Expression and Mutation Analyses of Candidate Cancer Genes In Situ

Kiflemariam, Sara

January 2012

Cancers display heterogeneity in genetic profiles of the individual cancer cells and in the composition of different malignant and non-malignant cell populations. Such intra-tumor heterogeneity plays a role in treatment response and the emergence of resistance to cancer therapies. Approaches that address this complexity and improve stratification of patients for treatment are therefore highly warranted. Thus, the aims of this thesis were to further develop and apply in situ technologies for expression and mutation analyses of candidate cancer genes to gain a deeper understanding of cancer biology and to study intra-tumor heterogeneity. In paper I, we established and validated a procedure for scalable in situ hybridization of large gene sets in human formalin-fixed paraffin-embedded tissues for analysis of gene expression. This method was used in paper II for large-scale expression analysis of the tyrosine kinome and phosphatome, two gene families whose members are frequently mutated in many forms of cancers. Systematic, compartment-specific expression mapping at cell type resolution enabled us to identify several novel vascular markers that have gone unnoticed in bulk transcriptomic analyses. In papers III and IV, we used padlock probes for in situ mutation detection in single cells for studies of genetic intra-tumor heterogeneity. In paper III, multiplex detection and genotyping of oncogenic point mutations was demonstrated in routinely processed tissue materials, whereas in paper IV we further the application by demonstrating multiplex detection of fusion gene transcripts. Collectively, the work presented in this thesis employs in situ-based methods to obtain spatial resolution of gene expression and mutation patterns in normal and cancer tissues, thereby broadening our understanding of the cancer genome.

cancer

in situ

in situ hybridization

padlock probes

mRNA

tyrosine kinases

tyrosine phosphatases

fusion transcripts

Adult Neurogenesis in the Spiny Lobster, Panulirus Argus: Molecular, Cellular, and Physiological Changes of Olfactory Receptor Neurons

Tadesse, Tizeta

01 August 2012

Adult neurogenesis of olfactory receptor neurons (ORNs) occurs in diverse organisms including in decapod crustaceans. This dissertation describes the molecular, cellular, and physiological changes that occur during adult neurogenesis of ORNs in the antennular lateral flagellum (LF) of the spiny lobster Panulirus argus. Examination of the role of splash (spiny lobster achaete scute homolog) in adult neurogenesis and regeneration using in situ hybridization showed splash was not closely associated with the formation of sensory neurons under normal physiological conditions. Damage to the LF, which induces regeneration, enhanced splash expression, suggesting an association between splash with regeneration and repair. This study suggests that splash plays multiple roles in the olfactory organ of adult spiny lobsters. Examination of extracellular and intracellular Ca2+ in mediating spontaneous and odor-induced responses of ORNs, using calcium imaging showed that odor-induced Ca2+ transient responses and spontaneous Ca2+ oscillations in ORN somata are primarily mediated by an influx of extracellular Ca2+ through Co2+ -sensitive Ca2+ channels, but that intracellular Ca2+stores also have some contribution. These responses are independent of TTX-sensitive Na+ channels, suggesting that these Ca2+ responses may reflect receptor potentials. Examination of changes in odor specificity, sensitivity, and temporal responses in adult-born ORNs showed an increase in the percentage of odorant-responsive ORNs as they age from newly-born cells to mature, and a decrease in odorant-responsive ORNs as they senesce. As adult-born ORNs age, there was a decrease in the percentage of ORNs that undergo spontaneous Ca2+ oscillations and an increase in the amplitude of oscillation. ORNs became more broadly tuned as they senesce, and their response profile, defined by the most effective odorant, changed. Odor sensitivity changed with age. This study demonstrated that the physiological response properties of adult-born ORNs changed with functional maturation. Taken together, this dissertation reveals molecular, cellular and physiological changes in adult born ORNs and elucidates mechanisms of adult neurogenesis.

Olfactory system

Neurogenesis

In situ hybridization

Calcium imaging

Chemical senses

Panulirus argus

Fluorescence in situ Hybridization of Symbiotic Chemoautotrophic Sulfur-Oxidizing Bacteria of the Sponge, Cinachyra australiensis

Lu, Der-Kang

28 February 2004

Symbiosis is commonly present in marine invertebrates. Many corals and sponges have symbiotic algae or bacteria. In the previous studies of the sponge Cinachyra australiensis, 85% of the bacteria associated with the sponge have high similarity (88.65%) with the symbiotic chemoautotrophic sulfur-oxidizing bacteria of the deep-sea hydrothermal vent mussel, Solemya reidi. This study aims to investigate the localization of the chemoautotrophic sulfur-oxidizing bacteria associated with Cinachyra australiensis. The Ribulose-1,5-Bisphosphate Carboxylase/Oxygenase (RubisCO) large-subunit genes for autotrophic organisms were amplified by polymerase chain reaction from the sponge samples. The phylogenetic relationship of the RubisCO large subunit genes was analyzed. A total of 26 clones were selected and sequenced. They could be divided into two groups. One (9 clones) belongs to form I type IB (cynobacteria and green algae). The other (17 clones) belongs to form II type IA (chemoautotrophic symbiotic bacteria). The location of the sulfur-oxidizing chemoautotrophic bacteria was shown to be intracellular symbiosis within the mesoglial cells by fluorescence in situ hybridization.

sulfur-oxidizing bacteria

RubisCO gene

symbiosis

Fluorescence in situ Hybridization

sponge

Cinachyra australiensis

Localization and partial immunological characterization of Fasciola hepatica Thioredoxin

McKown, Richard Dwayne

17 February 2005

This study reports the localization and partial characterization of thioredoxin from the parasitic trematode Fasciola hepatica. Snails (Pseudosuccinia columella) were raised in culture and infected with F. hepatica so that Western blotting and immunohistochemical techniques could be utilized to determine the presence of thioredoxin in different stages of the parasite’s development. The results of these experiments showed that thioredoxin was present in the tegument, gut epithelium, excretory canal epithelium and sperm, of the adult parasite as well as in the tegument and gut of the redia and cercaria intermediate stages. In situ hybridization was used to determine the localization and possible differential mRNA expression of two different F. hepatica thioredoxin isotypes (Fh2020.A and Fh2020.SL) in the adult parasite. The in situ hybridization results showed that both isotypes are expressed in the tegument and gut epithelium. Fh2020.A stains with a greater intensity possibly demonstrating a difference in the amount of expression between the two isotypes. Recombinant F. hepatica thioredoxin expressed in bacteria using the pMAL™ Protein Fusion and Expression System was used to test its affects on the production of super oxide anion by murine peritoneal macrophages, bovine monocyte-derived macrophages and bovine whole blood neutrophils, and nitric oxide production by mouse peritoneal macrophages and bovine monocyte-derived macrophages. The results of the cellular assays were not definitive due to the fact that the maltose binding protein (MBP) moiety of the recombinant thioredoxin, when tested alone, increased production of nitric oxide by bovine monocyte-derived macrophages. Consequently, since the MBP could not be effectively separated from the thioredoxin portion of the recombinant, allowing the thioredoxin affects to be tested independently, no true conclusions regarding its affects on the host immune cells tested could be drawn. This is the first report of the localization of thioredoxin in both the adult F. hepatica as well as in specific intermediate stages of the parasite. These studies demonstrate the possible affects that a protein tag can have on experimental results and demonstrate how such data may be interpreted when a non-cleaved recombinant protein is used in cellular or other assays when compared to native or cleaved recombinant proteins.

thioredoxin

Fasciola hepatica

liver fluke

immunohistochemistry

in situ hybridization

nitric oxide

superoxide

The use of CEN38 in assessing evolutionary relationships in the genus Sorghum

Anderson, Jason Correnth

01 November 2005

A DNA sequence-based phylogenetic tree (Dillon et al., 2004) places the species of the genus Sorghum into two sister lineages, one with x = 5 and the other with x = 10 as a basic chromosome number. It has not been resolved whether or not these lineages are monophyletic or polyphyletic. A repetitive sequence, CEN38, found only in Sorghum and sugarcane, was used to assess evolutionary relationships among Sorghum species. The objectives of this research were to determine the taxonomic distribution of CEN38, its chromosomal position(s), and its organization in DNA. CEN38 was detected by filter hybridization to be present in the DNA of 16 of 21 Sorghum species analyzed, ranging from 15 to ~21,000 copies. It was detected by fluorescence in situ hybridization (FISH) only in chromosomes of species of the section Eu-sorghum, where it had a pericentromeric distribution. The low copy number and/or chromosomal distribution of CEN38 in other Sorghum species apparently does not allow for its detection by FISH. Analysis of restriction enzyme digested DNA with homology to CEN38 and of fragments amplified by PCR using primers selected to amplify S. bicolor CEN38 sequences showed that S. laxiflorum and S. macrospermum have tandemly arranged CEN38 sequences as is found in S. bicolor. This supports the close evolutionary affinity of the species in the x = 10 lineage. In the x = 5 lineage, DNA of 11 of 16 species analyzed hybridized with CEN38 by filter hybridization. In S. versicolor, large DNA fragments (4.36 kb to 23 kb) generated by digestion with restriction enzymes hybridized to CEN38. Since a ladder of smaller fragments was not detected, CEN38 may have been inserted into a transposable element in this species and dispersed throughout the genome. Among species of the x = 5 lineage, PCR using primers for S. bicolor CEN38 amplified only DNA fragments from S. timorense and these formed a ladder based on a ~125 bp repeat. Since hybridization of the CEN38 sequence to DNA of S. timorense was not detected by filter hybridizations, these sequences apparently are not similar to CEN38. Cloning and sequencing of DNA from species of the x = 5 lineage that hybridizes to CEN38 are needed to determine whether or not they are in the CEN38 family. A monophyletic or polyphyletic origin of the x = 5 and x = 10 lineages was not resolved.

sorghum

CEN38 repeat

phylogeny

lineage

fluorescent in situ hybridization

copy number

FITC

Cy-3

Chromosome missegregation in Alzheimer's disease caused by presenilin 1

Boeras, Debrah I

01 June 2005

Mutations in the presenilin 1 gene account for most early-onset familial Alzheimer's disease (FAD). The presenilins and AD may also be related through a common involvement in the cell cycle. Here we report that one important aspect of the cell cycle---proper chromosome segregation---is dependent on presenilin function and therefore may be involved in AD pathogenesis. Specifically we find that FAD mutations in presenilin 1 (M146L and M146V) lead to chromosome missegregation and aneuploidy in vivo and in vitro: 1) Both metaphase chromosome analysis and in situ hybridization reveal significant aneuploidy in the lymphocytes and neurons of PS-1 transgenic mice. 2) Transiently transfected human cells expressing normal and, especially, mutant PS-1 develop aneuploidy within 48 hours, including trisomy 21, while cells transfected with dominant negative PS-1 genes lacking ?-secretase activity have no effect on chromosome segregation. 3) Analysis of mitotic spindles in the transfected cells reveals abnormal microtubule arrays and lagging chromosomes. The possible mechanisms by which cell cycle defects and chromosome missegregation induced by y-secretase may contribute to Alzheimer's disease will be discussed.

Aneuploidy

Cell cycle

Mitosis

In situ hybridization

Down syndrome

American Studies

Arts and Humanities

Immunomagnetic microfluidic screening system for circulating tumor cells detection and analysis

Huang, Yu-Yen, active 21st century

24 February 2015

Circulating tumor cells (CTCs) are known to escape from the primary tumor site and may settle down at the distant organ to grow a second tumor. CTCs are one of causes initiating carcinoma metastasis. Detection of CTCs has been considered to be valuable for cancer management, including diagnosis, prognosis, and clinical treatment management. However, efficient isolation, enumeration, characterization, and genetic analysis of CTCs in whole-blood samples from cancer patients are very challenging due to their extremely low concentration and rare nature (per CTC in blood cells is 1:106–109). With the increasing worldwide death rate associated with cancer, there is a desperate demand for a high-sensitivity, high-throughput, and low-cost detection and separation system. My doctoral research focused on the design and fabrications of the screening system for the detection of CTCs with further analysis of captured CTCs, such as immunofluoresce staining and fluorescence in-situ hybridization (FISH). The distinct significance of this research is that the development of the computer-controlled rotational holder with a series of six inverted microfluidic chips reduced the cost by significantly reducing the consumption of magnetic carriers (25% of the consumed amount used in the commercial CellSearch® system), increasing the capture efficiency by manipulating the blood sedimentation in the microchannel, enhancing the system stability by integrating the micromagnets on the plain glass slide substrate, and achieving high throughput because of the high flow rate (2.5 mL/hr) and large screening volume (screening up to six chips in parallel with each containing 2.5 mL of blood). Immunofluorescence staining and the FISH method have been performed to prove the capability of the system. In addition, the system has been successfully applied for patient samples screening. The incorporation of micromagnets has demonstrated that micromagnets provide localized magnetic forces to scatter the target cancer cells and free nanoparticles throughout the whole channel substrate to increase the channel space usage by 13%. Four cancer cell lines, including COLO 205 (colorectal cancer), SK-BR-3 (breast cancer), MCF-7 (breast cancer), and PC3 (prostate cancer), were spiked in blood samples from healthy donors to verify high capture efficiency of the developed system. On average, over a 97% capture rate was demonstrated for all cell lines. Moreover, the developed screening system has been successfully screened over 40 patient samples, including metastatic lung cancer, breast cancer, prostate cancer, and colorectal cancer. After capture of CTCs, immunofluorescence staining was used to identified the captured cancer cells and the FISH method was performed to characterize the isolated cancer cells by studying the gene expression of CTCs from breast cancer. The proposed automated immunomagnetic microchip-based screening system shows high capture efficiency (average 97% for three spiked cell lines), high throughput (15 mL of blood sample per screening), high sensitivity, high specificity, and low nanoparticle consumption (75% less than CellSearch® system). The screening system provides great promise as a clinical tool for early cancer diagnosis, diagnosis, personalized therapy, and treatment monitoring. / text

Circulating tumor cell (CTC)

Microfluidic device

Micromagnet

Cancer detection

An automated multicolour fluorescence in situ hybridization workstation for the identification of clonally related cells

Dubrowski, Piotr

05 1900

The methods presented in this study are aimed at the identification of subpopulations (clones) of genetically similar cells within tissue samples through measurement of loci-specific Fluorescence in-situ hybridization (FISH) spot signals for each nucleus and analyzing cell spatial distributions by way of Voronoi tessellation and Delaunay triangulation to robustly define cell neighbourhoods. The motivation for the system is to examine lung cancer patient for subpopulations of Non-Small Cell Lung Cancer (NSCLC) cells with biologically meaningful gene copy-number profiles: patterns of genetic alterations statistically associated with resistance to cis-platinum/vinorelbine doublet chemotherapy treatment. Current technologies for gene-copy number profiling rely on large amount of cellular material, which is not always available and suffers from limited sensitivity to only the most dominant clone in often heterogeneous samples. Thus, through the use of FISH, the detection of gene copy-numbers is possible in unprocessed tissues, allowing identification of specific tumour clones with biologically relevant patterns of genetic aberrations. The tissue-wide characterization of multiplexed loci-specific FISH signals, described herein, is achieved through a fully automated, multicolour fluorescence imaging microscope and object segmentation algorithms to identify cell nuclei and FISH spots within. Related tumour clones are identified through analysis of robustly defined cell neighbourhoods and cell-to-cell connections for regions of cells with homogenous and highly interconnected FISH spot signal characteristics. This study presents experiments which demonstrate the system’s ability to accurately quantify FISH spot signals in various tumour tissues and in up to 5 colours simultaneously or more through multiple rounds of FISH staining. Furthermore, the system’s FISH-based cell classification performance is evaluated at a sensitivity of 84% and specificity 81% and clonal identification algorithm results are determined to be comparable to clone delineation by a human-observer. Additionally, guidelines and procedures to perform anticipated, routine analysis experiments are established.

Fluorescent in-situ hybridization

Tumour clones

Cancer genetics

Automated imaging

Spatial distribution analysis

Voronoi tessellation

Delaunay triangulation

The 3D nuclear organization of telomeres during endometrial carcinoma development

Danescu, Adrian

04 April 2012

Early diagnosis of endometrial cancer (EC) is uncertain and women undergo preventive hysterectomy in cases where a non-invasive treatment can be used instead. To contribute to solving this challenge we investigated if early changes in the nuclear 3D telomere architecture during carcinoma development can be detected prior to the first morphological evidence of precancerous lesions. We utilized Pten heterozygous mice that develop progressive carcinoma in the endometrial tissue similar to EC development in women. We used telomere fluorescence in situ hybridization (FISH), 3D molecular imaging and analysis techniques on interphase nuclei of endometrial glandular epithelial cells to identify alterations in the 3D-telomere profile. We found that telomere dysfunction in Pten heterozygous mice is present already in endometrial simple hyperplasia lesions prior to detectable loss of PTEN protein expression and that the 3D telomere architecture has a specific signature that indicates early telomere dysfunction predictive for endometrial malignant transformation.

endometrial cancer

3D telomere profile

PTEN

nuclear architecture

The 3D nuclear organization of telomeres during endometrial carcinoma development

Danescu, Adrian

04 April 2012

Early diagnosis of endometrial cancer (EC) is uncertain and women undergo preventive hysterectomy in cases where a non-invasive treatment can be used instead. To contribute to solving this challenge we investigated if early changes in the nuclear 3D telomere architecture during carcinoma development can be detected prior to the first morphological evidence of precancerous lesions. We utilized Pten heterozygous mice that develop progressive carcinoma in the endometrial tissue similar to EC development in women. We used telomere fluorescence in situ hybridization (FISH), 3D molecular imaging and analysis techniques on interphase nuclei of endometrial glandular epithelial cells to identify alterations in the 3D-telomere profile. We found that telomere dysfunction in Pten heterozygous mice is present already in endometrial simple hyperplasia lesions prior to detectable loss of PTEN protein expression and that the 3D telomere architecture has a specific signature that indicates early telomere dysfunction predictive for endometrial malignant transformation.

endometrial cancer

3D telomere profile

PTEN

nucelar architecture