<sup>3</sup>
            H‐thymidine is a defective tool with which to measure rates of DNA synthesis

Hu, Valerie W.; Black, Gavin E.; Torres-Duarte, A.; Abramson, Fred P.

doi:10.1096/fj.02-0142fje

Cited by 59 publications

(83 citation statements)

References 21 publications

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…Thus, in a recent study beryllium sensitization has been determined by a FACS lymphocyte proliferation test, which gave results comparable to the conventional BeLTT [23]. Recently, a method based on mass spectrometric detection on [ 13 C, 15 N]-labeled thymidine has also been reported for measuring the rate of DNA synthesis [24].…”

Section: Or Radiolabeled [mentioning

confidence: 98%

Diagnostic relevance of the lymphocyte transformation test for sensitization to beryllium and other metals (IUPAC Technical Report)

Klein¹,

Schwenk²,

Heinrich‐Ramm³

et al. 2004

Pure and Applied Chemistry

View full text Add to dashboard Cite

The lymphocyte transformation test (LTT) has been proven useful especially in the diagnosis of drug-induced allergic disorders. It is an in vitro test which is based on the fact that lymphocytes, which have been sensitized by a certain antigen, transform into blasts and proliferate when they are again exposed to this antigen. This proliferation is determined by measurement of the incorporation of [3H ]-thymidine or bromodeoxyuridine into replicating DNA. The test has the advantage over skin tests of avoiding re-exposure of individuals, and it was, therefore, hoped that it may also help to diagnose metal allergies and especially sensitization toward beryllium. However, the LTT measures only the sensitization of lymphocytes, but not the effector reaction, i.e., there may be positive results in exposed individuals even in the absence of clinical symptoms. There are several reports evaluating the LTT toward gold salts (Au), amalgam (Hg), nickel (Ni), beryllium (Be), and several other metals. With metals other than Be, the LTT appears to be of little use. In contrast, the LTT with Be may, indeed, define patients at risk of developing chronic beryllium disease (CBD), which affects mainly the respiratory tract and may even cause death. Beryllium sensitization progresses to CBD at a rate of 7-11 % per year. Since the Be-LTT can detect sensitization in workers who have not yet developed a disease it is an important diagnostic tool to detect individuals at risk. In conclusion, the LTT can detect a cell-mediated immunological response of an individual to metals. However, for most metals its usefulness is questionable, with the exception of Be; a positive Be-LTT can identify not only patients with CBD, but also persons at risk of developing CBD in later years.

show abstract

Section: Or Radiolabeled [mentioning

confidence: 98%

Diagnostic relevance of the lymphocyte transformation test for sensitization to beryllium and other metals (IUPAC Technical Report)

Klein¹,

Schwenk²,

Heinrich‐Ramm³

et al. 2004

Pure and Applied Chemistry

View full text Add to dashboard Cite

show abstract

“…While such methods provide information concerning the capability of these proteins to be phosphorylated during the actual time period of radiolabeling, they do not identify proteins already phosphorylated to significant levels prior to the labeling step. In addition, metabolically incorporating radiolabels, using standard doses and time courses, have previously been shown to induce DNA fragmentation, elevate p53 tumor suppressor protein levels, alter cell/ nuclear morphology, and result in cell cycle arrest or apoptosis (11)(12)(13)(14). Unlike radiolabeling, Western blotting potentially identifies all the phosphorylated proteins in samples (2, 8).…”

mentioning

confidence: 99%

Analysis of Steady-state Protein Phosphorylation in Mitochondria Using a Novel Fluorescent Phosphosensor Dye

Schulenberg¹,

Aggeler

Beechem³

et al. 2003

Journal of Biological Chemistry

221

171

View full text Add to dashboard Cite

The phosphorylation of mitochondrial proteins is pivotal to the regulation of respiratory activity in the cell and to signaling pathways leading to apoptosis, as well as for other vital mitochondrial processes. A number of protein kinases have been identified in mitochondria but the physiological substrates for many of these remain unknown or poorly understood. By necessity, most studies of mitochondrial phosphoproteins to date have been conducted using in vitro incorporation of 32 P. However, proteins that are highly phosphorylated from in situ reactions are not necessarily detected by this approach. In this study, a new small molecule fluorophore has been employed to characterize steady-state levels of mitochondrial phosphoproteins. The dye is capable of sensitive detection of phosphorylated amino acid residues in proteins separated by gel electrophoresis. When the fluorescent dye is combined with a total protein stain in a sequential gel staining procedure, the phosphorylated proteins can be visualized in the same gel as the total proteins. To optimize resolution of the proteins in mitochondria, a previously described sucrose gradient fractionation method was employed prior to gel electrophoresis. Phosphorylated proteins, as defined by the fluorescence of the phosphosensor, were excised from the gels and identified by peptide mass fingerprinting. One novel and prominent phosphoprotein identified in this manner was determined to be the 42-kDa subunit of mitochondrial complex I.A number of protein kinases are known to be localized within mitochondria, including pyruvate dehydrogenase kinase, branched-chain ␣-ketoacid dehydrogenase kinase, cAMP-dependent protein kinase, protein kinase C␦, stress-activated protein kinase, and A-Raf, as well as an unidentified tyrosine kinase (1, 2). Determination of the physiological substrates of many of these kinases has proved to be challenging. Global analysis of mitochondrial phosphoproteins has to date been performed by incubating isolated mitochondria with [␥-2 P]ATP (2-9) or by labeling cells cultured in phosphate-free medium with [32 P]orthophosphate (10). While such methods provide information concerning the capability of these proteins to be phosphorylated during the actual time period of radiolabeling, they do not identify proteins already phosphorylated to significant levels prior to the labeling step. In addition, metabolically incorporating radiolabels, using standard doses and time courses, have previously been shown to induce DNA fragmentation, elevate p53 tumor suppressor protein levels, alter cell/ nuclear morphology, and result in cell cycle arrest or apoptosis (11)(12)(13)(14). Unlike radiolabeling, Western blotting potentially identifies all the phosphorylated proteins in samples (2, 8). However, no broad-spectrum phosphoamino acid-reactive antibodies exist, and although high quality antibodies to phosphotyrosine residues are available, antibodies that specifically recognize phosphoserine and phosphothreonine residues are typically sensitive to amino acid se...

show abstract

“…The authors observed a dose dependent decrease in smooth muscle cell proliferation in vitro with crosslinked coacervated α-elastin, suggesting a potential reduction of intimal hyperplasia in vivo (Ito et al, 1998a). The authors repeated the study using tritiated thymidine to monitor cell proliferation and despite evidence suggesting that tritiated thymidine may result in cell arrest and apoptosis (Hu et al, 2002), the authors reported increased endothelial cell proliferation at a coacervated α-elastin concentration of 0.1 mg/mL (Ito et al, 1998b).…”

Section: Vascular Prostheses Passivationmentioning

confidence: 99%

Vascular Grafting Strategies in Coronary Intervention

2014

View full text Add to dashboard Cite

With the growing need for coronary revascularizations globally, several strategies to restore blood flow to the heart have been explored. Bypassing the atherosclerotic coronary arteries with autologous grafts, synthetic prostheses, and tissue-engineered vascular grafts continue to be evaluated in search of a readily available vascular graft with clinically acceptable outcomes. The development of such a vascular graft including tissue engineering approaches both in situ and in vitro is herein reviewed, facilitating a detailed comparison on the role of seeded cells in vascular graft patency.

show abstract

³ H‐thymidine is a defective tool with which to measure rates of DNA synthesis

Cited by 59 publications

References 21 publications

Diagnostic relevance of the lymphocyte transformation test for sensitization to beryllium and other metals (IUPAC Technical Report)

Diagnostic relevance of the lymphocyte transformation test for sensitization to beryllium and other metals (IUPAC Technical Report)

Analysis of Steady-state Protein Phosphorylation in Mitochondria Using a Novel Fluorescent Phosphosensor Dye

Vascular Grafting Strategies in Coronary Intervention

Contact Info

Product

Resources

About

3 H‐thymidine is a defective tool with which to measure rates of DNA synthesis

Cited by 59 publications

References 21 publications

Diagnostic relevance of the lymphocyte transformation test for sensitization to beryllium and other metals (IUPAC Technical Report)

Diagnostic relevance of the lymphocyte transformation test for sensitization to beryllium and other metals (IUPAC Technical Report)

Analysis of Steady-state Protein Phosphorylation in Mitochondria Using a Novel Fluorescent Phosphosensor Dye

Vascular Grafting Strategies in Coronary Intervention

Contact Info

Product

Resources

About

³ H‐thymidine is a defective tool with which to measure rates of DNA synthesis