that are also frequently mutated in sporadic cancers. The need to prevent or delay invasive cancer can partly be addressed by characterization of cells derived from healthy individuals predisposed to cancer due to inherited "single-hits" in genes in order to develop patient-derived samples as preclinical models for mechanistic in vitro studies. Here, we present microarray-based transcriptome profiling of Li-Fraumeni syndrome (LFS) patient-derived unaffected breast epithelial cells and their phenotypic characterization as in vitro three-dimensional (3D) models to test pharmacological agents. In this study, the epithelial cells derived from the unaffected breast tissue of a LFS patient were cultured and progressed from non-neoplastic to a malignant stage by successive immortalization and transformation steps followed by growth in athymic mice. These cell lines exhibited distinct transcriptomic profiles and were readily distinguishable based upon their gene expression patterns, growth characteristics in monolayer and in vitro 3D cultures. Transcriptional changes in the epithelial-to-mesenchymal transition gene signature contributed to the unique phenotypes observed in 3D culture for each cell line of the progression series; the fully transformed LFS cells exhibited invasive processes in 3D culture with disorganized morphologies due to cell-cell miscommunication, as seen in breast cancer. Bioinformatics analysis of the deregulated genes and pathways showed inherent differences between these cell lines and targets for pharmacological agents. After treatment with small molecule APR-246 that restores normal function to mutant p53, we observed that the neoplastic LFS cells had reduced malignant invasive structure formation from 73% to 9%, as well as an observance of an increase in formation of well-organized structures in 3D culture (from 27% to 91%) by stereomicroscopy and confocal microscopy. Therefore, the use of well-characterized and physiologically relevant preclinical models in conjunction with transcriptomic profiling of high-risk patient derived samples as a renewable laboratory resource can potentially guide the development of safer and more effective chemopreventive approaches.

Breast cancer progression

Epithelial-to-mesenchymal transition

Genomics

Li-Fraumeni syndrome

Preclinical in vitro models

Three-dimensional culture

Cancer -- Susceptibility

Cancer -- Genetic aspects

p53 protein

p53 antioncogene

Genetic transcription

Cancer -- Molecular diagnosis

Genes de cisteíno-proteases de Trypanosoma spp. de mamíferos: polimorfismo e relações filogenéticas. / Cysteine protease genes of Trypanosoma spp. in mammals: polymorphisms and phylogenetic relationships.

Vargas, Paola Andrea Ortiz

30 May 2014

Tripanossomas de mamíferos constituem um dos grupos mais complexos da família Trypanosomatidae, abrangendo parasitas com ciclos de vida e estruturas populacionais heterogêneos. De acordo com a diversidade, filogenias baseadas em genes SSUrDNA e gGAPDH segregaram estes parasitas em 4 Clados principais: T. brucei, T. cruzi, T. theileri e T. lewisi. Catepsinas L e B (CATL e CATB), as principais atividades proteolíticas dos tripanossomas, participam não apenas na degradação de proteínas como também em eventos biológicos como diferenciação, invasão celular, virulência e evasão do sistema imune. Comparamos os perfis proteolíticos de enzimas CATL em tripanossomas patogênicos e não patogênicos e também isolamos e sequenciamos os domínios catalíticos dos genes CATL e CATB em diversas espécies dos principais clados. Os resultados provaram a utilidade destes marcadores no diagnóstico e genotipagem de T. cruzi, T. rangeli, T. theileri e T. congolense, assim como na construção de filogenias robustas da família Trypanosomatidae, congruentes com os marcadores tradicionais. / Trypanosomes of mammals comprise one of the most complex groups of the family Trypanosomatidae, including parasites with heterogeneous life cycles and population structures. According to such diversity, phylogenetic analyzes based on SSUrDNA and gGAPDH genes segregate these parasites in 4 major clades: T. brucei, T. cruzi, T. lewisi and T. theileri. Cathepsins L and B (CATL and CATB), the main proteolytic activities of trypanosomes, are not only involved in protein degradation but also in biological events such as cell differentiation, cell invasion, virulence, and evasion from the immune system. We comparatively analysed the CATL proteolytic profiles in pathogenic and non-pathogenic trypanosomes, and isolated and sequenced the catalytic domains of CATB and CATL genes in several species of the major clades. Our results demonstrated the usefulness of both markers in the diagnosis and genotyping of T. cruzi, T. rangeli, T. congolense and T. theileri as well as in the construction of robust phylogenies of the family Trypanosomatidae, congruent with traditional markers.

Trypanosoma congolense

Trypanosoma congolense

Trypanosoma cruzi

Trypanosoma cruzi

Trypanosoma rangeli

Trypanosoma rangeli

Trypanosoma theileri

Catepsina B-like

Catepsina L-like

Cathepsin B-like

Cathepsin L-like

Cisteíno-proteases

Cysteine-protease

Diagnóstico molecular

Filogenia

Genetic polymorphism

Genotipagem

Genotyping

Molecular diagnosis

Phylogeny

Polimorfismo genético

Tripanosomas de mamíferos

Trypanosomes of mammals

Characterization of potato virus Y (PVY) isolates infecting solanaceous vegetables in KwaZulu-Natal (KZN), Republic of South Africa (RSA)

Ibaba, Jacques Davy.

January 2009

Potato virus Y (PVY) is an economically important virus worldwide. In South Africa, PVY has been shown to be a major limiting factor in the production of important solanaceous crops, including potato (Solanum tuberosum L.), pepper (Capsicum annuum L.), tomato (Lycopersicon esculentum Mill.) and tobacco (Nicotiana spp). The variability that PVY displays, wherever the virus occurs, merits the study of the isolates occurring in KwaZulu-Natal (KZN) in the Republic of South Africa (RSA). This characterization will provide a clear understanding of strains/isolates from local vegetables and how they relate to the other PVY strains already identified, as well as information that can be used to manage the diseases they cause. Hence, the aim of this project was to study the biological and genetic properties of PVY isolates infecting potato, tomato and pepper in KZN. Enzyme-linked immunosorbent assay (ELISA) using monoclonal antibodies and reverse transcription polymerase chain reaction (RT-PCR) using primers specific to all PVY strains were used to detect the virus in plant material showing PVY-like symptoms collected from various locations in KZN. A total of 39 isolates (18 isolates infecting tomato, 12 infecting potato and 9 infecting pepper) were further differentiated into strains by means of ELISA using strain specific antibodies and RT-PCR using primers specific to the different strains of PVY identified around the world. All PVY isolates infecting tomato and pepper tested positive for the ordinary PVYO strain with both ELISA and RT-PCR. PVY isolates infecting potato were more diverse and comprised the PVYN, PVYNTN and PVYNWilga strains, with mixed infections noted in some cases. The biological properties were studied by mechanically inoculating Chenopodium quinoa, Nicotiana tabacum cv Xanthi, N. tabacum cv Samsun, N. glutinosa, and N. rustica with leaf extracts from plants infected with the different PVY strains detected in this study. All inoculated C. quinoa plants did not show symptoms. All tobacco plants showing symptoms were tested for the presence of PVY by means of ELISA using monoclonal antibodies targeting all strains and electron microscopy using the leaf dip technique. Not all the inoculated tobacco tested positive with ELISA. The symptoms observed were therefore divided into PVY-related and PVY non- related. PVY-related symptoms included vein clearing, mosaic chlorosis, stunting, and vein necrosis. PVY non-related symptoms included wrinkles and leaf distortions. Potyvirus-like particles of about 700 nm were observed under the transmission electron microscope (TEM) from plants showing PVY-related symptoms while rod shaped viral particles of sizes varying between 70 and 400 nm were observed from plants showing non-PVY related symptoms. A portion of the virus genome (1067 bp) covering part of the coat protein gene and the 3’ non-translated region (NTR) of three PVYO isolates infecting tomato, one PVYO isolate infecting pepper and one PVYNWilga isolate infecting potato were amplified, cloned and sequenced. The 5’ NTR, P1, HC-Pro and part of P3 regions (2559 bp) of a PVYN isolate infecting potato were also amplified, cloned and sequenced. Sequence data was compared with selected PVY sequences from different geographical locations around the world. These were available on the NCBI website and subsequently used for phylogenic analyses. The sequenced genomic regions of the PVYN isolate were found to be 99% similar to the New Zealand PVYN isolate (GenBank accession number: AM268435), the Swiss PVYN isolate CH605 (X97895) and the American PVYN isolate Mont (AY884983). Moreover, the deduced amino acid sequence comparison of the genomic regions of the PVYN isolate revealed the presence of five distinct amino acids residues. The three amino acid residues (D205, K400, and E419), which determine the vein necrosis phenotype in tobacco, were also identified. The coat protein and 3’ NTR sequences of all KZN PVYO isolates infecting pepper and tomato were closely similar to each other than to KZN PVYNWilga isolate infecting potato. The phylogenic analysis clustered the KZN PVYN isolate with the European sublineage N, PVYNWilga isolate infecting potato with the American PVYO isolate Oz (EF026074) in the O lineage and all PVYO isolates infecting tomato and pepper in a new sublineage within the O lineage. Taken together, these results point to the presence of PVY in solanaceous vegetables cultivated in KZN and they lay the foundation for the formulation of effective control measure against PVY diseases in KZN. / Thesis (M.Sc.) - University of KwaZulu-Natal, Pietermaritzburg, 2009.

Potato virus Y--KwaZulu-Natal.

Plant molecular virology.

Plant viruses--Genetics.

Plant viruses--Genetics.

Virus diseases of plants--Diagnosis.

Viruses--Isolation.

Solanaceae--Diseases and pests.

Theses--Plant pathology.

Paleogenética e paleoepidemiologia de Ascaris sp. (Linnaeus, 1758) e Trichuris sp. (Roederer, 1761) / Paleogenetics paleoepidemiology and Ascaris sp. (Linnaeus, 1758) and Trichuris sp. (Roederer, 1761)

Souza, Daniela Leles de

January 2010

Made available in DSpace on 2011-05-04T12:42:02Z (GMT). No. of bitstreams: 0 Previous issue date: 2010 / Ascaris lumbricoides e Trichuris trichiura são os helmintos intestinais de maior prevalência na população mundial e também no material arqueológico. Porém, na América do Sul pré-colombiana, o encontro de ovos de A. lumbricoides é raro. Recentemente um estudo de diagnóstico paleoparasitológico molecular apontou para um sub-diagnóstico de Ascaris sp. na América do Sul. No registro arqueológico de parasitos intestinais predominam achados de ovos de Trichuris sp. ao invés de Ascaris sp. Isto parece contraditório, em virtude do número de ovos eliminados por cada parasito. Os objetivos desta pesquisa foram: avaliar marcadores moleculares para o diagnóstico de Ascaris sp. e Trichuris sp. em material moderno pela caracterização molecular destes parasitos; caracterizar geneticamente isolados de sítios arqueológicos sul americanos para verificar a real paleodistribuição destes parasitos em uma perspectiva paleoepidemiológica e compará-la com a epidemiologia moderna destas infecções; avaliar os fatores envolvidos na paleodistribuição encontrada. As amostras foram submetidas ao diagnóstico por microscopia óptica, seguida da extração do DNA, PCR e sequenciamento nucleotídico. Na avaliação dos marcadores moleculares, a região ITS1 de Ascaris sp. apresentou variação intra-indivíduo, o que descartou seu uso com fins taxonômicos e diagnósticos. A caracterização molecular dos genes mitocondriais cox1 e nad1 de Ascaris sp. mostrou infecção cruzada de genótipos entre as espécies humana e suína, o que denota a necessidade de monitoramento das populações avaliadas assim como de outras regiões brasileiras para que a infecção não venha a se tornar uma zoonose em potencial no Brasil. Foi possível o diagnóstico molecular de Trichuris sp. pelo gene ribossomal 18S DNA. A análise paleogenética mostrou que há subdiagnóstico para ambas as infecções na América do Sul pré-colombiana. Este é o primeiro diagnóstico paleoparasitológico molecular de T. trichiura em material sul americano. Estes são também os primeiros registros de recuperação de DNA de parasitos intestinais em material de sítio arqueológico do tipo “sambaqui” e também do período colonial brasileiro. Comparando-se a paleoepidemiologia molecular de Ascaris sp. com a epidemiologia molecular moderna foi possível notar que há haplótipos antigos que ainda estão presentes hoje, no entanto a maioria dos haplótipos é característica ao material arqueológico. Observou-se que há haplótipos comuns ao Velho e Novo Mundo, contudo, há também especificidades regionais. Os resultados da análise genética claramente apontam para uma pobre preservação dos ovos no material arqueológico, principalmente de Ascaris sp. Os fatores principais envolvidos nessa paleodistribuição, seriam fatores tafonômicos que proporcionaram a quebra maior de ovos de Ascaris sp. do que de Trichuris sp., e evidências de consumo de plantas vermífugas pelos povos pré-históricos, as quais teriam maior ação sobre Ascaris sp. do que Trichuris sp. / Ascaris lumbricoides and Trichuris trichiura are the intestinal helminths with higher prevalence in the world today as it was in the past. However, in pre-Columbian South America the findings of A. lumbricoides eggs are rare. Recently a study of paleoparasitological molecular diagnosis showed a sub-diagnosis of Ascaris sp. in South America. In the archeological material, eggs of Trichuris sp. are more common compared with Ascaris sp. eggs. This is contradictory taking into account the number of eggs eliminated by each parasite. The aims of this research was: to evaluate molecular markers for Ascaris sp. and Trichuris sp. diagnosis in modern material; genetic characterization of the samples South American archeological sites aiming the paleodistribution of these parasites in a paleoepidemiological perspective; compare results with the modern epidemiology of these infections; evaluate the factors involved in paleodistribution. Extraction of DNA, PCR and nucleotide sequencing were performed after microscopy. In the evaluation of the molecular markers Ascaris sp. ITS1 region showed intra-individual variation. Therefore, this region to taxonomical and diagnoses studies was discarded. With the molecular characterization of Ascaris sp. cox1 and nad1 mitochondrial genes it was possible to identify cross infection of genotypes between human and pig hosts. Results showed that surveillance field works in modern populations are necessary to verify the zoonotic potential of this infection in Brazil. The molecular diagnosis of Trichuris sp. by ribossomal 18S DNA gene was possible. The paleogenetic analysis showed that there is subdiagnosis for both infections in pre-Columbian South America. This is the first paleoparasitological molecular record of T. trichiura in South American samples. These are also the first recovery of DNA of intestinal parasites in "sambaqui" archeological site, and also of the Brazilian colonial period. Molecular paleoepidemiology of Ascaris sp. infection compared with modern molecular epidemiology showed that there are ancient haplotypes still present today. However, most of the haplotypes are characteristic of the archaeological material. It was observed that there are common haplotypes both to the Old World and to the New World, but showing regional specificities. The results of the genetic analysis clearly pointed to a poor preservation of eggs in archeological material, mainly of Ascaris sp. Taphonomy may be the main factor involved in paleodistribution, breaking more eggs of Ascaris sp. than Trichuris sp. Evidences of consumption of vermifuge plants by prehistoric groups should also have influence, as some plants should have more efficacy eliminating Ascaris sp. than Trichuris sp.

Paleoparasitologia

Paleoepidemiologia

Coprólitos

Ascaríase

Trichuríase

DNA antigo

Diagnóstico molecular

Ascaris/parasitologia

Ascaris/genética

Trichuris/genética

Trichuris/parasitologia

Doenças Parasitárias/história

Paleopatologia

Paleoparasitology

Paleoepidemiology

Coprolites

Ascariasis

Trichuriasis

Ancient DNA

Molecular diagnosis

Ascaris/parasitologia

Ascaris/genética

Trichuris/genética

Trichuris/parasitologia

Doenças Parasitárias/história

Genes de cisteíno-proteases de Trypanosoma spp. de mamíferos: polimorfismo e relações filogenéticas. / Cysteine protease genes of Trypanosoma spp. in mammals: polymorphisms and phylogenetic relationships.

Paola Andrea Ortiz Vargas

30 May 2014

Tripanossomas de mamíferos constituem um dos grupos mais complexos da família Trypanosomatidae, abrangendo parasitas com ciclos de vida e estruturas populacionais heterogêneos. De acordo com a diversidade, filogenias baseadas em genes SSUrDNA e gGAPDH segregaram estes parasitas em 4 Clados principais: T. brucei, T. cruzi, T. theileri e T. lewisi. Catepsinas L e B (CATL e CATB), as principais atividades proteolíticas dos tripanossomas, participam não apenas na degradação de proteínas como também em eventos biológicos como diferenciação, invasão celular, virulência e evasão do sistema imune. Comparamos os perfis proteolíticos de enzimas CATL em tripanossomas patogênicos e não patogênicos e também isolamos e sequenciamos os domínios catalíticos dos genes CATL e CATB em diversas espécies dos principais clados. Os resultados provaram a utilidade destes marcadores no diagnóstico e genotipagem de T. cruzi, T. rangeli, T. theileri e T. congolense, assim como na construção de filogenias robustas da família Trypanosomatidae, congruentes com os marcadores tradicionais. / Trypanosomes of mammals comprise one of the most complex groups of the family Trypanosomatidae, including parasites with heterogeneous life cycles and population structures. According to such diversity, phylogenetic analyzes based on SSUrDNA and gGAPDH genes segregate these parasites in 4 major clades: T. brucei, T. cruzi, T. lewisi and T. theileri. Cathepsins L and B (CATL and CATB), the main proteolytic activities of trypanosomes, are not only involved in protein degradation but also in biological events such as cell differentiation, cell invasion, virulence, and evasion from the immune system. We comparatively analysed the CATL proteolytic profiles in pathogenic and non-pathogenic trypanosomes, and isolated and sequenced the catalytic domains of CATB and CATL genes in several species of the major clades. Our results demonstrated the usefulness of both markers in the diagnosis and genotyping of T. cruzi, T. rangeli, T. congolense and T. theileri as well as in the construction of robust phylogenies of the family Trypanosomatidae, congruent with traditional markers.

Trypanosoma congolense

Trypanosoma cruzi

Trypanosoma rangeli

Catepsina B-like

Catepsina L-like

Cisteíno-proteases

Diagnóstico molecular

Filogenia

Genotipagem

Polimorfismo genético

Tripanosomas de mamíferos

Trypanosoma congolense

Trypanosoma cruzi

Trypanosoma rangeli

Trypanosoma theileri

Cathepsin B-like

Cathepsin L-like

Cysteine-protease

Genetic polymorphism

Genotyping

Molecular diagnosis

Phylogeny

Trypanosomes of mammals