The availability of mammalian whole genome sequences, has opened up unprecedented new opportunities for biomedical research. In the pre-genomic era the molecular basis of pathology was evaluated based on hypotheses that specific molecular pathways were involved. Unfortunately this """"""""hypothesis biased"""""""" approach limited discoveries to already known, or easily predicted, molecular explanations. In the post-genomic era we can overcome this limitation and conduct unbiased comprehensive molecular characterizations of pathological events in tissues. Expression arrays can be used to follow changes in transcription levels (mRNA) of all genes expressed in a given tissue (the transcriptome). New proteome technology can be used to detect changes in levels of proteins or in their posttranslational modification. These technologies have lead to an unprecedented explosion in biomedical discoveries and opened many new avenues of research. The NOD mouse is a model for type I insulin dependent diabetes mellitus. As in the human disease the insulin producing beta cells in the islets of Langerhans are destroyed by an autoimmune process. The induction and earliest pathophysiologic events of this process remains unclear. We will use molecular phenotyping to obtain a comprehensive characterization of developmental events in NOD mice at age 2-4 weeks. This phenotyping will focus on two tissues: 1). The islets, which are the targets of autoimmune destruction, and, 2). The peripheral leukocytes, which are the effectors of that destruction. The objective of this project is to generate data that will help understand the very early pathophysiology in NOD mice, at the molecular level. For this purpose we will pursue the following specific aims:
Aim 1. To characterize the changes in the molecular phenotype that occurs in islets of NOD mice between 2 and 4 weeks of age.
Aim 2. To characterize the changes in the molecular phenotype that occurs in islets of NON, NOD scid and C57Bl6 mice between 2 and 4 weeks of age.
Aim 3. To characterize the changes in the molecular phenotype of spleen leukocytes in NOD mice between 2 and 4 weeks of age.
Aim 4. To characterize the changes in the molecular phenotype of spleen leukocytes that occurs in NON and C57Bl6 mice between 2 and 4 weeks of age. We are convinced that an extensive characterization of the early developments in molecular phenotype of islets and leukocytes in NOD mice will yield new insights into the pathogenic processes and open new avenues of research that could not be opened by traditional investigative approaches.

Agency
National Institute of Health (NIH)
Institute
National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK)
Type
Research Project (R01)
Project #
1R01DK062103-01
Application #
6513948
Study Section
Immunological Sciences Study Section (IMS)
Program Officer
Sechi, Salvatore
Project Start
2002-07-01
Project End
2007-06-30
Budget Start
2002-07-01
Budget End
2003-06-30
Support Year
1
Fiscal Year
2002
Total Cost
$269,275
Indirect Cost
Name
University of Tennessee Health Science Center
Department
Internal Medicine/Medicine
Type
Schools of Medicine
DUNS #
941884009
City
Memphis
State
TN
Country
United States
Zip Code
38163
Kakoola, Dorothy N; Curcio-Brint, Anita; Lenchik, Nataliya I et al. (2014) Molecular pathway alterations in CD4 T-cells of nonobese diabetic (NOD) mice in the preinsulitis phase of autoimmune diabetes. Results Immunol 4:30-45
Gerling, Ivan C; Ahokas, Robert A; Kamalov, German et al. (2013) Gene Expression Profiles of Peripheral Blood Mononuclear Cells Reveal Transcriptional Signatures as Novel Biomarkers for Cardiac Remodeling in Rats with Aldosteronism and Hypertensive Heart Disease. JACC Heart Fail 1:
Gerling, Ivan C; Ahokas, Robert A; Kamalov, German et al. (2013) Gene expression profiles of peripheral blood mononuclear cells reveal transcriptional signatures as novel biomarkers of cardiac remodeling in rats with aldosteronism and hypertensive heart disease. JACC Heart Fail 1:469-76
Wu, Jian; Kakoola, Dorothy N; Lenchik, Nataliya I et al. (2012) Molecular phenotyping of immune cells from young NOD mice reveals abnormal metabolic pathways in the early induction phase of autoimmune diabetes. PLoS One 7:e46941
Gupta-Ganguli, Malini; Cox, Kyle; Means, Blake et al. (2011) Does therapy with anti-TNF-alpha improve glucose tolerance and control in patients with type 2 diabetes? Diabetes Care 34:e121
Solomon, S S; Odunusi, O; Carrigan, D et al. (2010) TNF-alpha inhibits insulin action in liver and adipose tissue: A model of metabolic syndrome. Horm Metab Res 42:115-21
Wang, Xiaofei; Nookala, Suba; Narayanan, Chidambarathanu et al. (2009) Proteomic analysis of the retina: removal of RPE alters outer segment assembly and retinal protein expression. Glia 57:380-92
Wu, Jian; Lenchik, Nataliya I; Gerling, Ivan C (2008) Approaches to reduce false positives and false negatives in the analysis of microarray data: applications in type 1 diabetes research. BMC Genomics 9 Suppl 2:S12
Gerling, Ivan C; Singh, Sudhir; Lenchik, Nataliya I et al. (2006) New data analysis and mining approaches identify unique proteome and transcriptome markers of susceptibility to autoimmune diabetes. Mol Cell Proteomics 5:293-305
Wu, Jian; Marler, Jacob; Lenchik, Nataliya I et al. (2006) Strain differences in allele and expression levels of CD72 on B-lymphocytes from NOD, AKR, NON and C57BL/6 mice. Immunol Lett 103:115-20

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