H. Murua Escobar

Molecular characterization of the canine HMGB1

Due to the close similarities of numerous canine diseases to their human counterparts, the dog could join the mouse as the species of choice to unravel the genetic background of complex diseases as e.g. cancer and metabolic diseases. Accordingly, the role of the dog as a model for therapeutic approaches is strongly increasing. However, prerequisite for such studies is the characterization of the corresponding canine genes. Recently, the human high mobility group protein B1 (HMGB1) has attracted considerable interest of oncologists because of what is called its “double life”. Besides its function as an architectural transcription factor HMGB1 can also be secreted by certain cells and then acts as a ligand for the receptor for advanced glycation end products (RAGE). The binding of HMGB1 to RAGE can activate key cell signaling pathways, such as p38MAPK, JNK, and p42/p44MAPK emphasizing the important role of HMGB1 in inflammation and tumor metastasis. These results make HMGB1 a very interesting target for therapeutic studies done in model organisms like the dog. In this study we characterized the molecular structure of the canine HMGB1 gene on genomic and cDNA levels, its predicted protein, the gene locus and a basic expression pattern.

The canine ERBB2 gene maps to a chromosome region frequently affected by aberrations in tumors of the dog (Canis familiaris)

The dog offers an increasingly important model for several human diseases, including cancer. Accordingly, the results of canine gene mapping studies will be of considerable significance. Herein, we have addressed the mapping of the canine gene ERBB2 (alias HER2, NEU). ERBB2 is a protooncogene encoding a tyrosine kinase receptor protein, the overexpression of which correlates with a more rapid progression and a worse prognosis in breast cancer. In addition, it apparently plays a role in the development of other tumors as well. By fluorescence in situ hybridization (FISH), we have mapped the canine ERBB2 to 1q13.1. Cytogenetic studies of canine tumors revealed that this region is very often affected by clonal chromosome aberrations in tumors of the dog.

Two new cases of polysomy 13 in canine prostate cancer.

Besides man, the dog is the only known mammalian species that spontaneously develops carcinomas of the prostate with considerable frequency. For this reason, the dog is considered to be the only useful animal model for spontaneously occurring prostate malignancies in man. Cytogenetic investigations of human prostate cancers have revealed the frequent occurrence of trisomies 7, 8, and 17. Chromosome analyses of canine prostate carcinomas are rare. In this report we present 2 cases of canine prostate cancer showing a clonal polysomy 13 along with complex karyotype changes. Along with a previous report demonstrating polysomy 13 as the only karyotype deviation in a canine prostate cancer the present report supports the hypothesis that in canine prostate cancer, polysomy 13 is a recurrent cytogenetic aberration linked to the development of the disease. As human chromosomes (HSA) 8q and 4q and the canine chromosome (CFA) 13 share high homology, these results suggest that a conserved area on these chromosomes is involved in tumorigenesis in both species.

Generation of recombinant antibody fragments that target canine dendritic cells by phage display technology

One of the main goals in cancer immunotherapy is the efficient activation of the host immune system against tumour cells. Dendritic cells (DCs) can induce specific anti-tumour immune responses in both experimental animal models and humans. However, most preclinical studies using small animal models show only limited correlation with studies carried out in clinical settings, whereas laboratory dogs naturally develop tumours that are biologically and histopathologically similar to their human counterparts. Here, we describe the generation and characterization of recombinant antibodies against canine DCs, isolated using the Tomlinson phage display system. We successfully isolated highly specific single-chain variable fragment (scFv) antibodies in a sequential three-step panning strategy involving depletion on canine peripheral blood mononuclear cells followed by positive selection on native canine DCs. This provides the basis for an antibody-based method for the immunological detection and manipulation of DCs and for monitoring antigen-specific immune responses.

A 3.4-kbp transcript of ZNF331 is solely expressed in follicular thyroid adenomas

Translocations involving chromosomal region 19q13 are a frequent finding in follicular adenomas of the thyroid and might represent the most frequent type of structural aberration in human epithelial tumors. By positional cloning, a putative candidate gene, ZNF331 (formerly RITA) located close to the breakpoint was identified. Recently, aberrant expression of ZNF331 has been described in two cell lines of follicular thyroid adenomas with aberrations in 19q13 indicating an involvement of ZNF331 in tumorigenesis. Nevertheless, knowledge about structure and expression of ZNF331 is limited. We performed RACE-PCR and genomic sequence analyses to gain a deeper insight into its molecular structure. To elucidate ZNF331 expression patterns we performed Northern blot analyses on various normal tissues as well as on thyroid carcinoma and adenoma cell lines. Herein, unique expression of a 3.4-kbp transcript is described in thyroid adenoma cell lines with 19q13 aberrations, which was not detected either in normal tissues or in thyroid carcinoma cell lines.

Expression of the high mobility group A1 (HMGA1) and A2 (HMGA2) genes in canine lymphoma: analysis of 23 cases and comparison to control cases.

Overexpression of high mobility group A (HMGA) genes was described as a prognostic marker in different human malignancies, but its role in canine haematopoietic malignancies was unknown so far. The objective of this study was to analyse HMGA1 and HMGA2 gene expression in lymph nodes of canine lymphoma patients. The expression of HMGA1 and HMGA2 was analysed in lymph node samples of 23 dogs with lymphoma and three control dogs using relative quantitative real-time RT-PCR. Relative quantity of HMGA1 was significantly higher in dogs with lymphoma compared with reference samples. HMGA2 expression did not differ between lymphoma and control dogs. With the exception of immunophenotype, comparison of disease parameters did not display any differences in HMGA1 and HMGA2 expression. The present findings indicate a role of HMGA genes in canine lymphoma. This study represents the basis for future veterinary and comparative studies dealing with their diagnostic, prognostic and therapeutic values.

High Mobility Group Box 1-Protein expression in canine haematopoietic cells and influence on canine peripheral blood mononuclear cell proliferative activity

High Mobility Group Box 1-Protein (HMGB1) is a nuclear chromosomal protein occurring ubiquitary in mammalian tissues. HMGB1 demonstrates cytokine function and induces inflammation when actively released by haematopoietic cells or passively released during cell necrosis. This study aimed at the determination of HMGB1 expression in different cell types and at the evaluation of the role of HMGB1 in PBMC proliferation. Therefore we investigated the HMGB1 mRNA expression level in different canine haematopoietic cell types and the influence of exogenous rhHMGB1 on canine PBMC proliferation. Differentiated haematopoietic blood cells showed lower relative HMGB1 expression levels compared to CD34+ haematopoietic stem cells. Relative HMGB1 expression seemed also to decrease during differentiation of CD34+ stem cells into dendritic cells. Furthermore, peripheral blood CD14+ monocytes and granulocytes showed a lower relative HMGB1 expression in comparison to CD3+ T-lymphocytes. When exogenous rhHMGB1 at low concentrations was added to single PBMC cultures an increase of proliferation was obvious. However, in higher concentrations HMGB1 lost its stimulative effect. In conclusion, HMGB1 is broadly expressed in canine haematopoietic cells with highest levels in haematopoietic stem cells. HMGB1 induced directly PBMC proliferation.

Enhanced protocol for CD14+ cell enrichment from equine peripheral blood via anti-human CD14 mAb and automated magnetic activated cell sorting.

REASONS FOR PERFORMING STUDY CD14 positive (CD14+) cells are the precursor cells of monocyte-derived dendritic cells (DCs). In horses their potent antigen-presenting capacity and ability to induce an effective immune response classify these cells suitable for several therapeutic approaches such as for equine sarcoid. However, in horses, the generation efficiency of DCs from adherent peripheral blood mononuclear cells (PBMCs) is currently still poor. OBJECTIVES Establishment of a simple short protocol to enhance DC generation in horses by using a human CD14 monoclonal antibody (mAb) and an automated magnetic activated cell sorting (MACS) system. METHODS Peripheral blood mononuclear cells were isolated from fresh heparinised blood samples of 3 horses and primarily stained for flow cytometric analysis (FACS) with a mAb against human CD14 as well as a secondary phycoerythrin (PE) conjugated antibody to determine the initial percentage of CD14 cells in the sample. Peripheral blood mononuclear cells were used for automated MACS using the same primary and secondary antibodies and analysed by FACS. CD14+ selected cells were cultured for 4 days adding granulocyte-macrophage colony-stimulating factor (GM-CSF) and interleukin-4 (IL-4) to the culture media. Dendritic cell generation was assessed analysing cell morphology and surface marker expression (hCD83, hCD86, eqMHCII). RESULTS Prior to selection, the mean percentage of CD14+ cells in the total cell population was 5.5%, further gaiting of this cell population resulted in 78.46% CD14+ monocytes. After our positive selection the mean percentage of CD14+ cells in the population was 98% without affecting viability. After culture, DC yield was 2-fold higher than in previous published outcomes. CONCLUSIONS The additional CD14 cell separation step after PBMC isolation significantly amplified the number of CD14+ cells, increasing the number of generated DCs. POTENTIAL RELEVANCE The number of DCs available is critical for further use of these cells and the herein described protocol will therefore help to improved DC generation for therapeutic approaches in horses.

Cytogenetic Analysis of CpG-Oligonucleotide DSP30 plus Interleukin-2-Stimulated Canine B-Cell Lymphoma Cells Reveals the Loss of One X Chromosome as the Sole Abnormality

Human and canine lymphoid neoplasms are characterized by non-random cytogenetic abnormalities. However, due to the low mitotic activity of the B cells, cytogenetic analyses of B-cell lymphoid proliferations are difficult to perform. In the present study we stimulated canine B-cell lymphoma cells with the immunostimulatory CpG-oligonucleotide DSP30 in combination with interleukin-2 (IL-2) and obtained an adequate number of metaphases. Cytogenetic analyses revealed the loss of one X chromosome as the sole cytogenetic aberration. Chromosome analysis of the corresponding blood showed a normal female karyotype. Monosomy X as the sole clonal chromosomal abnormality is found in human hematopoietic malignancies as well, thus the dog may serve as a promising animal model.

Effects of high-mobility group a protein application on canine adipose-derived mesenchymal stem cells in vitro.

Multipotency and self-renewal are considered as most important features of stem cells to persist throughout life in tissues. In this context, the role of HMGA proteins to influence proliferation of adipose-derived mesenchymal stem cell (ASCs) while maintaining their multipotent and self-renewal capacities has not yet been investigated. Therefore, extracellular HMGA1 and HMGA2 application alone (10–200 ng/mL) and in combination with each other (100, 200 ng/mL each) was investigated with regard to proliferative effects on canine ASCs (cASCs) after 48 hours of cultivation. Furthermore, mRNA expression of multipotency marker genes in unstimulated and HMGA2-stimulated cASCs (50, 100 ng/mL) was analyzed by RT-qPCR. HMGA1 significantly reduced cASCs proliferation in concentrations of 10–200 ng/mL culture medium. A combination of HMGA1 and HMGA2 protein (100 and 200 ng/mL each) caused the same effects, whereas no significant effect on cASCs proliferation was shown after HMGA2 protein application alone. RT-qPCR results showed that expression levels of marker genes including KLF4, SOX2, OCT4, HMGA2, and cMYC mRNAs were on the same level in both HMGA2-protein-stimulated and -unstimulated cASCs. Extracellular HMGA protein application might be valuable to control proliferation of cASCs in context with their employment in regenerative approaches without affecting their self-renewal and multipotency abilities.