Lokalizace koreceptoru CD4 a jeho variant v lidských T buňkách / Localisation of CD4 coreceptor and its variants in human T cells

Glatzová, Daniela

January 2013

CD4 co-receptor of main T cell receptor (TCR) is essential for proper development of T lymphocytes and their function in adaptive immune responses. It is believed that CD4 stabilizes the interaction of TCR with antigenic ligand, peptide-MHC, and thereby improves T cell-dependent responses during immune reaction. CD4 is transmembrane glycoprotein with a number of structural motifs in its intracellular domain which do not dramatically affect its sorting to the plasma membrane but can influence its local organization at nanoscale. CD4 was shown to transiently accumulate in the immunological synapse formed between T cell and antigen-presenting cell. Such accumulation is rapidly followed by its internalization and/or delocalization outside the synapse. This is in contrast with TCR which accumulates strongly in the immunological synapse and is later found enriched in the central area of this structure. It is therefore unclear how TCR and its CD4 co-receptor function together when binding to their common ligand during the initiation of signaling in T cells. We aim to study localization of CD4 at nanoscale using advanced fluorescence microscopy techniques achieving significant improvements in resolution. In this work, CD4 and its mutant variants, potentially causing its different localization at the...

Regulation of T Cell Activation by the CD5 Co-Receptor and Altered Peptides, Characterization of Thymidine Kinase-Specific Antibodies, and Integrating Genomics Education in Society

Whitley, Kiara Vaden

10 August 2022

Helper T cells (Th) are a vital component of the immune system responsible for directing other immune cells to eliminate pathogens and cancer. Specifically, Th cells facilitate B cell and cytotoxic T cell (Tc) activation and recruitment and enhance their function against cancer and infectious diseases. Th cells are a valuable resource for improving Tc responses in cancer treatment and have become a focus of immunotherapeutic research. While it is increasingly clear that helper T cells serve an important role, the details about which entities produce an effective Th cell response remain unclear. CD5 is a T cell co-receptor that negatively regulates T cell activation and helps fine-tune the TCR repertoire by altering TCR signaling during the selection process in the thymus. This work discusses the role of the co-receptor CD5 in influencing Th cell metabolism, as well as the study of two T cells called LLO118 and LLO56 that have different CD5 expression levels, and their functional response to altered peptides. Antibodies have revolutionized the world of cancer research and accelerated the development of therapies that trigger the immune system to target disease. In recent years, many antibody-based immunotherapies have emerged as effective candidates for combating cancer due to their refined specificity and ability to target a variety of epitopes. However, many therapies, such as those that target CD19 on B cell cancers, are also present on healthy cells, destroying both cancerous and healthy cells alike. Thymidine kinase 1 (TK1) is an enzyme involved in the DNA salvage pathway that converts thymidine into the nucleotide thymine. Recently, TK1 has been shown to be overexpressed on the surface of many cancers such as acute lymphoblastic leukemia. Importantly, TK1 is not expressed on the surface of healthy cells, making it an ideal cancer-specific antigen that can be targeted for cancer treatment. This work discusses our efforts to characterize TK1-specific single-chain antibodies from a yeast display library. According to the World Health Organization, genomics is defined as the study of all genes and their related functions. In contrast to genetics, genomics analyzes the entire DNA makeup of an organism rather than a single gene. In the past 20 years, the cost of genomic sequencing has decreased dramatically, making it affordable and accessible. A key area that must be addressed with genomic testing involves education about their promise, challenges, potential consequences, and ethical considerations. Genomic testing provides a powerful opportunity to educate everyone on scientific and ethical issues to increase understanding on the subject. This work discusses the influence of personal genomics in society and focuses on the importance, benefits, and consequences of genomics education in the classroom, clinic, and the public.

CD5

co-receptor

helper T cell

metabolism

T cell receptor

proliferation

altered peptide ligand

macrophage

thymidine kinase 1

yeast display

ADCC

genomics

Life Sciences

Regulation of Immune Cell Activation and Functionby the nBMPp2 Protein andthe CD5 Co-Receptor

Freitas, Claudia Mercedes

01 April 2019

According to the centers for disease control and prevention (CDC) and the world healthorganization (WHO), heart disease and immune related diseases such as diabetes and cancer areamong the leading causes of death around the world. Thus, the regulation of the function ofimmune cell plays a key role in health and disease. Calcium (Ca2+) ions play a critical role inimmune cell activation, function and in a robust immune response. Defects in Ca2+ signalinginfluences the development of cardiac disease, Alzheimer disease, immune cell metabolism,muscle dysfunction, and cancer. Each immune cell is unique in its activation and function,making it relevant to understand how activation of each type of immune cell is regulated. Herewe describe the role of the nBMP2 protein in macrophage activation and function and the role ofthe CD5 co-receptor in helper T cell activation and function.The nuclear bone morphogenetic protein 2 (nBMP2) is the nuclear variant of the bonemorphogenetic protein 2 (BMP2), a growth factor important in heart development, neurogenesis,bone, cartilage and muscle development. To better understand the function of nBMP2, transgenicnBMP2 mutant mice were generated. These mice have a slow muscle relaxation and cognitivedeficit caused in part by abnormal Ca2+ mobilization. Mutant nBMP2 mice also have an impairedsecondary immune response to systemic bacterial challenge. Here we have further characterizedmacrophage activation and function from mutant nBMP2 mice before and after bacterialinfection. We describe how nBMP2 influences the Ca2+ mobilization response and phagocytosisin macrophages, revealing a novel role of the nBMP2 protein in immune cell regulation.CD5 is a surface marker on T cells, thymocytes, and the B1 subset of B cells. CD5 isknown to play an important role during thymic development of T cells. CD5 functions as anegative regulator of T cell receptor (TCR) signaling and fine tunes the TCR signaling response.Here we describe our characterization of CD5 regulation of Ca2+ signaling in naïve helper Tcells. We also outline our findings examining how CD5-induced changes in helper T cellactivation influence other biological processes such as immune cell metabolism, the diversity ofthe gut microbiome, and cognitive function and behavior. Thus, this work elucidates theinfluence of the CD5 co-receptor on the functional outcomes in multiple systems when CD5 isaltered.

nBMP2

bone morphogenetic protein

CD5

co-receptor

calcium (Ca2+)

metabolism

behavior

TCR

T cell receptor

microbiome

macrophage

T helper cells

Immunology and Infectious Disease

Life Sciences

Molecular Biology