Roles of a Putative Tumor Suppressor Gene, Chc1L, in Tumorigenesis

Spillane, David

27 November 2012

Human chromosome 13q14 has been identified as one of the hotspots of deletion in prostate cancer, multiple myeloma, and chronic lymphocytic leukemia. Chromosome Condensation 1-like (CHC1L) is an uncharacterized gene in this region. CHC1L is found within the smallest common region of loss of heterozygosity in prostate cancer, and its decreased expression is linked to pathogenesis and progression of both prostate cancer and multiple myeloma. In the present study, we have generated Chc1L gene knockout mice and demonstrated that loss of this gene increases tumorigenesis in two year old mice. Knockout and heterozygous mice are predisposed to development of Histiocytic Sarcoma and Histiocyte-Associated Lymphoma. Bone marrow and splenic cells from 8-12 week old knockout mice have elevated viability ex vivo. These data provide the first direct evidence that CHC1L is a tumor suppressor gene involved in suppression of histiocyte-rich neoplasms.

Histiocytic Sarcoma

Histiocyte-Associated Lymphoma

CHC1L

RCBTB2

Histiocyte

13q14

0307

Roles of a Putative Tumor Suppressor Gene, Chc1L, in Tumorigenesis

Spillane, David

27 November 2012

Human chromosome 13q14 has been identified as one of the hotspots of deletion in prostate cancer, multiple myeloma, and chronic lymphocytic leukemia. Chromosome Condensation 1-like (CHC1L) is an uncharacterized gene in this region. CHC1L is found within the smallest common region of loss of heterozygosity in prostate cancer, and its decreased expression is linked to pathogenesis and progression of both prostate cancer and multiple myeloma. In the present study, we have generated Chc1L gene knockout mice and demonstrated that loss of this gene increases tumorigenesis in two year old mice. Knockout and heterozygous mice are predisposed to development of Histiocytic Sarcoma and Histiocyte-Associated Lymphoma. Bone marrow and splenic cells from 8-12 week old knockout mice have elevated viability ex vivo. These data provide the first direct evidence that CHC1L is a tumor suppressor gene involved in suppression of histiocyte-rich neoplasms.

Histiocytic Sarcoma

Histiocyte-Associated Lymphoma

CHC1L

RCBTB2

Histiocyte

13q14

0307

Investigations into the role of inflammation in tumorigenesis

Coutermarsh-Ott, Sheryl

05 January 2018

Inflammation has been found to play a role in the development of many different tumors. However, a tumor's ability to evade immune cell recognition can be integral to its progression as well. The following works explore this complicated role with a focus on histiocytic sarcoma (HS) and breast cancer. Chapter 1 opens with a broad overview of inflammation in tumorigenesis while Chapter 2 focuses on a review and discussion of current HS literature. Our investigations into the role of inflammation specifically in HS are initiated in Chapter 3 where we explore the role of the regulatory NLR, NLRX1, in the development of HS in mice. NLRX1 is an intracellular patter recognition receptor that functions to regulate pro-inflammatory cell pathways. Our studies reveal that in carcinogen-induced HS in mice, NLRX1 acts as a tumor suppressor. Moreover, when NLRX1 is lost, tumors that develop are associated with increases in expression of genes in NF-κB and AKT pathways. Though uncommon, HS is a clinically relevant tumor in dogs. In Chapter 4, we further investigate the role of the pathways identified in Chapter 3 in canine patients. Not only were these pathways increased, but our results also revealed previously unreported differences in tumors diagnosed as HS versus those diagnosed as hemophagocytic HS. To improve the use of canine HS both as an experimental and translational model, we sought to create a murine xenograft model. In Chapter 5, we discuss the development of our model and the results of pilot studies using targeted drug therapy. The focus of Chapters 3-5 is to further explore the role of inflammation in the development of HS. However, as aforementioned, the role of inflammation in tumorigenesis is quite complicated. In Chapter 6, we aim to address the concept that the lack of inflammation through immune evasion, can also be important in tumors. Breast cancer in humans is traditionally recognized as being highly immunosuppressive. In this final chapter, we investigate the use of an attenuated strain of bacteria to treat these tumors by way of shifting the immunosuppressive tumor microenvironment to a more pro-inflammatory state. / Ph. D.

inflammation

tumorigenesis

histiocytic sarcoma

signaling pathways

breast cancer

Evaluation of the therapeutic potential of Akt inhibition in a translational model of histiocytic sarcoma

Qin, Qizhi

12 October 2018

Histiocytic sarcoma (HS) is an exceptionally rare malignant neoplasm derived from dendritic cells and histiocytes, with no available effective treatment options. Akt signaling and proteasome dysfunction have been implicated in the pathogenesis of the disease, both in humans and dogs. Our work aims to investigate the importance of the Akt signaling pathway and evaluate the potential of Akt-targeted therapy in a canine model of histiocytic sarcoma. We demonstrated Akt signaling to be active in 9 out of 10 canine HS tumor samples, regardless the presence of PTEN. Moreover, the Akt signaling pathway appears to be constitutively active in DH82 cells — a cell line model of canine HS, when compared to control canine dendritic cells. Pharmacologic Akt inhibition resulted in significant decrease in Akt S473 phosphorylation, GSK-3β S9 phosphorylation, Akt activity, cell viability, increased apoptosis, and resulted in sensitization to proteasome inhibition-depended cell death in a synergistic manner. Proteasome inhibition using carfilzomib, an irreversible proteasome inhibitor, induced dose-depended/caspase-3 independent cell death, at clinically relevant drug concentrations. The therapeutic effect of Akt inhibition was validated in vivo using a DH82 xenograft murine model. Akt inhibition lead to reduced tumor growth, prolonged overall survival, and ameliorated splenomegaly, but not affected the lung metastasis. Moreover, the therapeutic effect of Akt inhibition was potentiated in combination with carfilzomib. In conclusion, targeting Akt signaling may represent an attractive potential therapeutic target for the HS. Future studies are required to examine the clinical efficacy of Akt-targeted therapy in dogs with HS using novel selective Akt inhibitors. / Ph. D. / Histiocytic sarcoma (HS) is an exceptionally rare cancer of the immune system, with no effective treatment options available. Canine histiocytic sarcoma (cHS) is an aggressive tumor of the same cellular lineage, identified at increased relative frequency in specific dog breeds, with significant translational value. Akt signaling and proteasome dysfunction have been implicated in the pathogenesis of the disease, both in humans and dogs. Our study aims to investigate the importance of the Akt signaling pathway in the dog model of the disease and evaluate the potential of Akt-targeted therapy in a translational of histiocytic sarcoma. The work presented here demonstrates that Akt signaling appears aberrantly and constitutively activated in the canine model of HS. Importantly, Akt inhibition significantly reduced the tumor growth and prolonged the overall survival of the experimental animals. Moreover, Akt inhibition potentiated the anti-cancer activities of other anticancer drugs. Collectively, these findings provide an attractive therapeutic approach for the treatment of HS.

Histiocytic sarcoma

PI3K/Akt signaling

Akt-targeted therapy