Notch-1 and IGF-1 as Survivin Regulatory Pathways in Cancer: A Dissertation

Lee, Connie Wing-Ching

04 June 2008

The 21st century brought about a dramatic increase in knowledge about genetic and molecular profiles of cancer. This information has validated the complexity of tumor cells and increased awareness of “nodal proteins”, but has yet to advance the development of rational targeted cancer therapeutics. Nodal proteins are critical cellular proteins that collect biological inputs and distribute the information across diverse biological processes. Survivin acts as a nodal protein by interfacing the multiple signals involved in mitosis and apoptosis and functionally integrate proliferation, cell death, and cellular homeostasis. By characterizing survivin as a target of both Type 1 Insulin-like Growth Factor (IGF-1) and Notch developmental signaling, we contribute to the paradigm of survivin as a nodal protein. The two signaling systems, Notch and IGF-1, regulate survivin by two independent mechanisms. Notch activation induces survivin transcription preferentially in basal breast cancer, a breast cancer subtype with poor prognosis and lack of molecular therapies. Activated Notch binds the transcription factor RBP-Jк and drives transcription from the survivin promoter. Notch mediated survivin expression increases cell cycle kinetics promoting tumor proliferation. Inhibition of Notch in a breast xenograft model reduced tumor growth and systemic metastasis. On the other hand, IGF-1 signaling drives survivin protein translation in prostate cancer cells. Binding of IGF-1 to its receptor activates downstream kinases, mammalian target of rapamycin (mTOR) and p70 S6 protein kinase (p70S6K), which modulates survivin mRNA translation to increase the apoptotic threshold. The multiple roles of survivin in tumorigenesis implicate survivin as a rational target for the “next generation” of cancer therapeutics.

Neoplasm Proteins

Signal Transduction

Breast Neoplasms

Insulin-Like Growth Factor I

Receptor

Notch1

Amino Acids, Peptides, and Proteins

Neoplasms

Skin and Connective Tissue Diseases

Development and Evaluation of Disease Activity Measures in Rheumatoid Arthritis Using Multi-Level Mixed Modeling and Other Statistical Methodologies: A Dissertation

Bentley, Mary Jane

28 January 2010

Remarkable progress has been made in the development of effective treatments for patients with rheumatoid arthritis (RA). To ensure that a patient is optimally responding to treatment, consistent monitoring of disease activity is recommended. Established composite and individual disease activity measures often cannot be computed due to missing laboratory values. Simplified measures that can be calculated without a lab value have been developed and previous studies have validated these new measures, yet differences in their performance compared with established measures remain. Therefore, the goal of my doctoral research was to examine and evaluate disease activity and composite measures to facilitate monitoring of response in clinical care settings and inclusion of patients with missing laboratory values in epidemiological research. In the first study, the validity of two composite measures, the Clinical Disease Activity Index (CDAI) and the Disease Activity Score with 28 joint count (DAS28) was examined and both were significantly associated with a rheumatologist’s decision to change therapy (CDAI OR=1.58; 95% CI: 1.42, 1.76) (DAS28 OR=1.34; 95% CI 1.27,1.56). However, further evaluation using receiver operating characteristic (ROC) analysis found that they were not strong predictors of physician decisions to change therapy (AUC=0.75, 0.76, respectively). Thus, they should not be used to guide treatment decisions in the clinic. Two measures of disease activity, erythrocyte sedimentation rate (ESR) and C-reactive protein (CRP) are often not measured and impede the computation of composite measures of disease activity. In the second study, significant factors which may predict the measurement of the ESR and CRP were identified and included physician and clinical variables but no quantitative disease activity measures. Thus the suitability of the ESR and CRP as measures of disease activity is suspect. In the final study, I created a new composite measure, the modified disease activity score with 28 joint count (mDAS28), by replacing the laboratory value in the DAS28. The mDAS28 was then validated by comparing its performance with the DAS28. The measures were strongly correlated (r=0.87), and strong agreement was found between the two measures when categorizing patients to levels of disease activity (ĸ=0.77) and treatment response (ĸ=0.73). Therefore, the mDAS28 could be used in place of the DAS28 when laboratory values needed to compute the DAS28 are missing. In summary, I found that the CDAI and DAS28 were not strong predictors of the rheumatologist’s decision to change therapy. I also found that the variability in the measurement of ESR and CRP was not associated with disease activity. I was able to modify the DAS28 by replacing the laboratory measure and create a new simplified measure, the mDAS28. I also validated the mDAS28 for use in the clinic and in epidemiological research when the DAS28 is unavailable.

Arthritis

Rheumatoid

Acute Disease

Antirheumatic Agents

ROC Curve

Rheumatology

*Severity of Illness Index

Treatment Outcome

Chemical Actions and Uses

Musculoskeletal Diseases

Pharmaceutical Preparations

Skin and Connective Tissue Diseases

Therapeutics

Analysis of Integrin α6β4 Function in Breast Carcinoma: A Dissertation

Gerson, Kristin D.

06 April 2012

The development and survival of multicellular organisms depends upon the ability of cells to move. Embryogenesis, immune surveillance, wound healing, and metastatic disease are all processes that necessitate effective cellular locomotion. Central to the process of cell motility is the family of integrins, transmembrane cell surface receptors that mediate stable adhesions between cells and their extracellular environment. Many human diseases are associated with aberrant integrin function. Carcinoma cells in particular can hijack integrins, harnessing their mechanical and signaling potential to propagate cell invasion and metastatic disease, one example being integrin α6β4. This integrin, often referred to simply as β4, is defined as an adhesion receptor for the laminin family of extracellular matrix proteins. The role of integrin β4 in potentiating carcinoma invasion is well established, during which it serves both a mechanical and signaling function. miRNAs are short non-coding RNAs that regulate gene expression posttranscriptionally, and data describing the role of extracellular stimuli in governing their expression patterns are sparse. This observation coupled to the increasingly significant role of miRNAs in tumorigenesis prompted us to examine their function as downstream effectors of β4, an integrin closely linked to aggressive disease in breast carcinoma. The work presented in this dissertation documents the first example that integrin expression correlates with specific miRNA patterns. Moreover, integrin β4 status in vitro and in vivo is associated with decreased expression of distinct miRNA families in breast cancer, namely miR-25/32/92abc/363/363-3p/367 and miR-99ab/100, with purported roles in cell motility. Another miRNA, miR-29a, is significantly downregulated in response to de novo expression of β4 in a breast carcinoma cell line, and β4-mediated repression of the miRNA is required for invasion. Another major conclusion of this study is that β4 integrin expression and ligation can regulate the expression of SPARC in breast carcinoma cells. These data reveal distinct mechanisms by which β4 promotes SPARC expression, involving both a miR-29a-mediated process and a TOR-dependent translational mechanism. Our observations establish a link between miRNA expression patterns and cell motility downstream of β4 in the context of breast cancer, and uncover a novel effector of β4-mediated invasion.

Breast Neoplasms

Integrin alpha6beta4

Cell Movement

MicroRNAs

Neoplasm Invasiveness

Amino Acids, Peptides, and Proteins

Cancer Biology

Neoplasms

Skin and Connective Tissue Diseases

An Integral Role of ARRDC3 in Stem Cell Migration and Breast Cancer Progression: A Dissertation

Draheim, Kyle M.

02 March 2010

Despite the importance of integrins in epithelial cell biology surprisingly little is known about their regulation. It is known that they form hemidesmosomes (HDs), are actively involved in cell contacts during cell migration/invasion, and are key signaling molecules for survival and growth. However, there has been a distinct lack of understanding about what controls the dynamic integrin localization during cell activation and movement. Growth factors, such as EGF, are elevated during wound healing and carcinoma invasion leading to phosphorylation of ITGβ4 and the disassembly of the HD and mobilization of ITGβ4 to actin-rich protrusions. More recently the phosphorylation of a novel site on ITGβ4 (S1424) was found to be distinctly enriched on the trailing edge of migrating cells, suggesting a possible mechanism for the dissociation of ITGβ4 from HDs. Arrestin family member proteins are involved in the regulation of cell surface proteins and vesicular trafficking. In this study, we find that over-expression of arrestin family member ARRDC3 causes internalization and proteosome-dependent degradation of ITGβ4, while decreased levels of ARRDC3 stabilizes ITGβ4 levels. These results lead us to a new mechanism of ITGβ4 internalization, trafficking and degradation. During migration, ARRDC3 co-localizes with ITGβ4 on the lagging edge of cells but has a distinct distribution on the leading edge of cells. Additional immuno co-precipitation experiments demonstrate that ARRDC3 preferentially binds to ITGβ4 when phosphorylated on S1424. Using confocal microscopy, we show that the expression pattern of ARRDC3 on the lagging edge of a migrating cell is identical to the expression pattern of ITGβ4-pS1424. We demonstrate that ARRDC3 expression represses cell proliferation, migration, invasion, growth in soft agar and tumorigenicity. Collectively, our data reveals that ARRDC3 is a negative regulator of β4 integrin and demonstrates how this new pathway impacts biologic processes in stem cell and cancer biology. Additionally, as ARRDC3 is highly expressed in several tissues and conserved across species, our results are likely to be translated to other models.

Integrin beta4

Hemidesmosomes

Arrestins

Cell Movement

Adult Stem Cells

Breast Neoplasms

Amino Acids, Peptides, and Proteins

Cancer Biology

Cells

Neoplasms

Skin and Connective Tissue Diseases

Nucleic Acid Sensing by the Immune System: Roles For the Receptor For Advanced Glycation End Products (RAGE) and Intracellular Receptor Proteins: A Dissertation

Sirois, Cherilyn M.

14 July 2011

As humans, we inhabit an environment shared with many microorganisms, some of which are harmless or beneficial, and others which represent a threat to our health. A complex network of organs, cells and their protein products form our bodies’ immune system, tasked with detecting these potentially harmful agents and eliminating them. This same system also serves to detect changes in the healthy balance of normal functions in the body, and for repairing tissue damage caused by injury. Immune recognition of nucleic acids, DNA and RNA, is one way that the body detects invading pathogens and initiates tissue repair. A number of specialized receptor proteins have evolved to distinguish nucleic acids that represent “threats” from those involved in normal physiology. These proteins include members of the Toll-like receptor family and diverse types of cytosolic proteins, all of which reside within the confines of the cell. Few proteins on the cell surface have been clearly characterized to interact with nucleic acids in the extracellular environment. In this dissertation, I present collaborative work that identifies the receptor for advanced glycation end products (RAGE) as a cell surface receptor for nucleic acids and positions it as an important modulator of immune responses. Molecular dimers of RAGE interact with the sugar-phosphate backbones of nucleic acid ligands, allowing this receptor to recognize a variety of DNA and RNA molecules regardless of their nucleotide sequence. Expression of RAGE on cells promotes uptake of DNA and enhances subsequent responses that are dependent on the nucleic acid sensor Toll-like receptor 9. When mice deficient in RAGE are exposed to DNA in the lung, the predominant site of RAGE expression, they do not mount a typical early inflammatory response, suggesting that RAGE is important in generating immune responses to DNA in mammalian organisms. Further evidence suggests that RAGE interacts preferentially with multimolecular complexes that contain nucleic acids, and that these complexes may induce clustering of receptor dimers into larger multimeric structures. Taken together, the data reported here identify RAGE as an important cell surface receptor protein for nucleic acids, which is capable of modulating the intensity of immune responses to DNA and RNA. Understanding of and intervention in this recognition pathway hold therapeutic promise for diseases characterized by excessive responses to self nucleic acids, such as systemic lupus erythematosus, and for the pathology caused by chronic inflammatory responses to self and foreign nucleic acids.

Receptors

Cell Surface

Receptors

Immunologic

Nucleic Acids

Immunity

Innate

Cells

Hemic and Immune Systems

Immune System Diseases

Immunology and Infectious Disease

Skin and Connective Tissue Diseases

Therapeutics

The Development of Novel Apurinic/Aprymidinic Endonuclease/Redox-factor 1 Inhibitors for the Treatment of Human Melanoma

Sharifi, Bella

19 December 2019

Apurinic/apyrimidinic DNA repair endonuclease-1 (APE1), first recognized as an important DNA excision repair enzyme, is also known as Redox Factor-1 (Ref-1) involved in the activation of many nuclear transcription factors in both redox-dependent and independent manner. It has been well-documented that the overexpression of APE/Ref-1 contributes to the development of chemo-resistance and is associated with tumor progression in many human malignancies [1]. Our previous study in melanoma demonstrated that the development of novel inhibitors targeting the redox regulation domain of APE/Ref-1 is a promising strategy for melanoma treatment. To date, limited successes have been reported in developing novel APE/Ref-1 inhibitors for cancer treatment. Utilizing a structure-based approach, our study identified and characterized small molecular inhibitors of APE/Ref-1. First, N-terminally truncated APE/Ref-1 protein lacking the first 40 amino acid residues (∆40APE-1wt) was cloned into the pGEX-6P1 vector to express the GST-∆40APE-1wtprotein. After cleavage of GST-tag, the concentrated ∆40APE-1wt protein was subjected to protein crystallization study. We have successfully diffracted ∆40APE-1wt crystals and collected data with a resolution of 1.57Å. The crystal structure was further determined by molecular replacement in Molrep using the already available human APE-1 structure (PDB: 5CFG). For the first time, we observed the dimerization of APE/Ref-1 protein formed under oxidative conditions, which may contribute to the redox regulation of APE/Ref-1. Such structural transformation of APE/Ref-1 protein under distinct redox conditions may pave the way for future drug development and optimization. The binding affinity of the candidate compounds with ∆40APE-1wt protein was also determined using Surface Plasmon Resonance (SPR), and the Ki values were analyzed. One of the potent inhibitors developed by our group by structure-based approach, exhibited promising anti-melanoma activities both in vitro and in vivo. Future studies on the structure-activity association are warranted.

Structural Biology

Protein Crystallography

Drug Design Delivery

Medical Cell Biology

Medical Molecular Biology

Medical Pharmacology

Pharmaceutics and Drug Design

Skin and Connective Tissue Diseases

Metabolic adaptation of Staphylococcus aureus pathogenesis and therapeutic approach in diabetic foot ulcers.

Baker, Carol L.

08 August 2023

37.3 million Americans (11.2% of the US population) currently have Type 2 diabetes mellitus (T2DM) with over 1.5 million new cases being diagnosed each year. The multifactorial etiology of the patient having neuropathy, overweight/obesity, foot deformities, ischemia, and infection leads to a condition called diabetic foot ulcer (DFU). One in six patients with a DFU will require amputation with infected DFUs have a 155-fold increased risk of amputation. Staphylococcus aureus is the most common bacteria isolated from severe DFU infections that require amputation. Interestingly, diabetics are more heavily colonized with S. aureus compared to non-diabetics suggesting a unique advantageous adaptation to diabetes. The specifics of the underlying molecular mechanisms and triggers by which S. aureus adapts and thrives in the T2DM patient that increase its pathogenicity and colonization compared to non-diabetics with skin ulcer infections are not fully elucidated. Thus, our studies aimed to identify the key virulence components in the pathogenesis of S. aureus infected DFUs and using that information to develop therapeutics aimed at disrupting these components to increase the success rate of conservative treatment and prevent non-traumatic lower extremity amputations in T2DM patients. Our studies found that several different elevated sugars in T2DM patients can trigger virulence factor production in S. aureus. We also found by comparing several different clinical DFU S. aureus isolates that there are clear differences in the ability of each isolate to cause necrotic infections. And lastly, we identified a possible therapeutic, the amino acid L-arginine, that can help prevent/treat S. aureus infections in the Tallyho diabetic mouse model. In conclusion, we have increased the understanding of the pathogenesis of S. aureus infected DFU and have proposed a possible therapeutic to add to the conservative treatment regimen.

Diabetes

Staphylococcus aureus

Foot Ulcer

Arginine

Glucose-6-Phosphate

Fructose

Mannose

Bacterial Infections and Mycoses

Disease Modeling

Nutritional and Metabolic Diseases

Skin and Connective Tissue Diseases

Preventing Skin Cancer in Adolescent Girls Through Intervention with Their Mothers

Baker, Mary K

01 May 2013

Indoor tanning (IT) before the age of 35 increases one’s risk for melanoma by 75%, and epidemiological data show a 6.1% annual increase in the incidence of melanomas in white women younger than age 44 in the US. Population-based studies reveal that 15% of adolescents and 8% to 14% of their primary caregivers have engaged in IT in the past year. The compelling case for IT being a significant risk factor for melanoma, together with the high rates of IT in teen girls and their mothers, provided a strong rationale for conducting an antitanning intervention directed at mother-daughter dyads. This study evaluated a strategy designed to prevent skin cancer in adolescent girls by using mothers as change agents to effectively communicate the risks of IT and to encourage teens to avoid high risk IT behaviors. Mother-daughter dyads were recruited over the telephone, randomly assigned to the intervention or control group, and surveyed on IT risk constructs including tanning-specific knowledge and communication. Forty-two mother-daughter dyads completed baseline surveys in the summer of 2012. Mothers in the intervention group were given a handbook educating them on the dangers of IT and how to convey information about skin cancer prevention to their daughters and encouraged to talk with their daughters about the issues covered in the handbook over a 1-month period. Participants completed follow-up assessments in October 2012 and January 2013. Among teens, past 3-month IT frequency, intentions, and willingness decreased in intervention group teens, while intentions and willingness increased among control teens. Intervention teens exhibited lower IT attitudes and higher levels of perceived susceptibility to appearance damage and health effects from IT when compared to control teens. Intervention teens reported higher levels of maternal monitoring and lower levels of maternal permissiveness toward IT. Qualitative data indicated mothers responded positively to the handbook, and it encouraged tanning-specific discussions with their daughters. Mothers provided suggestions on how to improve the handbook, that once incorporated, should lead to improved intervention efficacy. Overall, study results indicated this intervention strategy is feasible, as mothers did communicate with their teens and were able to convey the antitanning messages.

Parent-Based Intervention

Indoor Tanning

Adolescent Health

Skin Cancer

Prevention

Community Health and Preventive Medicine

Health Communication

Maternal and Child Health

Public Health Education and Promotion

Skin and Connective Tissue Diseases

Localization of Insulin Receptor Substrate-2 in Breast Cancer: A Dissertation

Clark, Jennifer L.

29 March 2012

The insulin-like growth factor-1 receptor (IGF-1R) and many of its downstream signaling components have long been implicated in tumor progression and resistance to therapy. The insulin receptor substrate-1 (IRS-1) and IRS-2 adaptor proteins are two of the major downstream signaling intermediates of the IGF-1R. Despite their considerable homology, previous work in our lab and others has shown that IRS-1 and IRS-2 play divergent roles in breast cancer cells. Signaling through IRS-1 promotes cell proliferation, whereas signaling through IRS-2 promotes cell motility and invasion, as well as glycolysis. Moreover, using a mouse model of mammary tumorigenesis, our lab demonstrated that IRS-2 acts as a positive regulator of metastasis, while IRS-1 cannot compensate for this function. The focus of my thesis research is to understand how IRS-2, but not IRS-1, promotes breast carcinoma cell invasion and metabolism to support metastasis. In preliminary studies, I have found that IRS-1 and IRS-2 exhibit different expression patterns in both cell lines and human tumors with correlations to patient survival, which provides a potential mechanism for their distinct functions. The localization of IRS-1 and IRS-2 within separate intracellular compartments would determine their access to downstream effectors and substrates, and this would result in unique cellular outcomes. Specifically, I have observed that IRS-2, but not IRS-1, co-localizes with microtubules in breast carcinoma cell lines with implications for signaling through AKT and mTORC2. The goal of this research is to determine how the localization of IRS-2 contributes to its regulation of breast cancer progression and response to therapy and how this information could be used to better predict patient outcomes.

Breast Neoplasms

Receptors

Somatomedin

Insulin Receptor Substrate Proteins

Protein Transport

Neoplasm Invasiveness

Amino Acids, Peptides, and Proteins

Biological Factors

Cancer Biology

Neoplasms

Skin and Connective Tissue Diseases

Role of TNF in Heterologous Immunity between Lymphocytic Choriomeningitis Virus and Vaccinia Virus: A Dissertation

Nie, Siwei

14 November 2008

Prior immunity to a related or unrelated pathogen greatly influences the host’s immune response to a subsequent infection and can cause a dramatic difference in disease course, a phenomenon known as heterologous immunity. Heterologous immunity can influence protective immunity, immunopathology and/or immune deviation of cytokine-producing T cell subsets. Examples of heterologous immunity have been well documented in mouse models, as well as during human infections. For example, prior immunity to lymphocytic choriomeningitis virus (LCMV) provides partial protection against vaccinia virus (VV), as LCMV-immune mice show reduced VV titers and increased survival upon lethal dose VV infection. Heterologous protection against VV challenge, as a result of LCMV immunity, is mediated by LCMV-specific CD4 and CD8 T cells, as transfer of LCMV-specific memory T cells can mediate this protective effect in naïve mice. The recognition of a single TCR with more than one MHC-peptide complex is referred to as T cell cross-reactivity. A VV Kb-restricted epitope a11r198 was identified to be able to induce cross-reactive responses from LCMV-specific CD8 T cells. During VV infection, LCMV-specific memory T cells that are cross-reactive to VV epitopes produce IFN-γ early in VV infection. IFN-γ is essential for mediating the protection against VV in LCMV-immune mice, as this heterologous protection is absent in IFN-γR-/-and IFN-γ blocking antibody-treated LCMV-immune mice. In addition to protective immunity, cross-reactive LCMV-specific memory T cells and IFN-γ also induce an altered immunopathology during heterologous VV challenge. LCMV-immune mice show moderate to severe levels of inflammation of the fat tissue, known as panniculitis, in the visceral fat pads upon VV challenge. In humans, panniculitis is a painful condition, most commonly presenting as erythema nodosum. Erythema nodosum is a disease of unknown etiology with no known treatment. It may occur following intracellular bacterial and viral infections, and occasionally happens after vaccination with VV for smallpox. During infections there can be a delicate balance between the ability of immune responses to provide protective immunity, and the tendency to induce immunopathology. By using the mouse model of heterologous immunity between LCMV and VV, we tried to understand how the immunity to LCMV biased the balance between the protective immunity and immunopathology, and what effector molecules were responsible for the pathogenesis of panniculitis in this system. TNF is a pleiotropic cytokine, which is required for normal innate and adaptive immune responses. Its functions range from inducing proliferative responses including cell survival, to destructive responses such as promoting apoptosis and programmed necrosis. In response to inflammatory stimuli, activated macrophages/ monocytes produce large amounts of TNF, and upon activation, T cells, B cells and NK cells also produce TNF. In vitro and in vivo studies have shown that TNF in synergy with IFN-γ plays an important role in mediating host defense against pathogens, such as Listeria monocytogenesand poxviruses in mice and hepatitis B virus and human immunodeficiency virus in humans. However, inappropriate expression of TNF often results in tissue damage. Considering the important role TNF plays in both host defense and mediating autoimmune diseases, we hypothesized that TNF was required for mediating both protective and pathogenic effects in the heterologous immunity between LCMV and VV. We first examined whether TNF was involved in mediating protective heterologous immunity. LCMV-immune mice, that were TNF-deficient as a consequence of genetic deletion (TNF-/-) or receptor blockade by treatment with etanercept (TNFR2: Fc fusion protein), were challenged with VV. These TNF-deficient mice showed normal recruitment and selective expansion of cross-reactive LCMV-specific memory CD8 T cells. They also exhibited efficient clearance of VV similar to LCMV-immune mice with normal TNF function. Thus, we concluded that neither TNF nor lymphotoxin (LT), which uses the same receptors as TNF, was required in mediating protective heterologous immunity against VV. Indeed, prior immunity to LCMV could completely compensate for the role of TNF in protection of naïve mice against VV infection, even under conditions of lethal dose inoculum. Thus, heterologous immunity may help explain why treatment of humans with etanercept is reasonably well tolerated with relatively few infectious complications. One of the histological characteristics of panniculitis is necrosis of adipose tissue. It is known that three members in the TNF superfamily, i.e. TNF/LT, FasL and TRAIL are able to induce necrosis of a target cell. It is also known that TNF is able to induce VV-infected cells to go through necrosis, when apoptosis is blocked in these cells by VV protein. Furthermore, TNF and FasL have already been shown to be associated with some skin and fat pathology. Thus, we hypothesized that TNF, FasL and TRAIL were involved in the pathogenesis of panniculitis in VV infected LCMV-immune mice. By using blocking antibodies or genetically deficient mice, we demonstrated that both TNF/LT and FasL were crucial for inducing panniculitis. Although TNFR1 has been reported to induce programmed necrosis, our data indicated that TNFR2, not TNFR1, was involved in mediating tissue damage in the fat pads of LCMV-immune mice infected with VV. We also found that TNF signaled through TNFR2 to up-regulate the expression of Fas on adipocytes. Thus, the engagement of Fas on the adipocytes with FasL expressed on activated VV-specific and cross-reactive LCMV-specific CD8 T cells in the fat pads could lead to panniculitis. Thus, our data may identify a potential mechanism in the pathogenesis of human panniculitis, and may suggest a possible treatment for this painful disease. Recent reports suggest that heterologous immunity may contribute to the tremendous variation in symptoms between individuals, from subclinical to death, upon viral infection. Even in genetically identical mice, variations in immunopathology from none to life-threatening levels of pathology are observed in LCMV-immune mice during VV infection. By adoptive transfer of splenocytes from a single LCMV-immune donor into two recipients, we showed that similar levels of pathology were generated in mice receiving the same splenocytes. However, the level of pathology varied among recipients receiving splenocytes from different LCMV-immune donors. The difference in levels of VV-induced pathology observed in individual LCMV-immune mice was a reflection of the private specificity of the T cell repertoire, which is a unique characteristic of each individual immune host. The goal of this doctoral thesis is to understand how heterologous immunity contributes to the pathogenesis of panniculitis. Our data demonstrate that TNF/LT and FasL directly contribute to development of panniculitis in LCMV-immune mice during VV infection, and suggest that anti-TNF treatment might be a useful treatment for diseases, such as erythema nodosum and lupus-induced acute fatty necrosis in humans.

Viruses

Lymphocytic choriomeningitis virus

Immunologic Memory

Panniculitis

Tumor Necrosis Factors

Fas Ligand Protein

Erythema Nodosum

Hemic and Immune Systems

Hemic and Lymphatic Diseases

Immune System Diseases

Skin and Connective Tissue Diseases

Viruses