Enzymes of thymidine and uridine phosphorylation in higher plants /

Deng, Quey-ing F.

January 1973

No description available.

Chemistry

Thymidine Kinase

Nucleosides

Phosphorylation

Biomarker Analysis and Clinical Relevance of Thymidine Kinase 1 in Solid and Hematological Malignancies

Weagel, Evita Giraldez

01 June 2018

Despite the global effort to discover and improve ways to detect, treat, and monitor cancer, it still remains the second leading cause of death in the United States and poses a major health and economic burden worldwide. While traditional treatments like surgery, chemotherapy, radiation therapy, and hormone therapy have been successful and have decreased cancer mortality, cancer incidence in all sites continues to rise. Consequently, there is an immediate need to find new therapeutics for the treatment of cancer. In recent years, and with the continuing push towards personalized medicine, cancer biomarkers have become crucial to detect, treat, and monitor cancer. Thymidine kinase 1 (TK1) has been identified as a cancer biomarker with diagnostic, prognostic, and therapeutic potential. TK1 is a nucleotide salvage pathway enzyme responsible for maintaining a balance in the cell nucleotide pool and providing the cell with thymidine monophosphate, which upon further phosphorylation is incorporated into DNA during cell replication. TK1 has been found to be upregulated in the serum of cancer patients. Serum TK1 (sTK1) has been used as an early diagnostic and prognostic biomarker in many types of cancer and has been shown to be a better proliferation biomarker than Ki67. In this dissertation, we described the characterization of TK1 as a cancer biomarker that associates with the plasma membrane of hematological malignancies such as Burkitt's lymphoma, acute lymphoblastic leukemia, acute promyelocytic leukemia, acute T cell lymphoma, and solid malignancies such as lung, breast, and colon cancer. We also describe the different oligomeric TK1 forms that are found on the cell membrane and show that membrane TK1 has activity. We assess the clinical relevance of TK1 in all these malignancies, looking at tissue expression as well as gene expression from patients from The Cancer Genome Atlas database. We find that TK1 is not expressed on the surface of normal cells, whether they are proliferating or not, making TK1 a unique cancer biomarker, with the potential to be used in targeted therapy. We also find that TK1 expressed on the surface may be involved in the invasion potential of cancer cells. The knowledge gained from this study will help researchers working in clinical research and cancer immunotherapeutics to potentially use TK1 as a biomarker and cancer target, and thus providing another weapon against cancer. In this dissertation, we described the characterization of TK1 as a cancer biomarker that associates with the plasma membrane of hematological malignancies such as Burkitt's lymphoma, acute lymphoblastic leukemia, acute promyelocytic leukemia, acute T cell lymphoma, and solid malignancies such as lung, breast, and colon cancer. We also describe the different oligomeric TK1 forms that are found on the cell membrane and show that membrane TK1 has activity. We assess the clinical relevance of TK1 in all these malignancies, looking at tissue expression as well as gene expression from patients from The Cancer Genome Atlas database. We find that TK1 is not expressed on the surface of normal cells, whether they are proliferating or not, making TK1 a unique cancer biomarker, with the potential to be used in targeted therapy. We also find that TK1 expressed on the surface may be involved in the invasion potential of cancer cells. The knowledge gained from this study will help researchers working in clinical research and cancer immunotherapeutics to potentially use TK1 as a biomarker and cancer target, and thus providing another weapon against cancer.

thymidine kinase 1

TK1

cancer biomarker

Microbiology

Mise au point d'un système de thérapie génique utilisant le gène HSV-TK couplé au promoteur muté de l'alpha-foetoprotéine dans un vecteur adénoviral

Fortier, Pascale.

January 1900

Thèse (M.Sc.)--Université Laval, 2005. / Titre de l'écran-titre (visionné le 13 févr. 2008). Bibliogr.

Expressing the multifunctional nucleoside kinase of Drosophila melanogaster in a mouse model : a strategy to reverse the depletion of mtDNA caused by nucleoside kinase deficiency

Krishnan, Shuba

January 2011

This study was initiated to investigate a possible strategy to alter an enzyme deficiency in a mouse model. The enzyme investigated is a multifunctional nucleoside kinase from Drosophila melanogaster (Dm-dNK). This enzyme has special features in that it has higher enzymatic activity than any other known nucleoside kinases and still has similar substrate specificity as the human nucleoside kinases. The deficiency where the Dm-dNK transgenic mice model will be used is a TK2 deficient model with severe phenotype caused by mitochondrial DNA depletion. The Dm-dNK transgenic mice model will be used as a way to rescue the TK2 deficient mice. The results from the present study show that Dm-dNK expression in mice results in a substantial increase of thymidine phosphorylation in several investigated tissues. The mice were otherwise normal as judged by life span, weight and behavior. The mitochondrial DNA was also detected at normal levels. In conclusion, the Dm-dNK mouse model is promising as a way to rescue the severe phenotype of the TK2 deficient mice.

Dm-dNK

mitochondria

thymidine kinase

phosphorylation

TECHNOLOGY

TEKNIKVETENSKAP

Le virus herpes simplex de type 1 : résistance aux antiviraux et réponse inflammatoire cérébrale

Sergerie, Yan.

January 1900

Thèse (Ph. D.)--Université Laval, 2007. / Titre de l'écran-titre (visionné le 5 mai 2008). Bibliogr.

Évaluation de la neurovirulence et de l'hétérogénéité de souches d'Herpès simplex provenant de sujets immunosuprimés /

Coulombe, Miryan.

January 2001

Thèse (M.Sc.)--Université Laval, 2001. / Bibliogr.: f. 86-96. Publié aussi en version électronique.

Thymidine Kinase 1: Diagnostic and Prognostic Significance in Malignancy

Alegre, Melissa Marie

07 June 2013

Thymidine kinase 1 (TK1) is a cancer biomarker which has diagnostic and prognostic potential in a variety of malignancies. TK1 is significantly elevated in the serum and tumor tissue of most malignancies. This increase in TK1 can be detected in the very early stages of malignancy, including in pre-malignant disease with an increased risk for progression. Several studies have demonstrated that elevated TK1 is found in serum months before any clinical symptoms of malignancy. It has also been demonstrated that TK1 is elevated months before clinical recurrence of malignancy. This work first sought to demonstrate the early nature of TK1 expression in breast tumor tissue and pre-malignant tissue. We found that TK1 is elevated in breast hyperplasia tissue and breast carcinoma tissue. In this study we also identified some cases of ‘normal’ tumor margins (considered normal by current pathological standards) which also had elevated TK1 expression. Conversely, true normal breast tissue from noncancerous individuals had no reported elevation in TK1 expression. This study illustrated that TK1 is elevated in pre-malignant breast hyperplasia tissue, as well as some 'normal' tumor margins. TK1 expression was significantly elevated in lung, prostate, colon, esophagus, stomach, liver, and kidney tissues. This work further investigated TK1 expression in a variety of malignant tissue including the two leading causes of cancer mortality in men: lung and prostate cancer. In our study, TK1 was significantly elevated in lung and prostate cancer but not significantly elevated in prostate hyperplasia tissue. TK1 expression also increased with increasing grade in prostate carcinoma tissue. Overall, this work demonstrated that TK1 is a good universal marker of malignancy and is elevated in early cancer development. Despite the potential for TK1 as both a screening and monitoring treatment tool, there have been significant challenges associated with developing a clinically relevant method of TK1 detection. This work proposes one clinically relevant method of detection, namely a TK1 ELISA. Using preoperable lung cancer patients and normal controls, we developed a sensitive and specific ELISA which shows highly statistically significant differences in serum TK1 levels between stage 1 and stage 2 lung cancer compared with normal controls. In fact, this TK1 ELISA is more sensitive and accurate than the traditional TK radioassay, which was unable to detect differences in TK1 between early stage lung cancer and normal patients. Although elevated TK1 is not lung cancer specific, we reported significantly elevated TK1 levels in lung cancer sputum. Screening of sputum and serum for TK1 may be one method for the early detection of lung cancer. Overall, we report TK1 has promising diagnostic potential in a variety of malignancies. We also propose one sensitive and specific method to detect TK1 levels which may easily be adapted to meet current clinical applications. We hope this work will help propel TK1 forward into clinical view in the coming years.

Thymidine Kinase 1

lung cancer

proliferation marker

ELISA

Microbiology

Evaluation et validation de marqueurs pronostiques et prédictifs dans la prise en charge des patientes présentant un cancer du sein / Evaluation and validation of prognostic and predictive markers of breast cancer

Mazouni, Chafika

02 December 2010

L’identification de marqueurs pronostiques et prédictifs du cancer du sein est un facteur important pour une meilleure compréhension du processus évolutif et le développement de thérapies ciblées. Les récepteurs des oestrogènes (RE) représentent ainsi à la fois un marqueur pronostique mais aussi prédictif du traitement par le tamoxifène ou les anti-aromatases. Cependant, un certain nombre de patientes vont évoluer en dépit de traitements anti-hormonaux adaptés. L’objectif de notre travail, a été d’évaluer la méthode de mesure des RE, l’apport des protéases dans la distinction de profils tumoraux pronostiques et prédictifs. Nous avons démontré l’influence du mode de mesure des RE et en particulier de l’expression quantitative sur l’interprétation pronostique et sur une meilleure détermination du bénéfice du traitement en fonction du niveau d’expression des RE. Nous avons montré l’intérêt de l’évaluation des protéases tissulaires uPA, PAI-I et cathépsine-D, pour caractériser l’hétérogénéité des tumeurs en complément des RE. Particulièrement, chez les patientes RE+, des taux élevés de cathépsine-D et de PAI-1 étaient un indicateur de mauvais pronostic. Nous avons développé un nomogramme combinant RE et le statut ganglionnaire à 3 types de protéases : PAI-1, cathépsine-D et la thymidine kinase, pour déterminer la probabilité de survie à 2 et 5 ans. De plus, ces protéases évaluées dans les tumeurs infectées par l’Epstein-Barr virus (EBV), témoignaient de tumeurs biologiquement agressives avec des taux plus élevés de thymidine kinase. Notre travail a contribué à améliorer l’identification de profils des tumeurs en fonction des RE et des protéases et de caractériser les tumeurs viro-induites. / The identification of prognostic and predictive markers is important for a better understanding of the evolutionary process and the development of targeted therapies. Thus estrogen receptors (ER) represent both an important prognostic marker but also predictive of therapies using tamoxifen or aromatase inhibitors. However, a number of patients will evolve despite hormonotherapy. The objective of our work was to evaluate the method for measuring ER, the contribution of proteases in the distinction of prognostic and predictive tumor profiles. In our work, we demonstrated the influence of the mode of measure of ER and in particular its quantitative expression on the prognostic interpretation and a better determination of benefit of treatment depending on the level of expression of ER. We show the interest of the evaluation of tissue proteases uPA, PAI-I and cathepsin-D, to characterize the heterogeneity of tumors in addition to ER. Specifically, in ER + patients, high levels of cathepsin-D and PAI-1 are an indicator of poor prognosis. We developed a nomogram combining ER and nodal status, to 3 types of proteases: PAI-1, cathepsin-D and thymidine kinase, to determine the probability of survival at 2 and 5 years. In addition, these proteases are evaluated in tumors infected with the Epstein-Barr virus (EBV) and shows high rates of thymidine kinase in EBV + BC, reflecting biologically aggressive tumors. Our work has helped to improve the identification of profiles of tumors according to ER and proteases and characterize virus-associated tumors.

Cancer du sein

Cathépsine-D

Nomogramme

Pai-1

Protéases

Récepteur de l'oestrogène

Thymidine kinase

Breast cancer

Cathepsin-D

Nomogram

Pai-1

Proteases

Estrogen receptor

Thymidine kinase

Possible Role of Osteoblasts in Regulating the Initiation of Endochondral Repair Process during Fracture Healing

Amani Andabili, Yasha

21 March 2012

Fracture repair is a regenerative event that involves the precise coordination of a variety of cells for successful healing process. Within the microstructure hierarchy of bone repair, the predominant cells involved include the chondrocytes, osteocytes, osteoblasts, and osteoclasts. Although the role of osteoblasts during fracture healing has been previously shown, their role during the initiation phase of endochondral fracture repair remains unclear. In order to study the role of osteoblasts during fracture repair, we used a transgenic mouse model expressing the herpes simplex virus thymidine kinase gene in early differentiating osteoblasts, which allows conditional ablation of cells in osteoblastic lineage upon treatment with the Gancicolvir drug. Results from this study suggest that not only are osteoblasts required in later stages of fracture repair as the medium for bone synthesis, and osteoclast activation during bone remodelling, but could also be required for the initiation and advancement of the endochondral ossification process.

Fracture repair

Endochondral Ossification

Osteoblast

Osteoclast

Chondrocyte

Herpes simplex virus thymidine kinase

Gacnciclovir

Possible Role of Osteoblasts in Regulating the Initiation of Endochondral Repair Process during Fracture Healing

Amani Andabili, Yasha

21 March 2012

Fracture repair is a regenerative event that involves the precise coordination of a variety of cells for successful healing process. Within the microstructure hierarchy of bone repair, the predominant cells involved include the chondrocytes, osteocytes, osteoblasts, and osteoclasts. Although the role of osteoblasts during fracture healing has been previously shown, their role during the initiation phase of endochondral fracture repair remains unclear. In order to study the role of osteoblasts during fracture repair, we used a transgenic mouse model expressing the herpes simplex virus thymidine kinase gene in early differentiating osteoblasts, which allows conditional ablation of cells in osteoblastic lineage upon treatment with the Gancicolvir drug. Results from this study suggest that not only are osteoblasts required in later stages of fracture repair as the medium for bone synthesis, and osteoclast activation during bone remodelling, but could also be required for the initiation and advancement of the endochondral ossification process.

Fracture repair

Endochondral Ossification

Osteoblast

Osteoclast

Chondrocyte

Herpes simplex virus thymidine kinase

Gacnciclovir