Anti-inflammatory properties of C-peptide. A new therapeutic strategy for reducing vascular damage in type 1 diabetes patients

Cifarelli, Vincenza

23 September 2011

C-peptide, historically considered a biologically inactive peptide, has been shown to exert insulin-independent biological effects on a number of cells proving itself as a bioactive peptide with anti-inflammatory properties. Type 1 diabetes (T1D) patients typically lack physiological levels of insulin and C-peptide and are at increased risk of developing complications affecting the vessels of the eye, the kidneys, and the peripheral nerves. Inflammation is an important factor for the development of diabetes-associated vascular complications, and there is increasing evidence that T1D patients, even at a young age and after short duration of T1D, have circulating activated monocytes and increased plasma levels of inflammatory cytokines. It has been hypothesized that lack of circulating C-peptide might contribute to the development of diabetes-associated vascular complications by reducing the inflammatory response associated with T1D. In this study, we investigated the direct effect of C-peptide on several inflammatory processes of vascular damage, such as endothelial dysfunction and monocyte activation. In an hyperglycaemia-induced model of vascular dysfunction, we found that C-peptide exerted its beneficial effect on a variety of inflammatory events such as cytokines secretions, adhesion molecules expression, oxidative stress generation, and cellular proliferation. Finally, to gain insights on the cell biology of C-peptide, we investigated its process of from the cell surface and its sub-cellular localization in target cells. Our findings indicate that C-peptide internalization from the cell surface within membrane-bound organelles of the endocytic pathway and excluded direct translocation across the plasma membrane. The importance of this finding is that endosomes represent intracellular sites from which C-peptide affects key signaling pathways in target cell. The present evidences favor the view that replacement therapy with C-peptide in T1D patients has a critical public health impact for decreasing diabetic complications. In fact C-peptide therapy replacement offers an approach to retard the development of diabetes-associated vascular complications, for which no causal therapy is available today. Much of the burden of diabetes is due to the development of microvascular complications including retinopathy, nephropathy and neuropathy. The prevention and treatment of microvascular complications are of critical importance to decrease the associated mortality and morbidity.

Human Genetics

Mechanisms and Functional Roles of Nuclear Respiratory Factor 1 (NRF1) Binding Sites in the Human Genome

Zhu, Wan

23 September 2011

Genome-wide studies have suggested that NRF1 regulates transcription of ~5-6% of human genes, including nuclear genes encoding mitochondrial products. My thesis focus is in neural systems in which NRF1 is a master regulator. Prader-Willi syndrome (PWS) results from genetic loss of function of an imprinted domain in human chromosome 15q11.2. I confirmed NRF1 regulation of ~83% of PWS-region genes using chromatin immunoprecipitation (ChIP). Further studies focused on evolution of this region. Uniquely in marsupials, SNRPN and the ancestral SNRPB gene are adjacent each with an intronic snoRNA paralog. Based on molecular phylogenetics, a model is proposed for origin of each PWS snoRNA from a single ancestral snoRNA. Thus, most extant eutherian PWS genes originated by stepwise duplication and divergence over the past ~180 million years. Circadian rhythms regulate organismal physiology in a 24 hour day-night cycle. Functional NRF1 binding sites in promoters/enhancers were found for ~56% of circadian regulatory genes using bioinformatics, ChIP, NRF1 siRNA assays, and luciferase reporter constructs having significantly reduced transcriptional activity on mutation of NRF1 sites. Further, co-immunoprecipitation showed that NRF1 and the phosphorylated, active form of CLOCK interact in a molecular complex. In serum-induced NIH3T3 cells with circadian oscillations of Dbp and Nr1d1 mRNA, Nrf1 mRNA and protein levels show ultradian oscillations. Hence, NRF1 regulates numerous circadian regulatory genes and interacts with CLOCK, suggesting multiple roles in circadian biology. Additional studies included finding that NRF1 regulates ~45% known hereditary spastic paraplegia (HSP) genes, that NRF1 activates its own transcription, and that the number of NRF1 sites determine the degree of transcriptional activation. In summary, NRF1 is a master regulator in PWS, circadian rhythms, and HSP. Identification of NRF1 target genes and mechanisms will lead to an understanding of the evolution, functions, disease processes, and therapeutic targets within gene regulatory networks involving NRF1. Circadian rhythms are disrupted by travel, shift-work, and in illness, including infection, psychiatric and sleep disorders, obesity, diabetes, and cancer. Consequently, understanding body clocks will provide insights into the pathogenesis of these disorders and potentially lead to improved treatment and prevention options, which will have enormous public health impact.

Human Genetics

DEVELOPMENT OF AN HSV-1 GENE TRANSFER VECTOR WITH LOW TOXICITY

Jiang, Ying

03 February 2006

Simply defined, therapeutic gene transfer involves the transfer of genetic material into the cells with the aim of correcting a disease and/or slowing down the progression of a disease. The public health significance is that therapeutic gene delivery carries the hope of curing currently incurable diseases such as cystic fibrosis and Duchenne muscular dystrophy (DMD), or providing better solutions to current treatments for conditions such as chronic pain. There is high expectation in this new generation of medicine that therapeutic gene transfer would rid the patients of the painful conditions and lead them to better lives. One key component of this procedure is the vehicle that has the capability to deliver the therapeutic gene into different tissues efficiently and safely. A number of vectors based on retroviruses, lentiviruses, adenoviruses and adeno-associated viruses have been developed and their efficacy and safety evaluated in animal models and clinical trials. Possessing several advantages, such as its large genome, the ability to transduce both dividing and non-dividing cells, HSV-1 based vectors represent promising candidates for gene delivery. Three types of HSV-based vectors have been developed: HSV amplicons, replication competent vectors and replication defective vectors. Replication defective vectors based on multiple essential immediate early (IE) gene deletions carrying different transgenes have been constructed. However, HSV vectors have disadvantages. The most prominent one is toxicity. To reduce toxicity, more viral genes are deleted in addition to the essential IE genes. One such gene is the one encoding viral regulatory protein ICP0. However, the deletion of ICP0 gene renders the vector highly inefficient in transgene expression although the toxicity is lowered. Thus, how to restrict the toxicity while retaining the expression is one of the issues that needs to be addressed in HSV vector development. One possible solution is to lower ICP0 level through mutations in the ICP0 promoter region. To test this method, activities of reporter gene driven by mutated ICP0 promoter were assayed and the results showed that deletions in the promoter region did reduce ICP0 expression. However, the optimal level to meet the goal could not be determined by reporter gene assays. Thus, constructs carrying mutant promoters driving ICP0 coding sequence were created. During the construction of these viruses, the positive control virus, later named JDTOZHERO, was found to carry an unexpected deletion in the 5'-UTR. This deletion gave this virus some unique features that fulfilled our goal, i.e., low toxicity and reasonable expression. This virus is characterized in detail in this thesis.

Human Genetics

The higher powers of man

Smith, Frederick Madison,

January 1918

Thesis (Ph. D.)--Clark University, 1916. / Published also without thesis note. Bibliography: p. 3-7.

Human beings

Potential ergonomic problems in the working environment at XYZ company

Lor, Chou.

January 2000

Thesis--PlanB (M.S.)--University of Wisconsin--Stout, 2000. / Includes bibliographical references.

Human engineering.

Essays on endogenous fertility and growth /

Kadkhodaie Eliyadrani, Massoud,

January 2001

Thesis (Ph. D.)--University of Washington, 2001. / Vita. Includes bibliographical references (leaves 84-91).

Fertility, Human

Developing a theology of the physical body

Hecht, Susan M.

January 2000

Thesis (M.A.)--Denver Seminary, 2000. / Includes bibliographical references (leaves 165-173).

Human body

The Theory of environment : an outline of the history of the idea of milieu, and its present status.

Koller, Armin Hajman,

January 1918

Thesis (Ph. D.)--University of Chicago, 1911. / Includes the t.-p. of the original issue. Includes bibliographical references (p. 104) Also available on the Internet. Also issued online.

Three essays on human capital

Dickson, Lisa Marie

28 August 2008

Not available / text

Human capital

TRANSCRIPTIONAL PROFILING AND FUNCTIONAL MODELING OF THE CHEMOSENSORY APPENDAGES OF ANOPHELES GAMBIAE

Rinker, David C

27 November 2015

Mosquitoes are vectors of many human diseases. The vectorial capacity of mosquitoes is directly a consequence of olfactory driven, host seeking behaviors. Olfaction in mosquitoes is mediated by several gene families which encode the olfactory receptors present in the major chemosensory appendages (antenna and maxillary palp) of the adult mosquito. Here, we employ RNA-seq to elucidate the transcriptional profile of these appendages in the major Afrotropical vector mosquito Anopheles gambiae. By then integrating odorant receptor functional information with the quantitative transcriptional data, we construct a synthetic model of the chemoreceptive capacity of the entire mosquito antennae. This model is then assessed against known mosquito behaviors to add a phenotypic dimension to the models. In all we conclude that olfactory receptors in the peripheral olfactory system are subtly dynamic based upon the physiological state of the mosquito. Moreover, these subtle differences are also manifest when compared to a closely related sibling species, and the resulting model is in agreement with known phenotypic differences between the species. In all we have added further evidence to the generalizable notion that peripheral odor coding at the level of olfactory receptors is sufficient to explain many observable differences in olfactory-driven behaviors.

Human Genetics