Therapeutic peptidomimetic strategies for costimulation blockade in multiple sclerosis and transplantation / conformational peptide vaccines of the HER-2/neu dimerization loop are effective in inhibiting mammary tumor growth in vivo

Allen, Stephanie D.

January 2006

Thesis (Ph. D.)--Ohio State University, 2006. / Title from first page of PDF file. Includes bibliographical references (p. 90-112).

Radiolabeled HER-2 Binding Affibody Molecules for Tumor Targeting : Preclinical Studies

Steffen, Ann-Charlott

January 2006

Conventional cancer treatment based on radiotherapy or chemotherapy affects all dividing cells. By directing the therapy specifically to the tumor cells, normal cells can be spared. Tumor targeting molecules carrying a cytotoxic moiety is then an attractive approach. In this thesis, an affibody molecule with high affinity for the protein HER-2, that is strongly associated with aggressive forms of breast cancer, was selected. After radiolabeling with 125I, the affibody molecule, in monovalent and bivalent form, was tested in vitro in HER-2 overexpressing tumor cells and in transplanted tumors in mice. It was shown that the HER-2 targeting affibody molecule bound its target in a specific manner, both in vitro and in vivo. The small size of the affibody molecule resulted in fast clearance through the kidneys. An impressive tumor-to-blood ratio of 10 eight hours post injection was achieved and the tumors could easily be visualized in a gamma camera. The biologic effects of the bivalent affibody molecule and a monovalent affinity maturated version was measured and compared with the effects of the monoclonal antibody trastuzumab. It was found that although all molecules target the same protein, the effects differed greatly. The affibody molecule was also labeled with the alpha-emitting radionuclide 211At. Specific decrease in survival was seen in HER-2 overexpressing cells receiving the 211At labeled affibody molecule. The sensitivity to the treatment differed between cell lines, probably as a result of differences between the cell lines in internalization and nuclear size. The 211At labeled affibody molecules were also tested in vivo, where stability of the 211At label was a problem. To circumvent this problem, more stable conjugation chemistry was tested, as well as strategies to prevent uptake of released 211At by normal organs. This thesis describes the selection and optimization of affibody molecules for medical use for the first time.

Biomedicine

HER-2

affibody

211At

tumor targeting

targeted radiotherapy

molecular imaging

Biomedicin

Microbiology

Mikrobiologi

Studies of transforming growth factor alpha in normal and abnormal growth

Hallbeck, Anna-Lotta

January 2007

Regulation of growth is of fundamental importance for development of the organism and to maintain health. The induction of cell proliferation and matrix production are influenced by several different signaling systems, most importantly by growth factors. The human HER-family of growth factor ligands and receptors is one of the most studied and, at present, one of the most complex including 4 tyrosine kinase receptors and at least 11 different ligands cooperating in the transfer of signals. The HER-family growth responses are also influenced by other intercellular and extracellular signals, including matrix components, cytokines and hormones mediating e.g. inflammation. HER-1 (EGFR) is one of the best known and most extensively studied growth factor receptors. TGF-alpha is possibly the most potent HER-1 ligand and influences wound healing, epidermal maintenance, gastrointestinal function, lactation, pulmonary function and more. Several studies have shown important regulatory functions for some inflammatory cytokines on TGF-alpha production in white blood cells. HER-1 is widespread in epithelial cells but also in mesenchymal cells such as fibroblasts, osteogenic and chondrogenic cells. Consequently, many tumors arising from these cell types express HER family members and often show TGF-alpha and/or HER activation. Indeed, mammary cancer development has been shown when over expressing both TGF-alpha and HER-2 in mouse mammary cells in vivo. In recent years the first HER-1 and HER-2 inhibitors have come into clinical practice for treatment of breast cancer, lung cancer and gastrointestinal cancers, sometimes with great success. However, more knowledge is needed concerning the inflammatory regulation of HER-family expression including where and how the ligands and receptors cooperate. Therefore we were interested in studying the role of TGF-alpha in normal and abnormal growth. First we showed that the acute inflammatory cytokine IL-6 regulates TGF-alpha expression in U-937-1 monocytoid cells. Secondly, we detected a possible long-term enhancing influence of singledose UVR on HER-1 expression in normal human melanocytes. We continued thirdly by revealing TGF-alpha production concomitant with HER-2 in normal human synovia and release of soluble TGF-alpha into the synovial fluid. Both TGF-alpha and HER-2 production were significantly increased in inflammatory joint conditions, e.g. RA. Fourthly, we demonstrated expression of TGF-alpha, HER-1 and HER-2 in synovial sarcoma cells in culture; the observed HER-2 phosphorylation was dependent on ligand induced HER-1 activation. The presented results indicate that TGF-alpha expression can be enhanced by acute inflammatory cytokine IL-6, possibly contributing to growth stimulatory effects assigned to IL-6 itself. The acute effects of UVR on melanocytes mediate up-regulated steady-state expression of HER-1, constituting a potential target for locally produced TGF-alpha that may induce melanocyte proliferation. TGF-alpha and HER-2 seem to have a role in the maintenance of synovial joint tissues. Upregulation of TGF-alpha and HER-2 in inflammatory joint conditions, e.g. RA, represents a novel mechanism for synovial proliferation contributing to joint deterioration. TGF-alpha, HER1 and HER-2 may have a role in synovial sarcoma proliferation; further investigation is needed to evaluate HER-family inhibitors as a possible treatment alternative in this type of cancer.

TGF-alpha

HER

EGFR

synovia

synovial sarcoma

RA

synovitis

Medical cell biology

Medicinsk cellbiologi

Predictive Factors in Esophageal Carcinoma

Dreilich, Martin

January 2006

Esophageal carcinoma is a malignancy with a poor prognosis and is the sixth cause of cancer related death worldwide. In Sweden approximately 400 new cases are diagnosed every year. The aim of this present thesis was to investigate predictive factors for esophageal carcinoma patients.126 esophageal carcinoma patients admitted to the department of Oncology at the University Hospital in Uppsala between 1990-2000 were investigated with focus on known and potential prognostic factors. Performance status and stage of the disease were the only independent prognostic factors (p-values <0.001). Angiogenic factors VEGF and bFGF were correlated to platelet and leukocyte counts and VEGF was correlated to tumor volume (p=0.04) whereas bFGF was not (p=0.08) in pre-treatment serum samples from 42 esophageal carcinoma patients. The use of the angiogenic factors as prognostic factors, prior to therapy in patients with esophageal carcinoma, according to the results from the present study, seems limited. HER-2 overexpression was seen in 17% of 97 investigated esophageal tumor samples. In squamous cell carcinoma patients, HER-2 overexpression correlated with poorer survival (p=0.035), whereas in adenocarcinoma patients, HER-2 status did not. HER-2 overexpression seems to be associated with poorer survival in esophageal carcinomas, especially in patients with squamous cell esophageal carcinoma. Telomerase activity was detected in all esophageal cell lines, with a broad range of activity levels. No correlation was found between telomerase activity levels and sensitivity to investigated cytotoxic drugs. We therefore conclude that basal telomerase activity level is not a key determinant of sensitivity to standard cytotoxic drugs in esophageal carcinoma cell lines. The virus HPV-16 was detected in 16 % of the patients; no other type HPV was detected. HPV-16 infection had no significant effect on survival (p=0.72). Our results did not show that HPV-16 increases survival or improve therapy response in patients with esophageal carcinoma.

Oncology

Esophageal carcinoma

Survival

Prognosis

Angiogenesis

HER-2

Telomerase

FMCA

HPV

Onkologi

HER-2/neu-targeted immunoprevention of breast cancer

Sas, Sheena Emm

27 March 2007

Improvements in the use of traditional breast cancer therapies have improved the overall survival of women with early stage disease. Remarkable advances in research have created a unique opportunity for developing active vaccination strategies that engage the bodys own immune system in the fight against breast cancer. Human Epidermal Growth Factor Receptor 2 (HER-2/neu) is a breast tumor antigen (Ag) commonly overexpressed in 30% of breast cancer cases. HER-2/neu-targeted DNA-based and fiber-modified dendritic cell (DC)-based vaccines are both analyzed as potent elements in eliciting HER-2/neu specific antitumor immune responses. A HER-2/neu-expressing DNA plasmid (pcDNA/neu) coadministered with the appropriate adjuvant vector was the first study looking at improving vaccine efficacy and enhancing immune responses. Various protection and prevention studies, using FVB/N (wild-type) and FVB/neuN [transgenic (Tg)] mice and Tg1-1 tumor cells, derived from a spontaneous tumor from Tg mice, are used to help narrow down the large panel of adjuvant vectors. Results showed the adjuvant vector pcDNA/TNF-α, when coadministered with pcDNA/neu, induced more efficient protective tumor-specific immunity and significantly delayed breast cancer development in Tg mice.<p>Another study utilized an<i>in vivo</i> murine tumor model expressing the rat neu Ag to compare the immunization efficacy between DC transduced with replication-deficient fiber-modified adenovirus (AdV) containing neu (AdV(RGD)neu), to form DC(RGD)neu, and non-modified DCneu. DC(RGD)neu displayed an upregulation of immunologically important molecules and inflammatory cytokine expression through FACS Analysis, and more importantly increased expression of neu, when compared to DCneu. DC(RGD)neu stimulated a higher percentage of HER-2/neu-specific CD8+ T cells, a stronger neu-specific CTL response, and induced a much stronger Th1- and Th2-type immune response than DCneu. Furthermore, vaccination with DC(RGD)neu induced enhanced protective tumor-specific immunity compared to DCneu in wild-type and Tg mice.<p>Overall the construction of recombinant vectors containing two transgenes (HER-2/neu and TNF-α), can not overcome the induction of HER-2/neu-directed immune tolerance. The fiber-modified (RGD) DCneu vaccine induced enhanced anti-HER-2/neu immunity compared to non-modified DCneu in the prevention of breast cancers.

cancer vaccine

dendritic cell

fiber modified adenovirus

HER-2/neu

breast cancer

HER-2/neu-targeted immunoprevention of breast cancer

Sas, Sheena Emm

27 March 2007

Improvements in the use of traditional breast cancer therapies have improved the overall survival of women with early stage disease. Remarkable advances in research have created a unique opportunity for developing active vaccination strategies that engage the bodys own immune system in the fight against breast cancer. Human Epidermal Growth Factor Receptor 2 (HER-2/neu) is a breast tumor antigen (Ag) commonly overexpressed in 30% of breast cancer cases. HER-2/neu-targeted DNA-based and fiber-modified dendritic cell (DC)-based vaccines are both analyzed as potent elements in eliciting HER-2/neu specific antitumor immune responses. A HER-2/neu-expressing DNA plasmid (pcDNA/neu) coadministered with the appropriate adjuvant vector was the first study looking at improving vaccine efficacy and enhancing immune responses. Various protection and prevention studies, using FVB/N (wild-type) and FVB/neuN [transgenic (Tg)] mice and Tg1-1 tumor cells, derived from a spontaneous tumor from Tg mice, are used to help narrow down the large panel of adjuvant vectors. Results showed the adjuvant vector pcDNA/TNF-α, when coadministered with pcDNA/neu, induced more efficient protective tumor-specific immunity and significantly delayed breast cancer development in Tg mice.<p>Another study utilized an<i>in vivo</i> murine tumor model expressing the rat neu Ag to compare the immunization efficacy between DC transduced with replication-deficient fiber-modified adenovirus (AdV) containing neu (AdV(RGD)neu), to form DC(RGD)neu, and non-modified DCneu. DC(RGD)neu displayed an upregulation of immunologically important molecules and inflammatory cytokine expression through FACS Analysis, and more importantly increased expression of neu, when compared to DCneu. DC(RGD)neu stimulated a higher percentage of HER-2/neu-specific CD8+ T cells, a stronger neu-specific CTL response, and induced a much stronger Th1- and Th2-type immune response than DCneu. Furthermore, vaccination with DC(RGD)neu induced enhanced protective tumor-specific immunity compared to DCneu in wild-type and Tg mice.<p>Overall the construction of recombinant vectors containing two transgenes (HER-2/neu and TNF-α), can not overcome the induction of HER-2/neu-directed immune tolerance. The fiber-modified (RGD) DCneu vaccine induced enhanced anti-HER-2/neu immunity compared to non-modified DCneu in the prevention of breast cancers.

cancer vaccine

dendritic cell

fiber modified adenovirus

HER-2/neu

breast cancer

A Mechanism and Pro-migratory Function for Non-canonical TGF-beta Signaling through Smad1 and Smad5

Liu, Irwin

10 December 2008

<p>During the course of breast cancer progression, normally dormant tumor-promoting effects of transforming growth factor-beta (TGF-beta) including migration, invasion, and metastasis are unmasked. Although this switch or gain of TGF-beta function has been modeled extensively in in-vivo and in-vitro breast cancer systems, the signaling mechanisms that control this TGF-beta switch are poorly understood. Indeed, the precise role of canonical TGF-beta signaling through the type I TGF-beta receptor, ALK5, and its intracellular effectors, Smad2 and Smad3, is still poorly understood. In an effort to identify mechanisms that regulate the ability of TGF-beta to stimulate mammary epithelial cell migration in-vitro, we found that TGF-beta stimulates the phosphorylation of Smad1 and Smad5, intracellular effectors that are typically associated with bone morphogenetic protein (BMP) signaling. As this phosphorylation response has not been reported extensively, little is known about the prevalance, mechanism, function, or pathological relevance of TGF-beta-stimulated Smad1/5 phosphorylation.</p><p>Herein, we use pharmacologic inhibition, RNA interference, and additional biochemical and cell-based approaches to identify a novel mechanism and function for non-canonical TGF-beta signaling through an ALK5-Smad1/5 axis. We show that TGF-beta stimulates Smad1/5 phosphorylation in an ALK5 dependent manner in cells of epithelial, endothelial, and embryonic origin. Mechanistically, this phosphorylation event requires the kinase activity and, unexpectedly, the L45 loop motif of ALK5. Functionally, this phosphorylation event is essential to the initiation and promotion of TGF-beta-stimulated migration in mammary epithelial cells. Interestingly, this phosphorylation event may promote migration by regulating TGF-beta target gene expression, as evidenced by the identification of putative Smad1/5-dependent TGF-beta target genes using microarray analysis. Finally, of particular relevance to mammary tumor progression, this phosphorylation event is preferentially detected in permissive environments such as those created by tumorigenic cells or HER2 oncogene activation.</p><p>Taken together, our data provides evidence that TGF-beta-stimulated Smad1/5 phosphorylation, which occurs through a non-canonical mechanism that challenges the notion of selective Smad phosphorylation by ALK5, mediates the pro-migratory TGF-beta switch in mammary epithelial cells.</p> / Dissertation

Biology, Molecular

Biology, Cell

tgf

beta

smad

smad

migration

her

Breast-Cancer

Detection of CD4 and CD8 t-lymphocytes and HER2 breast cancer biomarker using the opto-fluidic ring resonator biosensor

Gohring, John Thomas, Fan, Xudong.

January 2009

Title from PDF of title page (University of Missouri--Columbia, viewed on March 10, 2010). The entire thesis text is included in the research.pdf file; the official abstract appears in the short.pdf file; a non-technical public abstract appears in the public.pdf file. Thesis advisor: Dr. Xudong Fan. Includes bibliographical references.

Peptide-based B-cell epitope vaccines targeting HER-2/neu

Garrett, Joan Teresa.

January 2007

Thesis (Ph. D.)--Ohio State University, 2007. / Full text release at OhioLINK's ETD Center delayed at author's request.

Peptid-Aptamere als spezifische Inhibitoren der ErbB2-Rezeptortyrosinkinase

Kunz, Christian.

Unknown Date

Universiẗat, Diss., 2006--Frankfurt (Main).