Your search keyword '"Elizabeth A. Blackburn"' showing total 403 results

1. Fast acting allosteric phosphofructokinase inhibitors block trypanosome glycolysis and cure acute African trypanosomiasis in mice

Author

Iain W. McNae, James Kinkead, Divya Malik, Li-Hsuan Yen, Martin K. Walker, Chris Swain, Scott P. Webster, Nick Gray, Peter M. Fernandes, Elmarie Myburgh, Elizabeth A. Blackburn, Ryan Ritchie, Carol Austin, Martin A. Wear, Adrian J. Highton, Andrew J. Keats, Antonio Vong, Jacqueline Dornan, Jeremy C. Mottram, Paul A. M. Michels, Simon Pettit, and Malcolm D. Walkinshaw

Subjects

Science

Abstract

Glycolytic enzymes are challenging drug targets due to their highly conserved active sites and phosphorylated substrates. Here, the authors identify fast acting allosteric inhibitors of Trypanosoma brucei phosphofructokinase that block trypanosome glycolysis and provide cure evidence in murine model.

Published

2021

2. Thermo‐kinetic analysis space expansion for cyclophilin‐ligand interactions – identification of a new nonpeptide inhibitor using Biacore™ T200

Author

Martin A. Wear, Matthew W. Nowicki, Elizabeth A. Blackburn, Iain W. McNae, and Malcolm D. Walkinshaw

Subjects

cyclophilin‐A, inhibitor, nonpeptide, surface plasmon resonance, thermodynamics, Biology (General), QH301-705.5

Abstract

We have established a refined methodology for generating surface plasmon resonance sensor surfaces of recombinant his‐tagged human cyclophilin‐A. Our orientation‐specific stabilisation approach captures his‐tagged protein under ‘physiological conditions’ (150 mm NaCl, pH 7.5) and covalently stabilises it on Ni2+‐nitrilotriacetic acid surfaces, very briefly activated for primary amine‐coupling reactions, producing very stable and active surfaces (≥ 95% specific activity) of cyclophilin‐A. Variation in protein concentration with the same contact time allows straightforward generation of variable density surfaces, with essentially no loss of activity, making the protocol easily adaptable for studying numerous interactions; from very small fragments, ~ 100 Da, to large protein ligands. This new method results in an increased stability and activity of the immobilised protein and allowed us to expand the thermo‐kinetic analysis space, and to determine accurate and robust thermodynamic parameters for the cyclophilin‐A–cyclosporin‐A interaction. Furthermore, the increased sensitivity of the surface allowed identification of a new nonpeptide inhibitor of cyclophilin‐A, from a screen of a fragment library. This fragment, 2,3‐diaminopyridine, bound specifically with a mean affinity of 248 ± 60 μm. The X‐ray structure of this 109‐Da fragment bound in the active site of cyclophilin‐A was solved to a resolution of 1.25 Å (PDB: 5LUD), providing new insight into the molecular details for a potential new series of nonpeptide cyclophilin‐A inhibitors.

Published

2017

3. Chemically cross-linked hydrogels from repetitive protein arrays

Author

Rossana Boni, Elizabeth A. Blackburn, Dirk-Jan Kleinjan, Mantas Jonaitis, Flora Hewitt-Harris, Megan Murdoch, Susan Rosser, David C. Hay, and Lynne Regan

Subjects

Structural Biology, tissue engineering, protein rheology, protein engineering, repetitive sequence, hydrogels, SpyTag SpyCatcher, biomaterials

Abstract

Biomaterials for tissue regeneration must mimic the biophysical properties of the native physiological environment. A protein engineering approach allows the generation of protein hydrogels with specific and customised biophysical properties designed to suit a particular physiological environment. Herein, repetitive engineered proteins were successfully designed to form covalent molecular networks with defined physical characteristics able to sustain cell phenotype. Our hydrogel design was made possible by the incorporation of the SpyTag (ST) peptide and multiple repetitive units of the SpyCatcher (SC) protein that spontaneously formed covalent crosslinks upon mixing. Changing the ratios of the protein building blocks (ST:SC), allowed the viscoelastic properties and gelation speeds of the hydrogels to be altered and controlled. The physical properties of the hydrogels could readily be altered further to suit different environments by tuning the key features in the repetitive protein sequence. The resulting hydrogels were designed with a view to allow cell attachment and encapsulation of liver derived cells. Biocompatibility of the hydrogels was assayed using a HepG2 cell line constitutively expressing GFP. The cells remained viable and continued to express GFP whilst attached or encapsulated within the hydrogel. Our results demonstrate how this genetically encoded approach using repetitive proteins could be applied to bridge engineering biology with nanotechnology creating a level of biomaterial customisation previously inaccessible.

Published

2023

4. Data from The Major Reverse Transcriptase–Incompetent Splice Variant of the Human Telomerase Protein Inhibits Telomerase Activity but Protects from Apoptosis

Author

Elizabeth H. Blackburn, Jason L. Lukas, Francesca S. Gazzaniga, Jie Sun, and Imke Listerman

Abstract

Human telomerase reverse transcriptase (hTERT; the catalytic protein subunit of telomerase) is subjected to numerous alternative splicing events, but the regulation and function of these splice variants is obscure. Full-length hTERT includes conserved domains that encode reverse transcriptase activity, RNA binding, and other functions. The major splice variant termed α+β− or β-deletion is highly expressed in stem and cancer cells, where it codes for a truncated protein lacking most of the reverse transcriptase domain but retaining the known RNA-binding motifs. In a breast cancer cell panel, we found that β-deletion was the hTERT transcript that was most highly expressed. Splicing of this transcript was controlled by the splice regulators SRSF11, HNRNPH2, and HNRNPL, and the β-deletion transcript variant was associated with polyribosomes in cells. When ectopically overexpressed, β-deletion protein competed for binding to telomerase RNA (hTR/TERC), thereby inhibiting endogenous telomerase activity. Overexpressed β-deletion protein localized to the nucleus and mitochondria and protected breast cancer cells from cisplatin-induced apoptosis. Our results reveal that a major hTERT splice variant can confer a growth advantage to cancer cells independent of telomere maintenance, suggesting that hTERT makes multiple contributions to cancer pathophysiology. Cancer Res; 73(9); 2817–28. ©2013 AACR.

Published

2023

5. Supplementary Tables 1 - 4 from The Major Reverse Transcriptase–Incompetent Splice Variant of the Human Telomerase Protein Inhibits Telomerase Activity but Protects from Apoptosis

Author

Elizabeth H. Blackburn, Jason L. Lukas, Francesca S. Gazzaniga, Jie Sun, and Imke Listerman

Abstract

PDF file - 516K, T1. Breast cell lines used in this study. T2. Summary of results for 45 breast cancer cell lines and 5 non-malignant cell lines. T3. Correlation of hTERT α/β splice variants, telomerase activity, telomere length and hTR in 50 breast cancer cell lines. T4. Sequences of primers used.

Published

2023

6. Data from Assembly of Mutant-Template Telomerase RNA into Catalytically Active Telomerase Ribonucleoprotein That Can Act on Telomeres Is Required for Apoptosis and Cell Cycle Arrest in Human Cancer Cells

Author

Elizabeth H. Blackburn and Amir Goldkorn

Abstract

The telomerase ribonucleoprotein is a promising target for cancer therapy, as it is highly active in many human malignancies. A novel telomerase targeting approach combines short interfering RNA (siRNA) knockdown of endogenous human telomerase RNA (hTer) with expression of a mutant-template hTer (MT-hTer). Such combination MT-hTer/siRNA constructs induce a rapid DNA damage response, telomere uncapping, and inhibition of cell proliferation in a variety of human cancer cell lines. We tested which functional aspects of the protein catalytic component of telomerase [human telomerase reverse transcriptase (hTERT)] are required for these effects using human LOX melanoma cells overexpressing various hTERTs of known properties. Within 3 days of MT-hTer/siRNA introduction, both growth inhibition and DNA damage responses were significantly higher in the setting of wild-type hTERT versus catalytically dead hTERT or mutant hTERT that is catalytically competent but unable to act on telomeres. These effects were not attenuated by siRNA-induced knockdown of the telomeric protein human Rap1 and were additive with knockdown of the telomere-binding protein TRF2. Hence, the effects of MT-hTer/siRNA require a telomerase that is both catalytically competent to polymerize DNA and able to act on telomeres in cells. (Cancer Res 2006; 66(11): 5763-71)

Published

2023

7. Data from Rapid Inhibition of Cancer Cell Growth Induced by Lentiviral Delivery and Expression of Mutant-Template Telomerase RNA and Anti-telomerase Short-Interfering RNA

Author

Elizabeth H. Blackburn, Gerald R. Cunha, Yun Kit Hom, Inna L. Botchkina, Annemarie A. Donjacour, Jonathan E. Rosenberg, and Shang Li

Abstract

In human cancers, telomeres are commonly maintained by elevated levels of the ribonucleoprotein enzyme telomerase, which contains an intrinsic templating RNA moiety (human telomerase RNA; hTER) and the core protein (human telomerase reverse transcriptase). We developed a lentiviral system for efficient overexpression of mutant-template human telomerase RNA (MT-hTer) to add mutant DNA to telomeres in cancer cells. We show that such MT-hTer overexpression rapidly inhibits cell growth and induces apoptosis in telomerase-positive precancerous or cancer cells but not in telomerase-negative cells. These rapid effects occurred independent of wild-type p53 and telomere length. Tumor growth and progression were significantly decreased in xenografts of human tumor cells overexpressing MT-hTers. Expression of a hairpin short-interfering RNA that specifically targeted the endogenous wild-type hTER template region, but spared the MT-hTers, also caused p53-independent cell growth inhibition and apoptosis, and when coexpressed with MT-hTer, synergistically killed cancer cells. Hence, anti-wild-type-hTER short-interfering RNA and MT-hTers may act through distinct pathways and, particularly in combination, represent a promising approach to anticancer therapies.

Published

2023

8. Supplementary Figures 1 - 9 from The Major Reverse Transcriptase–Incompetent Splice Variant of the Human Telomerase Protein Inhibits Telomerase Activity but Protects from Apoptosis

Author

Elizabeth H. Blackburn, Jason L. Lukas, Francesca S. Gazzaniga, Jie Sun, and Imke Listerman

Abstract

PDF file - 236K, S1. hTERT and SRSF3 splice variant enrichment after cycloheximide treatment. S2. Total SRSF3 and hTERT splice variant mRNA abundance in ribosome-containing fractions. S3. Unaltered microscopy image shown in Figure 3. S4. SRSF11 and hnRNPH2 binding sites in pSpliceExpress-hTERT. S5. hTR 3' end co-immunoprecipitates with FLAG-WT-hTERT, FLAG-D868A-hTERT and FLAG-β-deletion. S6. hTERT detection by Western blot in UM-UC-3 lysates from experiment 5C. S7. hTR RNA expression levels in breast cancer cell lines. S8. Modal telomere length stayed relatively constant after 20 continues passages in randomly selected breast cell lines. S9. Telomerase activity and relative expression of hTERT α+β+ and β-deletion mRNAs in breast cancer cell line subtypes.

Published

2023

9. Supplementary Methods from The Major Reverse Transcriptase–Incompetent Splice Variant of the Human Telomerase Protein Inhibits Telomerase Activity but Protects from Apoptosis

Author

Elizabeth H. Blackburn, Jason L. Lukas, Francesca S. Gazzaniga, Jie Sun, and Imke Listerman

Abstract

PDF file - 56K

Published

2023

10. Supplementary Figures 1-5 from Assembly of Mutant-Template Telomerase RNA into Catalytically Active Telomerase Ribonucleoprotein That Can Act on Telomeres Is Required for Apoptosis and Cell Cycle Arrest in Human Cancer Cells

Author

Elizabeth H. Blackburn and Amir Goldkorn

Abstract

Supplementary Figures 1-5 from Assembly of Mutant-Template Telomerase RNA into Catalytically Active Telomerase Ribonucleoprotein That Can Act on Telomeres Is Required for Apoptosis and Cell Cycle Arrest in Human Cancer Cells

Published

2023

11. Supplementary Figure Legend from The Major Reverse Transcriptase–Incompetent Splice Variant of the Human Telomerase Protein Inhibits Telomerase Activity but Protects from Apoptosis

Author

Elizabeth H. Blackburn, Jason L. Lukas, Francesca S. Gazzaniga, Jie Sun, and Imke Listerman

Abstract

PDF file - 45K

Published

2023

12. Maternal Psychological Resilience During Pregnancy and Newborn Telomere Length: A Prospective Study

Author

Elizabeth H. Blackburn, Eero Kajantie, Marius Lahti-Pulkkinen, Katri Räikkönen, Elissa S. Epel, Sonja Entringer, Jue Lin, Claudia Buss, Pathik D. Wadhwa, and Glenn Verner

Subjects

Maternal Health, Reproductive health and childbirth, Medical and Health Sciences, Cohort Studies, stress, 0302 clinical medicine, Pregnancy, Prospective Studies, Prospective cohort study, Pediatric, Psychiatry, Family Characteristics, telomere, Obstetrics, Telomere, Resilience, Psychological, Fetal Blood, 3. Good health, Psychiatry and Mental health, Mental Health, psychological resilience, Female, pregnancy, Adult, medicine.medical_specialty, positive psychology, Context (language use), Real-Time Polymerase Chain Reaction, Article, 03 medical and health sciences, Maternal stress, Social support, Behavioral and Social Science, medicine, Humans, Family, Resilience, business.industry, Contraception/Reproduction, Psychology and Cognitive Sciences, Infant, Newborn, Infant, Telomere Homeostasis, social support, Newborn, medicine.disease, 030227 psychiatry, Pregnancy Complications, Good Health and Well Being, fetal programming, Psychological, business, 030217 neurology & neurosurgery

Abstract

Objective: In the context of the importance of elucidating the determinants of the initial, newborn setting of telomere length (TL), it is increasingly evident that maternal stress and stress-related processes during pregnancy play a major role. Although psychological resilience may function as a buffer, research in this area has not yet examined its potential role vis-à-vis that of stress. The authors examined the relationship between maternal psychological resilience during pregnancy and newborn TL. Methods: In a sample of 656 mother-child dyads from the Prediction and Prevention of Preeclampsia and Intrauterine Growth Restriction cohort, multiple serial assessments were conducted over the course of pregnancy to quantify maternal stress, negative and positive emotional responses to pregnancy events, positive affect, and perceived social support. Principal component analysis identified two latent factors: stress and positivity. A measure of resilience was computed by regressing the positivity factor on the stress factor, in order to quantify positivity after accounting for stress. TL was measured using quantitative polymerase chain reaction in leukocytes extracted from cord blood shortly after birth. Linear regression was used to predict newborn TL from maternal resilience during pregnancy, adjusting for other potential determinants. Results: Maternal stress significantly predicted shorter newborn TL (β=−0.079), and positivity significantly predicted longer TL (β=0.135). Maternal resilience (positivity accounting for stress) was significantly and positively associated with newborn TL (β=0.114, 95% CI=0.035, 0.189), with each standard deviation increase in resilience predicting 12% longer newborn TL. Conclusions: The results indicate that maternal psychological resilience may exert a salubrious effect on offspring telomere biology and highlight the importance of enhancing maternal mental health and well-being during pregnancy.

Published

2021

13. Systematic and Cell Type-Specific Telomere Length Changes in Subsets of Lymphocytes

Author

Jue Lin, Joshua Cheon, Rashida Brown, Michael Coccia, Eli Puterman, Kirstin Aschbacher, Elizabeth Sinclair, Elissa Epel, and Elizabeth H. Blackburn

Subjects

Immunologic diseases. Allergy, RC581-607

Abstract

Telomeres, the protective DNA-protein complexes at the ends of linear chromosomes, are important for genome stability. Leukocyte or peripheral blood mononuclear cell (PBMC) telomere length is a potential biomarker for human aging that integrates genetic, environmental, and lifestyle factors and is associated with mortality and risks for major diseases. However, only a limited number of studies have examined longitudinal changes of telomere length and few have reported data on sorted circulating immune cells. We examined the average telomere length (TL) in CD4+, CD8+CD28+, and CD8+CD28− T cells, B cells, and PBMCs, cross-sectionally and longitudinally, in a cohort of premenopausal women. We report that TL changes over 18 months were correlated among these three T cell types within the same participant. Additionally, PBMC TL change was also correlated with those of all three T cell types, and B cells. The rate of shortening for B cells was significantly greater than for the three T cell types. CD8+CD28− cells, despite having the shortest TL, showed significantly more rapid attrition when compared to CD8+CD28+ T cells. These results suggest systematically coordinated, yet cell type-specific responses to factors and pathways contribute to telomere length regulation.

Published

2016

14. Molecular Basis for CPC-Sgo1 Interaction: Implications for Centromere Localisation and Function of the CPC

Author

A. Arockia Jeyaprakash, Juan Zou, Michael A. Hadders, Elizabeth A. Blackburn, A. Meppelink, J. P. Wopken, Susanne M.A. Lens, David A. Kelly, Juri Rappsilber, L. Buzuk, Maria Alba Abad, Tanmay Gupta, and Toni McHugh

Subjects

biology, Kinetochore, Chemistry, INCENP, technology, industry, and agriculture, Aurora B kinase, macromolecular substances, Cell biology, Histone H3, Histone, Histone H2A, Centromere, biology.protein, Nucleosome

Abstract

The Chromosomal Passenger Complex (CPC; consisting of Borealin, Survivin, INCENP and Aurora B kinase) and Shugoshin 1 (Sgo1) are key regulators of chromosome bi-orientation, a process essential for error-free chromosome segregation. Their functions rely on their ability to associate with centromeres. Two histone phosphorylations, histone H3 Thr3 (H3T3ph; directly recognised by Survivin) and histone H2A Thr120 (H2AT120ph; indirectly recognised via Sgo1), together with CPC’s intrinsic ability to bind nucleosome, facilitate CPC centromere recruitment. The molecular basis for CPC-Sgo1 binding and how their direct interaction influences CPC centromere localisation and function are lacking. Here, using an integrative structure-function approach, we show that the histone H3-like Sgo1 N-terminal tail interacts with Survivin acting as a hot-spot for CPC-Sgo1 assembly, while downstream Sgo1 residues, mainly with Borealin contributes for high affinity interaction. Disruption of the Sgo1 N-terminal tail-Survivin interaction abolished CPC-Sgo1 assembly in vitro and perturbed centromere localisation and function of CPC. Our findings provide evidence that CPC binding to Sgo1 and histone H3 N-terminal tail are mutually exclusive, suggesting that these interactions will likely take place in a spatially/temporally restricted manner and provide a rationale for the Sgo1-mediated ‘kinetochore proximal centromere’ pool of CPC.

Published

2021

15. Activity of lymphostatin, a lymphocyte inhibitory virulence factor of pathogenic Escherichia coli, is dependent on a cysteine protease motif

Author

Elizabeth A. Blackburn, Robin L. Cassady-Cain, Cosmin Chintoan-Uta, Andrew G. Bease, Shaun Webb, and Mark P. Stevens

Subjects

Models, Molecular, Proteases, SEC, size-exclusion chromatography, EHEC, enterohaemorrhagic E. coli, Protein Conformation, T-Lymphocytes, Amino Acid Motifs, Bacterial Toxins, Mutant, ConA, concanavalin A, medicine.disease_cause, Virulence factor, Cell Line, CPD, cysteine protease domain, Mice, IMAC, ion metal affinity chromatography, SAXS, small angle X-ray scattering, chemistry.chemical_compound, Protein Domains, Structural Biology, Glycosyltransferase, Escherichia coli, EPEC, enteropathogenic E. coli, medicine, Animals, endosome acidification, LCT, large clostridial toxin, LifA, lymphocyte inhibitory factor A, CD, circular dichroism, Molecular Biology, endopeptidase, ComputingMethodologies_COMPUTERGRAPHICS, Uridine Diphosphate N-Acetylglucosamine, biology, protein toxin, Escherichia coli Proteins, protein processing, Cysteine protease, Efa1, EHEC factor for adherence 1, Uridine diphosphate, Amino Acid Substitution, Biochemistry, chemistry, LifA, biology.protein, Research Article, Cysteine

Abstract

Graphical abstract, Highlights • LifA shares a cysteine protease motif with bacterial toxins and secreted effectors. • C1480A substituted LifA has reduced inhibitory activity against T cells. • LifA is cleaved in T cells and this requires C1480 and endosome acidification., Lymphostatin (LifA) is a 366 kDa protein expressed by attaching & effacing Escherichia coli. It plays an important role in intestinal colonisation and inhibits the mitogen- and antigen-stimulated proliferation of lymphocytes and the synthesis of proinflammatory cytokines. LifA exhibits N-terminal homology with the glycosyltransferase domain of large clostridial toxins (LCTs). A DTD motif within this region is required for lymphostatin activity and binding of the sugar donor uridine diphosphate N-acetylglucosamine. As with LCTs, LifA also contains a cysteine protease motif (C1480, H1581, D1596) that is widely conserved within the YopT-like superfamily of cysteine proteases. By analogy with LCTs, we hypothesised that the CHD motif may be required for intracellular processing of the protein to release the catalytic N-terminal domain after uptake and low pH-stimulated membrane insertion of LifA within endosomes. Here, we created and validated a C1480A substitution mutant in LifA from enteropathogenic E. coli strain E2348/69. The purified protein was structurally near-identical to the wild-type protein. In bovine T lymphocytes treated with wild-type LifA, a putative cleavage product of approximately 140 kDa was detected. Appearance of the putative cleavage product was inhibited in a concentration-dependent manner by bafilomycin A1 and chloroquine, which inhibit endosome acidification. The cleavage product was not observed in cells treated with the C1480A mutant of LifA. Lymphocyte inhibitory activity of the purified C1480A protein was significantly impaired. The data indicate that an intact cysteine protease motif is required for cleavage of lymphostatin and its activity against T cells.

Published

2021

16. Christmas and Carol

Author

Hamilton O. Smith and Elizabeth H. Blackburn

Published

2021

17. Fast acting allosteric phosphofructokinase inhibitors block trypanosome glycolysis and cure acute African trypanosomiasis in mice

Author

James Kinkead, Ryan Ritchie, Paul A.M. Michels, Simon N. Pettit, Adrian J. Highton, Jeremy C. Mottram, Elizabeth A. Blackburn, Carol Austin, Martin Walker, Martin A. Wear, Antonio K. Vong, Malcolm D. Walkinshaw, Andrew John Keats, Scott P. Webster, Divya Malik, Nick Gray, Chris Swain, Li-Hsuan Yen, Iain W. McNae, Peter M Fernandes, Jacqueline Dornan, and Elmarie Myburgh

Subjects

0301 basic medicine, Trypanosoma, Science, 030106 microbiology, Allosteric regulation, General Physics and Astronomy, Kaplan-Meier Estimate, Trypanosoma brucei, General Biochemistry, Genetics and Molecular Biology, Article, 03 medical and health sciences, Inhibitory Concentration 50, Mice, Structure-Activity Relationship, Allosteric Regulation, parasitic diseases, medicine, Animals, Humans, African trypanosomiasis, Glycolysis, Parasites, Protein Kinase Inhibitors, Multidisciplinary, biology, Tsetse fly, General Chemistry, Hep G2 Cells, medicine.disease, biology.organism_classification, 030104 developmental biology, Trypanosomiasis, African, Biochemistry, Phosphofructokinases, Acute Disease, Enzyme mechanisms, Phosphorylation, Parasitology, Structure-based drug design, Protein Multimerization, Pathogens, Trypanosomiasis, Phosphofructokinase, Protein Binding

Abstract

The parasitic protist Trypanosoma brucei is the causative agent of Human African Trypanosomiasis, also known as sleeping sickness. The parasite enters the blood via the bite of the tsetse fly where it is wholly reliant on glycolysis for the production of ATP. Glycolytic enzymes have been regarded as challenging drug targets because of their highly conserved active sites and phosphorylated substrates. We describe the development of novel small molecule allosteric inhibitors of trypanosome phosphofructokinase (PFK) that block the glycolytic pathway resulting in very fast parasite kill times with no inhibition of human PFKs. The compounds cross the blood brain barrier and single day oral dosing cures parasitaemia in a stage 1 animal model of human African trypanosomiasis. This study demonstrates that it is possible to target glycolysis and additionally shows how differences in allosteric mechanisms may allow the development of species-specific inhibitors to tackle a range of proliferative or infectious diseases., Glycolytic enzymes are challenging drug targets due to their highly conserved active sites and phosphorylated substrates. Here, the authors identify fast acting allosteric inhibitors of Trypanosoma brucei phosphofructokinase that block trypanosome glycolysis and provide cure evidence in murine model.

Published

2021

18. Wash‐free, peptide‐based fluorogenic probes for microbial imaging

Author

Elizabeth A. Blackburn, Muhammed Ucuncu, Annamaria Lilienkampf, Mark Bradley, and Assel Baibek

Subjects

Biomaterials, chemistry.chemical_classification, Optical imaging, Biochemistry, chemistry, biology, Organic Chemistry, Biophysics, Peptide, biology.organism_classification, Bacteria

Abstract

Peptides with pan‐antimicrobial affinity were synthesized and decorated with environmentally sensitive fluorophores nitrobenzoxadiazole (green) and merocyanine (red). The labeling efficacies against a range of clinically relevant fungal and Gram‐negative and positive bacterial species (Candida albicans, Escherichia coli, and Staphylococcus aureus) were explored. The fluorogenic probes containing exclusively l or d‐amino acids showed rapid and efficient labeling of all microbial species, whereas probes with a mixture of l or d‐amino acids failed to label fungi or bacteria, highlighting the importance of the α‐helical peptide structure for interaction with the microbial cell membrane. Importantly, the nature of the dye allowed fluorescence detection/labeling without the need for a wash step, paving the way for direct application of the probes.

Published

2020

19. Abstract 02: Brain Regions Activation During Stress and Accelerated Biological Aging

Author

Jinying Zhao, Jue Lin, Viola Vaccarino, Kasra Moazzami, Matt Wittbrodt, Yan V. Sun, Arshed A. Quyyumi, J. Douglas Bremner, Bruno B Lima, Amit J. Shah, Elizabeth H. Blackburn, Zakaria Almuwaqqat, and Jonathan A. Nye

Subjects

medicine.medical_specialty, business.industry, 030204 cardiovascular system & hematology, medicine.disease, medicine.disease_cause, behavioral disciplines and activities, Telomere, Coronary artery disease, 03 medical and health sciences, 0302 clinical medicine, nervous system, Physiology (medical), Internal medicine, medicine, Cardiology, Psychological stress, 030212 general & internal medicine, Risk factor, Cardiology and Cardiovascular Medicine, business

Abstract

Background: Psychological stress is a risk factor for major adverse cardiovascular events in individuals with coronary artery disease (CAD). Accelerated biological aging, as indicated by telomere shortening, is a recognized pathway by which stress may lead to cardiovascular disease incidence and mortality. We sought to investigate brain correlates of acute psychological stress and short telomeres in men and women with CAD. Methods: Individuals with CAD (N = 170) underwent a validated mental stress protocol including public speaking and mental arithmetic. Imaging of the brain with [O-15] water positron emission tomography (PET) was performed during mental stress and control conditions. Telomere length in peripheral leucocytes was measured by quantitative PCR and expressed as T/S-units. Voxel-wise regression models were constructed to assess the association between brain areas and activity during rest and mental stress after adjustments for demographic factors and clinical characteristics. Methods: The mean (SD) age was 62 (8) years, and 69% were men. The median telomere length was 0.84 T/S-units. Increased activation with mental stress in the lingual gyrus, cerebellum and superior and inferior gyrus in the frontal lobe were associated with reduced telomere length; 1.6 higher voxel activation of the inferior frontal gyrus was associated with 0.1 T/S-units reduction in telomere length (P < 0.005). Additionally, higher resting activities of the precentral, middle and superior frontal gyri and middle temporal gyri were associated with short telomeres. Results remained consistent after adjustment for demographic and clinical risk factors. Conclusion: Increased resting brain activity and reactivity to mental stress within the frontal lobe is associated with short telomeres. These frontal areas may regulate biological aging at rest and in connection with stress, which may contribute to cardiovascular vulnerability.

Published

2020

20. The C-terminal helix of BubR1 is essential for CENP-E-dependent chromosome alignment

Author

Elizabeth A. Blackburn, Agata Gluszek-Kustusz, Julie P.I. Welburn, Juri Rappsilber, Christos Spanos, Ulrike Gruneberg, and Daniel Hayward

Subjects

Cell division, Chromosomal Proteins, Non-Histone, Mitosis, Cell Cycle Proteins, Microtubule, Spindle Apparatus, macromolecular substances, Protein Serine-Threonine Kinases, Biology, Microtubules, 03 medical and health sciences, 0302 clinical medicine, Chromosome Segregation, Animals, Humans, Kinetochores, 030304 developmental biology, mitosis, 0303 health sciences, Kinetochore, Chromosome, Cell Biology, motor, kinetochore, Cell biology, Spindle checkpoint, Motor, Terminal (electronics), Helix, CENP-E, 030217 neurology & neurosurgery, Function (biology), microtubule, HeLa Cells, Research Article

Abstract

During cell division, misaligned chromosomes are captured and aligned by motors before their segregation. The CENP-E motor is recruited to polar unattached kinetochores to facilitate chromosome alignment. The spindle checkpoint protein BubR1 (also known as BUB1B) has been reported as a CENP-E interacting partner, but the extent to which BubR1 contributes to CENP-E localization at kinetochores has remained controversial. Here we define the molecular determinants that specify the interaction between BubR1 and CENP-E. The basic C-terminal helix of BubR1 is necessary but not sufficient for CENP-E interaction, and a minimal key acidic patch on the kinetochore-targeting domain of CENP-E is also essential. We then demonstrate that BubR1 is required for the recruitment of CENP-E to kinetochores to facilitate chromosome alignment. This BubR1–CENP-E axis is critical for alignment of chromosomes that have failed to congress through other pathways and recapitulates the major known function of CENP-E. Overall, our studies define the molecular basis and the function for CENP-E recruitment to BubR1 at kinetochores during mammalian mitosis. This article has an associated First Person interview with the first author of the paper., Highlighted Article: An acidic patch in the kinetochore-targeting domain of CENP-E is required for association with the C terminus of BubR1 at kinetochores to facilitate chromosome alignment during mitosis.

Published

2020

21. In vitro proinflammatory gene expression predicts in vivo telomere shortening: A preliminary study

Author

Jeffrey M. Milush, Stephanie X. Wang, Eli Puterman, Jue Lin, Michael Coccia, Rita B. Effros, Chris A. R. Baker, Elissa S. Epel, Aric A. Prather, Elizabeth H. Blackburn, and Jie Sun

Subjects

Adult, Senescence, Chemokine, Endocrinology, Diabetes and Metabolism, Primary Cell Culture, Inflammation, Lymphocyte Activation, Peripheral blood mononuclear cell, Proinflammatory cytokine, 03 medical and health sciences, 0302 clinical medicine, Endocrinology, Gene expression, medicine, Humans, Chronic stress, Cellular Senescence, Telomere Shortening, Biological Psychiatry, biology, Endocrine and Autonomic Systems, business.industry, Immunity, NF-kappa B, Middle Aged, Telomere, Psychiatry and Mental health, Caregivers, Cyclooxygenase 2, Immunology, Leukocytes, Mononuclear, biology.protein, Cytokines, Th17 Cells, Female, medicine.symptom, Transcriptome, business, Biomarkers, Stress, Psychological, 030217 neurology & neurosurgery, Preliminary Data, Signal Transduction, 030215 immunology

Abstract

The chronic psychological stress of caregiving leads to higher risks for many diseases. One of the mechanisms through which caregiving is associated with disease risk is chronic inflammation. Chronic inflammation may accelerate cellular aging via telomere dysfunction and cell senescence, although this has not been examined in human cells from healthy people. We examined peripheral blood mononuclear cells (PBMCs) from 20 healthy mothers of children with autism (caregivers) and 19 mothers of neurotypical children (controls) in an in vitro culture system where PBMCs were stimulated with phytohaemagglutinin (PHA). We measured RNA expression levels of a panel of immune function genes before and after PHA stimulation, as well as telomere length from PBMCs collected from the participants at baseline and 15 months later. Caregivers and controls had similar gene expression profiles in unstimulated PBMCs, but after PHA stimulation, caregivers had increased RNA levels of the master inflammatory regulator NF-κB and its proinflammatory cytokine targets IL-1β, IL-6 and its receptor IL-6R as well as inflammatory chemokines IL-8, CXCL1 and CXCL2. Gene expression analysis suggested caregivers have increased Treg and Th17 T cell differentiation. Additionally, key signaling molecules involved in the upregulation of COX-2, a critical enzyme in the synthesis of the inflammatory mediator prostaglandin, were elevated. When both groups were examined together, higher expression levels of proinflammatory genes were associated with shorter telomere length in PBMCs from blood drawn 15 months later, independent of baseline telomere length. Taken together, these results suggest that chronic stress is associated with an exaggerated inflammatory response in PBMCs, which in turn is associated with shorter telomere length measured from PBMCs collected 15 months later. To our knowledge, this is the first human study that shows increased proinflammatory expression predicts future telomere shortening.

Published

2018

22. Shorter Leukocyte Telomere Length in Midlife Women with Poor Sleep Quality

Author

Aric A. Prather, Eli Puterman, Jue Lin, Aoife O'Donovan, Jeffrey Krauss, A. Janet Tomiyama, Elissa S. Epel, and Elizabeth H. Blackburn

Subjects

Geriatrics, RC952-954.6

Abstract

Background. Accumulating evidence supports leukocyte telomere length (LTL) as a biological marker of cellular aging. Poor sleep is a risk factor for age-related disease; however, the extent to which sleep accounts for variation in LTL is unknown. Methods. The present study examined associations of self-reported sleep duration, onset latency, and subjective quality with LTL in a community-dwelling sample of 245 healthy women in midlife (aged 49–66 years). Results. While sleep duration and onset latency were unrelated to LTL, women reporting poorer sleep quality displayed shorter LTL (r=0.14, P=0.03), independent of age, BMI, race, and income (b=55.48, SE=27.43, P=0.04). When analyses were restricted to participants for whom sleep patterns were chronic, poorer sleep quality predicted shorter LTL independent of covariates and perceived psychological stress. Conclusions. This study provides the first evidence that poor sleep quality explains significant variation in LTL, a marker of cellular aging.

Published

2011

23. Shorter preschool, leukocyte telomere length is associated with obesity at age 9 in Latino children

Author

Elissa S. Epel, Vibeke Brix Christensen, J. Lin, Janet M. Wojcicki, Elizabeth H. Blackburn, Kala M. Mehta, Thora Wesenberg Kjaer, and Daniel Faurholt-Jepsen

Subjects

0301 basic medicine, business.industry, Endocrinology, Diabetes and Metabolism, Dietary intake, Physiology, 030209 endocrinology & metabolism, Odds ratio, medicine.disease, Obesity, Childhood obesity, Confidence interval, Telomere, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Latino Population, medicine, Biomarker (medicine), business

Abstract

The aim of this study was to determine the potential role of leukocyte telomere length as a biomarker for development of childhood obesity in a low-income Latino population. A birth cohort of Latino children (N = 201) in San Francisco (recruited May 2006-May 2007) was followed until age 9 and assessed annually for obesity and dietary intake. Leukocyte telomere length was measured at 4 and 5 years (n = 102) and assessed as a predictor for obesity at age 9, adjusting for known risk factors. Furthermore, leukocyte telomere length at age 4 and 5 was evaluated as a possible mediator of the relationship between excessive sugar-sweetened beverage consumption and obesity at age 9. Shorter leukocyte telomere length in preschoolers was associated with obesity at age 9 (adjusted odds ratio 0.35, 95% confidence interval 0.13-0.94) after adjustment for known risk factors. Telomere length mediated 11% of the relationship between excessive sugar-sweetened beverage consumption and obesity. Shorter leukocyte telomere length may be an indicator of future obesity risk in high-risk populations as it is particularly sensitive to damage from oxidative stress exposure, including those from sugar-sweetened beverages.

Published

2017

24. Telomere length is inversely correlated with urinary stress hormone levels in healthy controls but not in un-medicated depressed individuals-preliminary findings

Author

Brenda W.J.H. Penninx, Victor I. Reus, Synthia H. Mellon, Rebecca Rosser, Heather M. Burke, Elizabeth H. Blackburn, Owen M. Wolkowitz, Christina M. Hough, Brittany Fair, Laura Mahan, Elissa S. Epel, Jue Lin, Josine E. Verhoeven, Dóra Révész, APH - Mental Health, Epidemiology and Data Science, Psychiatry, Amsterdam Neuroscience - Mood, Anxiety, Psychosis, Stress & Sleep, and APH - Digital Health

Subjects

Male, 0301 basic medicine, Aging, Hydrocortisone, Cellular aging, Pilot Projects, Medical and Health Sciences, Cortisol, Catecholamines, 0302 clinical medicine, 2.1 Biological and endogenous factors, Chronic stress, Aetiology, Cellular Senescence, Psychiatry, Depression, Stress hormones, Middle Aged, Telomere, Stress hormone, Healthy Volunteers, Psychiatry and Mental health, Clinical Psychology, Mental Health, Major depressive disorder, Biomarker (medicine), Female, Psychology, medicine.drug, Adult, medicine.medical_specialty, Urinary system, Article, 03 medical and health sciences, Clinical Research, Internal medicine, Behavioral and Social Science, medicine, Humans, Aged, Telomere length, Psychology and Cognitive Sciences, Neurosciences, medicine.disease, Brain Disorders, 030104 developmental biology, Endocrinology, Catecholamine, 030217 neurology & neurosurgery, Hormone

Abstract

Objective Leukocyte telomere length (LTL) is a biomarker of cellular aging affected by chronic stress. The relationship of LTL to the stress hormones, cortisol and catecholamines, is unclear, as are possible differences between healthy controls (HC) and individuals with Major Depressive Disorder (MDD). This small pilot study is the first to examine the relationship between cortisol, catecholamines and LTL specifically in un-medicated MDD in comparison with HC. Methods Participants included 16 un-medicated MDD subjects and 15 HC for assay of LTL, 12-hour overnight urinary free cortisol and catecholamine levels. Results LTL, cortisol and catecholamine levels did not significantly differ between groups. In HC, a hierarchical regression analysis indicated that higher levels of cortisol were correlated with shorter LTL ( p = 0.003) above and beyond age and sex. Higher catecholamine levels were nearly-significant with shorter LTL ( p = 0.055). Neither hormone was correlated with shorter LTL in MDD ( p's > 0.28). To assess a possible cumulative effect of stress hormone activation, a summary score was calculated for each subject based on the number of stress hormone levels above the median for that group (HC or MDD). A significant inverse graded relationship was observed between LTL and the number of activated systems in HC ( p = 0.001), but not in MDD ( p = 0.96). Conclusion This pilot study provides preliminary evidence that stress hormone levels, especially cortisol, are inversely related to LTL in HC, but not in un-medicated MDD. Clarification of these relationships in larger samples could aid in understanding differential mechanisms underlying stress-related cellular aging in healthy and depressed populations.

Published

2017

25. A New Role for Telomerase in Promoting Meiotic Homolog Pairing Fidelity

Author

Wallace F. Marshall, Tatiana Gromova, Carol M. Anderson, Jennifer C. Fung, Ashwini Oke, Sean M. Burgess, Andreas Hochwagen, Fernanda Gonzalez, Michael Pollard, Caitlin I. Stoddard, Dana L. Smith, Kaylynn Conant, Tangna Zhuge, Daniel B. Chu, Neem J. Patel, Elizabeth H. Blackburn, and Phoebe Yam

Subjects

0303 health sciences, Telomerase, biology, Saccharomyces cerevisiae, Synapsis, biology.organism_classification, Cell biology, Telomere, 03 medical and health sciences, 0302 clinical medicine, Meiosis, Pairing, Homologous chromosome, Cytoskeleton, 030217 neurology & neurosurgery, 030304 developmental biology

Abstract

Cytoskeletal forces acting upon telomeres promote active chromosome motion needed to pair homologous chromosomes during meiosis. The necessary components that allow this force to be applied to telomeres is still unclear, as are the roles of this motion and whether motion is needed primarily for increasing collisions of homologous regions, testing homolog pairing fidelity, or some other role. Here, we show a novel role for telomerase, previously known to be responsible for telomeric end replication, in anchoring telomeres to the nuclear envelope (NE) to provide proper transmission of cytoskeletal forces during meiosis. Reduction in telomerase function inSaccharomyces cerevisiaeresults in a dramatic decrease in the frequency of high velocity “pulls” resulting in earlier homolog synapsis and increased recombination. These observations are consistent with a model in which telomeric cytoskeletal engagement ensures homolog pairing fidelity by pulling apart improperly associated regions whereas general chromosomal motion aids in increasing homologous contacts.

Published

2019

26. Decreased Telomerase Activity Is Associated with Reduced Diffusing Capacity (DLCO) in a Cohort of Persons Living with HIV

Author

P.F. Huang, S. Chang-Huang, D.L. Smith, Carly K Farr, J. Cheon, Laurence Huang, J.J. Vasquez, Jue Lin, J. Kashima, C. Lin, Eula Lewis, A. Jan, Elizabeth H. Blackburn, Peter W. Hunt, H. Wu, Julia Moore, and Kristina Crothers

Subjects

Oncology, medicine.medical_specialty, DLCO, business.industry, Internal medicine, Diffusing capacity, Cohort, medicine, Human immunodeficiency virus (HIV), Decreased telomerase activity, medicine.disease_cause, business

Published

2019

27. Impact of biological aging on arterial aging in American Indians: findings from the Strong Heart Family Study

Author

Jinying Zhao, Mary J. Roman, Jue Lin, Lyle G. Best, Fawn Yeh, Yun Zhu, Shelley A. Cole, Richard B. Devereux, Hao Peng, Barbara V. Howard, Elizabeth H. Blackburn, and Elisa T. Lee

Subjects

Blood Glucose, Male, 0301 basic medicine, Aging, Blood Pressure, Disease, 030204 cardiovascular system & hematology, Body Mass Index, 0302 clinical medicine, Risk Factors, Leukocytes, Generalized estimating equation, Aged, 80 and over, Smoking, Strong Heart Family Study, Age Factors, Models, Cardiovascular, Middle Aged, Lipids, arterial stiffness, biological aging, Cardiology, Female, Adult, medicine.medical_specialty, Adolescent, Alcohol Drinking, Renal function, leukocyte telomere length, Fasting glucose, Young Adult, 03 medical and health sciences, Sex Factors, Vascular Stiffness, Internal medicine, Diabetes mellitus, medicine, Humans, Exercise, Life Style, Aged, arterial aging, business.industry, American Indians, Telomere Homeostasis, Cell Biology, medicine.disease, Surgery, Cross-Sectional Studies, 030104 developmental biology, Blood pressure, Indians, North American, Arterial stiffness, business, Biomarkers, Priority Research Paper, Kidney disease

Abstract

Telomere length, a marker of biological aging, has been associated with cardiovascular disease (CVD). Increased arterial stiffness, an indicator of arterial aging, predicts adverse CVD outcomes. However, the relationship between telomere length and arterial stiffness is less well studied. Here we examined the cross-sectional association between leukocyte telomere length (LTL) and arterial stiffness in 2,165 American Indians in the Strong Heart Family Study (SHFS). LTL was measured by qPCR. Arterial stiffness was assessed by stiffness index β. The association between LTL and arterial stiffness was assessed by generalized estimating equation model, adjusting for sociodemographics (age, sex, education level), study site, metabolic factors (fasting glucose, lipids, systolic blood pressure, and kidney function), lifestyle (BMI, smoking, drinking, and physical activity), and prevalent CVD. Results showed that longer LTL was significantly associated with a decreased arterial stiffness (β=-0.070, P=0.007). This association did not attenuate after further adjustment for hsCRP (β=-0.071, P=0.005) or excluding participants with overt CVD (β=-0.068, P=0.012), diabetes (β=-0.070, P=0.005), or chronic kidney disease (β=-0.090, P=0.001). In summary, shorter LTL was significantly associated with an increased arterial stiffness, independent of known risk factors. This finding may shed light on the potential role of biological aging in arterial aging in American Indians.

Published

2016

28. Early Loss of Telomerase Action in Yeast Creates a Dependence on the DNA Damage Response Adaptor Proteins

Author

Kyle A. Jay, Elizabeth H. Blackburn, and Dana L. Smith

Subjects

0301 basic medicine, Genome instability, Senescence, Telomerase, Saccharomyces cerevisiae Proteins, DNA damage, DNA repair, Articles, Cell Cycle Checkpoints, Saccharomyces cerevisiae, Cell Biology, Telomere, Biology, Cell cycle, Molecular biology, Genomic Instability, 03 medical and health sciences, 030104 developmental biology, Spotlight, Molecular Biology, Cell aging, Telomere Shortening, DNA Damage

Abstract

Telomeres cap the ends of chromosomes, protecting them from degradation and inappropriate DNA repair processes that can lead to genomic instability. A short telomere elicits increased telomerase action on itself that replenishes telomere length, thereby stabilizing the telomere. In the prolonged absence of telomerase activity in dividing cells, telomeres eventually become critically short, inducing a permanent cell cycle arrest (senescence). We recently showed that even early after telomerase inactivation (ETI), yeast cells have accelerated mother cell aging and mildly perturbed cell cycles. Here, we show that the complete disruption of DNA damage response (DDR) adaptor proteins in ETI cells causes severe growth defects. This synthetic-lethality phenotype was as pronounced as that caused by extensive DNA damage in wild-type cells but showed genetic dependencies distinct from such damage and was completely alleviated by SML1 deletion, which increases deoxynucleoside triphosphate (dNTP) pools. Our results indicated that these deleterious effects in ETI cells cannot be accounted for solely by the slow erosion of telomeres due to incomplete replication that leads to senescence. We propose that normally occurring telomeric DNA replication stress is resolved by telomerase activity and the DDR in two parallel pathways and that deletion of Sml1 prevents this stress.

Published

2016

29. Novel Entropically Driven Conformation-specific Interactions with Tomm34 Protein Modulate Hsp70 Protein Folding and ATPase Activities

Author

Petr Man, Elizabeth A. Blackburn, Daniel Kavan, Petra Dvorakova, Lenka Hernychova, Borivoj Vojtesek, Dominika Coufalová, Petr Müller, Filip Trčka, and Michal Durech

Subjects

Models, Molecular, 0301 basic medicine, Protein Folding, Plasma protein binding, Crystallography, X-Ray, Mitochondrial Membrane Transport Proteins, Biochemistry, Analytical Chemistry, 03 medical and health sciences, Adenosine Triphosphate, Protein structure, Heat shock protein, Mitochondrial Precursor Protein Import Complex Proteins, Humans, HSP70 Heat-Shock Proteins, Molecular Biology, Binding Sites, 030102 biochemistry & molecular biology, biology, Chemistry, Research, Hsp90, Protein Structure, Tertiary, Molecular Docking Simulation, Tetratricopeptide, 030104 developmental biology, Proteostasis, Chaperone (protein), Mutation, Biophysics, biology.protein, Protein folding, Protein Binding

Abstract

Co-chaperones containing tetratricopeptide repeat (TPR) domains enable cooperation between Hsp70 and Hsp90 to maintain cellular proteostasis. Although the details of the molecular interactions between some TPR domains and heat shock proteins are known, we describe a novel mechanism by which Tomm34 interacts with and coordinates Hsp70 activities. In contrast to the previously defined Hsp70/Hsp90-organizing protein (Hop), Tomm34 interaction is dependent on the Hsp70 chaperone cycle. Tomm34 binds Hsp70 in a complex process; anchorage of the Hsp70 C terminus by the TPR1 domain is accompanied by additional contacts formed exclusively in the ATP-bound state of Hsp70 resulting in a high affinity entropically driven interaction. Tomm34 induces structural changes in determinants within the Hsp70-lid subdomain and modulates Hsp70/Hsp40-mediated refolding and Hsp40-stimulated Hsp70 ATPase activity. Because Tomm34 recruits Hsp90 through its TPR2 domain, we propose a model in which Tomm34 enables Hsp70/Hsp90 scaffolding and influences the Hsp70 chaperone cycle, providing an additional role for co-chaperones that contain multiple TPR domains in regulating protein homeostasis.

Published

2016

30. Maternal pro-inflammatory state during pregnancy and newborn leukocyte telomere length: A prospective investigation

Author

Hyagriv N. Simhan, Elissa S. Epel, Manuel C. Voelkle, Jue Lin, Sonja Entringer, Claudia Buss, Pathik D. Wadhwa, Elizabeth H. Blackburn, and Claudia Lazarides

Subjects

0301 basic medicine, Telomerase, medicine.medical_treatment, Physiology, Reproductive health and childbirth, Behavioral Neuroscience, 0302 clinical medicine, Pregnancy, Leukocytes, 2.1 Biological and endogenous factors, Psychology, Longitudinal Studies, Prospective Studies, Aetiology, Pediatric, Telomere, 3. Good health, Interleukin-10, Cytokine, Telomeres, Cytokines, Female, Adult, Disease susceptibility, Offspring, Birth weight, Immunology, Context (language use), Article, Developmental programming, 03 medical and health sciences, Young Adult, Clinical Research, medicine, Humans, Obesity, Conditions Affecting the Embryonic and Fetal Periods, Inflammation, Neurology & Neurosurgery, Endocrine and Autonomic Systems, business.industry, Tumor Necrosis Factor-alpha, Contraception/Reproduction, Inflammatory and immune system, Neurosciences, Infant, Newborn, Infant, Perinatal Period - Conditions Originating in Perinatal Period, medicine.disease, Newborn, Pregnancy Complications, 030104 developmental biology, Pro-inflammatory ratio, business, 030217 neurology & neurosurgery

Abstract

Introduction Telomere biology plays a fundamental role in maintaining the integrity of the genome and cell, and shortened telomeres have been linked to several age-related diseases. The initial (newborn) telomere length (TL) represents a critically important feature of the telomere biology system. Exposure to a variety of adverse prenatal conditions such as maternal stress, suboptimal diet, obesity, and obstetric complications, is associated with shorter offspring TL at birth and in adult life. Many, if not all, of these exposures are believed to have an inflammatory component. In this context, stress-related immunological processes during pregnancy may constitute a potential additional biological pathway because they can affect telomere length and telomerase activity via transcriptions factors such as cyclic adenosine monophosphate-dependent transcription factor (ATF7) and nuclear factor-kappa B (NF-κB). Thus, in the present study we examined the hypothesis that maternal pro-inflammatory state across pregnancy, operationalized as the balance between tumor necrosis factor (TNF)-α, a major pro-inflammatory cytokine, and interleukin-10 (IL-10), the major anti-inflammatory cytokine, is associated with newborn leukocyte telomere length (LTL) at birth. Methods and Materials Participants were healthy women (N = 112) recruited in early pregnancy. Concentrations of TNF- α and IL-10 were quantified in early, mid and late pregnancy from maternal blood samples. Telomere length was assessed in newborn blood samples soon after birth. Results After adjusting for maternal age, maternal pre-pregnancy BMI, birth weight percentile, and infant sex, a higher mean TNF-α/IL-10 ratio across pregnancy was significantly associated with shorter newborn TL (β = −.205, p = .030). Newborn TL was, on average, 10% shorter in offspring of women in the upper compared to lower quartile of the TNF-α/IL-10 ratio during pregnancy. Discussion These findings provide new evidence in humans for a potential “programming” mechanism linking maternal systemic pro-inflammatory processes during pregnancy with the initial (newborn) setting of her offspring’s telomere system.

Published

2019

31. Local enrichment of HP1alpha at telomeres alters their structure and regulation of telomere protection

Author

Bo Huang, Juan Guan, Jen Hsuan Wei, Guido Stadler, Tracy T. Chow, Elizabeth H. Blackburn, and Xiaoyu Shi

Subjects

0301 basic medicine, Telomerase, Chromosomal Proteins, Non-Histone, Mutant, General Physics and Astronomy, medicine.disease_cause, Histones, 0302 clinical medicine, Heterochromatin, Telomeric Repeat Binding Protein 2, Telomeric Repeat Binding Protein 1, lcsh:Science, Chromo shadow domain, Cancer, Mutation, 0303 health sciences, Microscopy, Multidisciplinary, Tumor, Telomere, Chromatin, Cell biology, Chromosomal Proteins, DNA damage, Science, Recombinant Fusion Proteins, Protein domain, Biology, General Biochemistry, Genetics and Molecular Biology, Article, Cell Line, 03 medical and health sciences, Rare Diseases, Protein Domains, Cell Line, Tumor, medicine, Genetics, Humans, Epigenetics, 030304 developmental biology, Lysine, General Chemistry, Non-Histone, Superresolution, 030104 developmental biology, Chromobox Protein Homolog 5, Cancer cell, lcsh:Q, 030217 neurology & neurosurgery, DNA Damage

Abstract

Enhanced telomere maintenance is evident in malignant cancers. While telomeres are thought to be inherently heterochromatic, detailed mechanisms of how epigenetic modifications impact telomere protection and structures are largely unknown in human cancers. Here we develop a molecular tethering approach to experimentally enrich heterochromatin protein HP1α specifically at telomeres. This results in increased deposition of H3K9me3 at cancer cell telomeres. Telomere extension by telomerase is attenuated, and damage-induced foci at telomeres are reduced, indicating augmentation of telomere stability. Super-resolution STORM imaging shows an unexpected increase in irregularity of telomeric structure. Telomere-tethered chromo shadow domain (CSD) mutant I165A of HP1α abrogates both the inhibition of telomere extension and the irregularity of telomeric structure, suggesting the involvement of at least one HP1α-ligand in mediating these effects. This work presents an approach to specifically manipulate the epigenetic status locally at telomeres to uncover insights into molecular mechanisms underlying telomere structural dynamics., Chromatin dynamics is thought to play an important role in the maintenance of telomeres, yet how has remained poorly understood. Here the authors locally enrich heterochromatin protein 1α (HP1α) at human telomeres to provide insights into the crosstalk between epigenetic regulations and structural dynamics at the telomeres.

Published

2018

32. Chronic Obesity and Incident Hypertension in Latina Women Are Associated with Accelerated Telomere Length Loss over a 1-Year Period

Author

Elissa S. Epel, Deena Elwan, Janet M. Wojcicki, Jue Lin, and Elizabeth H. Blackburn

Subjects

Latino, obesity, Endocrinology, Diabetes and Metabolism, Medical Biotechnology, Overweight, Cardiovascular, Oral and gastrointestinal, 0302 clinical medicine, Weight loss, Ethnicity, telomere length, Telomere Shortening, Cancer, education.field_of_study, Diabetes, Age Factors, Hispanic or Latino, Middle Aged, Stroke, 030220 oncology & carcinogenesis, Length change, Hypertension, Public Health and Health Services, Female, medicine.symptom, Adult, medicine.medical_specialty, Period (gene), Population, Clinical Sciences, 030209 endocrinology & metabolism, Risk Assessment, 03 medical and health sciences, Endocrinology & Metabolism, Metabolic Diseases, Clinical Research, Internal medicine, Diabetes mellitus, Weight Loss, Internal Medicine, medicine, Humans, Obesity, education, Metabolic and endocrine, Nutrition, business.industry, Prevention, Original Articles, medicine.disease, Telomere, chronic obesity, Socioeconomic Factors, San Francisco, business

Abstract

Aims: Shorter telomere length is associated with increased chronic disease risk in adulthood including diabetes mellitus and cardiovascular risk. Few studies have evaluated the relationship between telomere length change and incident disease risk in populations with a high percentage of overweight and obesity. Results: In an urban Latina population recruited in San Francisco (n = 82) with a high prevalence of overweight and obesity (78.4%), we assessed leukocyte telomere length and telomere length change over a 1-year period in relation to obesity, chronicity of obesity, and incident metabolic disease risk 5–6 years later. We also assessed the relationship between telomere length change over a 1-year period and weight loss. There were no significant associations between baseline telomere length and socio-demographics including age and ethnicity, or current weight status. Telomere length change, however, was associated with being obese at baseline and previous years of chronic obesity. A high percentage of women who were obese at baseline were also obese the year before (90%) and 2 years before (85%). Obesity at baseline was an independent predictor for increased telomere length attrition (β = −346.9, −568.4 to −125.4; P

Published

2018

33. Redox regulation of pyruvate kinase M2 by cysteine oxidation and S-nitrosation

Author

Alice Rose, Mitchell, Meng, Yuan, Hugh P, Morgan, Iain W, McNae, Elizabeth A, Blackburn, Thierry, Le Bihan, Rafael A, Homem, Manda, Yu, Gary J, Loake, Paul A, Michels, Martin A, Wear, and Malcolm D, Walkinshaw

Subjects

Nitrosation, Pyruvate Kinase, redox signalling, Protein Structure, Secondary, enzyme activity, Isoenzymes, Humans, Cysteine, Crystallization, Oxidation-Reduction, Research Articles, Research Article

Abstract

We show here that the M2 isoform of human pyruvate kinase (M2PYK) is susceptible to nitrosation and oxidation, and that these modifications regulate enzyme activity by preventing the formation of the active tetrameric form. The biotin-switch assay carried out on M1 and M2 isoforms showed that M2PYK is sensitive to nitrosation and that Cys326 is highly susceptible to redox modification. Structural and enzymatic studies have been carried out on point mutants for three cysteine residues (Cys424, Cys358, and Cys326) to characterise their potential roles in redox regulation. Nine cysteines are conserved between M2PYK and M1PYK. Cys424 is the only cysteine unique to M2PYK. C424S, C424A, and C424L showed a moderate effect on enzyme activity with 80, 100, and 140% activity, respectively, compared with M2PYK. C358 had been previously identified from in vivo studies to be the favoured target for oxidation. Our characterised mutant showed that this mutation stabilises tetrameric M2PYK, suggesting that the in vivo resistance to oxidation for the Cys358Ser mutation is due to stabilisation of the tetrameric form of the enzyme. In contrast, the Cys326Ser mutant exists predominantly in monomeric form. A biotin-switch assay using this mutant also showed a significant reduction in biotinylation of M2PYK, confirming that this is a major target for nitrosation and probably oxidation. Our results show that the sensitivity of M2PYK to oxidation and nitrosation is regulated by its monomer–tetramer equilibrium. In the monomer state, residues (in particular C326) are exposed to oxidative modifications that prevent reformation of the active tetrameric form.

Published

2018

34. Molecular dynamics simulations of site point mutations in the TPR domain of cyclophilin 40 identify conformational states with distinct dynamic and enzymatic properties

Author

Mert, Gur, Elizabeth A, Blackburn, Jia, Ning, Vikram, Narayan, Kathryn L, Ball, Malcolm D, Walkinshaw, and Burak, Erman

Subjects

Cyclophilins, ARTICLES, Protein Domains, Protein Conformation, Humans, Point Mutation, Thermodynamics, Transition Temperature, Molecular Dynamics Simulation, Cyclophilin D, Biological Molecules and Networks

Abstract

Cyclophilin 40 (Cyp40) is a member of the immunophilin family that acts as a peptidyl-prolyl-isomerase enzyme and binds to the heat shock protein 90 (Hsp90). Its structure comprises an N-terminal cyclophilin domain and a C-terminal tetratricopeptide (TPR) domain. Cyp40 is overexpressed in prostate cancer and certain T-cell lymphomas. The groove for Hsp90 binding on the TPR domain includes residues Lys227 and Lys308, referred to as the carboxylate clamp, and is essential for Cyp40-Hsp90 binding. In this study, the effect of two mutations, K227A and K308A, and their combinative mutant was investigated by performing a total of 5.76 μs of all-atom molecular dynamics (MD) simulations in explicit solvent. All simulations, except the K308A mutant, were found to adopt two distinct (extended or compact) conformers defined by different cyclophilin-TPR interdomain distances. The K308A mutant was only observed in the extended form which is observed in the Cyp40 X-ray structure. The wild-type, K227A, and combined mutant also showed bimodal distributions. The experimental melting temperature, Tm, values of the mutants correlate with the degree of compactness with the K308A extended mutant having a marginally lower melting temperature. Another novel measure of compactness determined from the MD data, the “coordination shell volume,” also shows a direct correlation with Tm. In addition, the MD simulations show an allosteric effect with the mutations in the remote TPR domain having a pronounced effect on the molecular motions of the enzymatic cyclophilin domain which helps rationalise the experimentally observed increase in enzyme activity measured for all three mutations.

Published

2018

35. Assessment of the Association between Environmental Justice Data for Air Pollution and Telomere Length

Author

Cathy Schaefer, Mark N. Kvale, Neil Risch, Stacey E. Alexeeff, Charles P. Quesenberry, Elizabeth H. Blackburn, Jun Shan, and Stephen K. Van Den Eeden

Subjects

Environmental justice, Geography, Association (object-oriented programming), Environmental health, Air pollution, medicine, General Earth and Planetary Sciences, medicine.disease_cause, General Environmental Science, Telomere

Published

2018

36. Abstract #4331 Maternal psychological resilience during pregnancy and fetal cellular aging

Author

M. Lahti-Pulkkinen, J. Lin, Elissa S. Epel, P.D. Wadhwa, G. Verner, Sonja Entringer, K.Räikkönen, Claudia Buss, E. Kajantie, and Elizabeth H. Blackburn

Subjects

Behavioral Neuroscience, Pregnancy, Fetus, Endocrine and Autonomic Systems, business.industry, Cellular Aging, Immunology, medicine, medicine.disease, business, Clinical psychology

Published

2019

37. Leukocyte Telomere Length Predicts SSRI Response in Major Depressive Disorder: A Preliminary Report

Author

Daniel Lindqvist, Elissa S. Epel, Synthia H. Mellon, F. Saverio Bersani, J. Craig Nelson, John Coetzee, Christina M. Hough, Rebecca Rosser, Heather M. Burke, Laura Mahan, Jue Lin, Victor I. Reus, Elizabeth H. Blackburn, and Owen M. Wolkowitz

Subjects

Telomer, medicine.medical_specialty, Serotonin reuptake inhibitor, Affect, Affective disorder, Antidepressants, Biomarker, Depression, Major depression, Mood disorders, Selective serotonin reuptake inhibitors, Treatment response, behavioral disciplines and activities, Clinical Research, Internal medicine, Behavioral and Social Science, mental disorders, medicine, 2.1 Biological and endogenous factors, Bipolar disorder, Aetiology, Psychiatry, Depression (differential diagnoses), Original Paper, Neurosciences, General Medicine, Serious Mental Illness, medicine.disease, Brain Disorders, Mental Health, Schizophrenia, Endogenous depression, Major depressive disorder, Antidepressant, Psychology

Abstract

Short leukocyte telomere length (LTL) may be associated with several psychiatric disorders, including major depressive disorder (MDD). Short LTL has previously been associated with poor response to psychiatric medications in bipolar disorder and schizophrenia, but no studies have prospectively assessed the relationship of LTL to selective serotonin reuptake inhibitor (SSRI) response in MDD. We assessed pre-treatment LTL, depression severity [using the Hamilton Depression Rating Scale (HDRS)], and self-reported positive and negative affect in 27 healthy, unmedicated adults with MDD. The subjects then underwent open-label treatment with an SSRI antidepressant for 8 weeks, after which clinical ratings were repeated. The analyses were corrected for age, sex, and body mass index. ‘Non-responders' to treatment (HDRS improvement

Published

2016

38. Discrimination, mental health, and leukocyte telomere length among African American men

Author

Elizabeth H. Blackburn, Robert Joseph Taylor, David H. Chae, Elissa S. Epel, Stephen B. Thomas, Amani Nuru-Jeter, Jue Lin, and Karen D. Lincoln

Subjects

Male, Gerontology, Aging, Endocrinology, Diabetes and Metabolism, Human Males, Anxiety, Medical and Health Sciences, 0302 clinical medicine, Endocrinology, Risk Factors, Leukocytes, 030212 general & internal medicine, Aetiology, Cellular Senescence, Telomere Shortening, Depression (differential diagnoses), African Americans, Psychiatry, education.field_of_study, African American men, Depression, Men, Middle Aged, Telomere, Health equity, Psychiatry and Mental health, Mental Health, social and economic factors, medicine.symptom, Psychology, Cell aging, Racial discrimination, Adult, Population, Stress, Basic Behavioral and Social Science, Article, 03 medical and health sciences, Racism, 2.3 Psychological, Behavioral and Social Science, medicine, Humans, education, Biological Psychiatry, Social stress, Endocrine and Autonomic Systems, Psychology and Cognitive Sciences, Mental health, Leukocyte telomere length, Black or African American, Good Health and Well Being, Psychological, Mind and Body, Stress, Psychological, 030217 neurology & neurosurgery, Demography

Abstract

African American men in the US experience disparities across multiple health outcomes. A common mechanism underlying premature declines in health may be accelerated biological aging, as reflected by leukocyte telomere length (LTL). Racial discrimination, a qualitatively unique source of social stress reported by African American men, in tandem with poor mental health, may negatively impact LTL in this population. The current study examined cross-sectional associations between LTL, self-reported racial discrimination, and symptoms of depression and anxiety among 92 African American men 30-50 years of age. LTL was measured in kilobase pairs using quantitative polymerase chain reaction assay. Controlling for sociodemographic factors, greater anxiety symptoms were associated with shorter LTL (b=-0.029, standard error [SE]=0.014; p

Published

2016

39. Human telomere biology: A contributory and interactive factor in aging, disease risks, and protection

Author

Elissa S. Epel, Elizabeth H. Blackburn, and Jue Lin

Subjects

Genetics, Aging, Telomerase, Multidisciplinary, Cell division, Telomere biology, Human life, Telomere Homeostasis, Cancer, Disease, Telomere, Biology, medicine.disease, Stress, Physiological, Neoplasms, medicine, Humans, Genetic Predisposition to Disease, Life Style, Cell Division

Abstract

Telomeres are the protective end-complexes at the termini of eukaryotic chromosomes. Telomere attrition can lead to potentially maladaptive cellular changes, block cell division, and interfere with tissue replenishment. Recent advances in the understanding of human disease processes have clarified the roles of telomere biology, especially in diseases of human aging and in some aging-related processes. Greater overall telomere attrition predicts mortality and aging-related diseases in inherited telomere syndrome patients, and also in general human cohorts. However, genetically caused variations in telomere maintenance either raise or lower risks and progression of cancers, in a highly cancer type–specific fashion. Telomere maintenance is determined by genetic factors and is also cumulatively shaped by nongenetic influences throughout human life; both can interact. These and other recent findings highlight both causal and potentiating roles for telomere attrition in human diseases.

Published

2015

40. Movement-Based Behaviors and Leukocyte Telomere Length among US Adults

Author

Jeremy P. Loenneke, Elizabeth H. Blackburn, and Paul D. Loprinzi

Subjects

Adult, Aged, 80 and over, Aging, National Health and Nutrition Examination Survey, business.industry, Physical activity, Physical Therapy, Sports Therapy and Rehabilitation, Middle Aged, Motor Activity, Nutrition Surveys, Odds, Young Adult, Leukocytes, Humans, Medicine, Orthopedics and Sports Medicine, Young adult, business, Telomere Shortening, Aged, Demography

Abstract

AB Introduction: Short leukocyte telomere length (LTL) has become a hallmark characteristic of aging. Some, but not all, evidence suggests that physical activity (PA) may play an important role in attenuating age-related diseases and may provide a protective effect for telomeres. The purpose of this study was to examine the association between PA and LTL in a national sample of US adults from the National Health and Nutrition Examination Survey. Methods: National Health and Nutrition Examination Survey data from 1999 to 2002 (n = 6503; 20-84 yr) were used. Four self-report questions related to movement-based behaviors (MBB) were assessed. The four MBB included whether individuals participated in moderate-intensity PA, vigorous-intensity PA, walking/cycling for transportation, and muscle-strengthening activities. An MBB index variable was created by summing the number of MBB an individual engaged in (range, 0-4). Results: A clear dose-response relation was observed between MBB and LTL; across the LTL tertiles, respectively, the mean numbers of MBB were 1.18, 1.44, and 1.54 (Ptrend < 0.001). After adjustments (including age) and compared with those engaging in 0 MBB, those engaging in 1, 2, 3, and 4 MBB, respectively, had a 3% (P = 0.84), 24% (P = 0.02), 29% (P = 0.04), and 52% (P = 0.004) reduced odds of being in the lowest (vs highest) tertile of LTL; MBB was not associated with being in the middle (vs highest) tertile of LTL. Conclusions: Greater engagement in MBB was associated with reduced odds of being in the lowest LTL tertile

Published

2015

41. Leukocyte Telomere Length and Mortality in the National Health and Nutrition Examination Survey, 1999–2002

Author

Belinda L. Needham, Steven E. Gregorich, Elizabeth H. Blackburn, David H. Rehkopf, Elissa S. Epel, Jue Lin, and Nancy E. Adler

Subjects

Male, Gerontology, Telomerase, National Health and Nutrition Examination Survey, Epidemiology, Population, Disease, Biology, White People, Article, Race (biology), Risk Factors, Neoplasms, Mexican Americans, Leukocytes, medicine, Humans, Dementia, Mortality, education, Socioeconomic status, Aged, Proportional Hazards Models, Aged, 80 and over, education.field_of_study, Middle Aged, Telomere, Nutrition Surveys, medicine.disease, United States, Black or African American, Cardiovascular Diseases, Female, Demography

Abstract

Telomeres are the protective caps at the ends of eukaryotic chromosomes. Each time a somatic cell divides, a portion of the telomeric DNA fails to replicate; thus, telomeres naturally shorten with mitosis.1,2 Telomerase, the cellular enzyme that can counteract shortening by elongating and protecting telomeres, is kept at low levels in normal human cells.3 When telomeres become too short, cells lose the ability to grow and divide.4,5 Human genetic mutations that result in short telomeres are associated with a group of conditions collectively called “telomere syndromes” that resemble premature onset of diseases of aging, 6 consistent with a role of telomere shortening in human aging in the general population.7 Recent studies have found that shorter leukocyte telomere length is associated with numerous age-related diseases, including cardiovascular disease,8–11 type 2 diabetes,12,13 dementia,14–16 and cancer,17,18 independent of chronological age. While a number of studies have also reported that shorter telomeres are associated with increased mortality,17,19–30 others have failed to find an association between telomere length and survival 31–34 (see the appendix for a summary of findings). In general, studies that have not found an association between telomere length and mortality have examined older populations. Inconsistencies in the literature may be due to differences in sample size and measurement techniques, the use of population versus clinical samples, or unknown biologic differences between those who survive to extreme old age and those with earlier mortality.35,36 Using data from the National Health and Nutrition Examination Survey (NHANES) 1999–2002, the current study examined the association between leukocyte telomere length and mortality in a large, nationally representative, socioeconomically and ethnically diverse sample of US adults. This study addressed the following research questions: (1) Is telomere length associated with all-cause mortality in adults aged 50–84? (2) Is telomere length associated with cause-specific mortality? (3) Do associations between telomere length and mortality vary according to age, sex, race/ethnicity, or socioeconomic status (SES)? Although prior research has shown that older age, male sex, white race, and low SES are associated with shorter telomere length,37,38 it is not known whether the relationship between telomere length and mortality differs according to sociodemographic characteristics. Answering this question could help determine whether telomere length is a comparable indicator of mortality risk across population subgroups.

Published

2015

42. Race-Ethnicity, Poverty, Urban Stressors, and Telomere Length in a Detroit Community-based Sample

Author

Arline T. Geronimus, Jue Lin, Elissa S. Epel, Elizabeth H. Blackburn, Erin Linnenbringer, Amy J. Schulz, Jay A. Pearson, and Angela G. Reyes

Subjects

Adult, Male, Biopsychosocial model, Gerontology, Michigan, Aging, Urban Population, Social Psychology, poverty, Disease, Basic Behavioral and Social Science, Article, White People, Residence Characteristics, Clinical Research, Mexican Americans, Behavioral and Social Science, Humans, Psychology, Latinos, Social identity theory, Poverty, Socioeconomic status, health disparities, neighborhood, whites, African Americans, Stressor, Public Health, Environmental and Occupational Health, Telomere, Middle Aged, blacks, telomeres, Health equity, Black or African American, Mental Health, stressors, Public Health and Health Services, Female, Generic health relevance, Public Health, urban, Psychosocial, Demography

Abstract

Residents of distressed urban areas suffer early aging-related disease and excess mortality. Using a community-based participatory research approach in a collaboration between social researchers and cellular biologists, we collected a unique data set of 239 black, white, or Mexican adults from a stratified, multistage probability sample of three Detroit neighborhoods. We drew venous blood and measured telomere length (TL), an indicator of stress-mediated biological aging, linking respondents’ TL to their community survey responses. We regressed TL on socioeconomic, psychosocial, neighborhood, and behavioral stressors, hypothesizing and finding an interaction between poverty and racial-ethnic group. Poor whites had shorter TL than nonpoor whites; poor and nonpoor blacks had equivalent TL; and poor Mexicans had longer TL than nonpoor Mexicans. Findings suggest unobserved heterogeneity bias is an important threat to the validity of estimates of TL differences by race-ethnicity. They point to health impacts of social identity as contingent, the products of structurally rooted biopsychosocial processes.

Published

2015

43. Phosphomimetic Mutation of the N-Terminal Lid of MDM2 Enhances the Polyubiquitination of p53 through Stimulation of E2-Ubiquitin Thioester Hydrolysis

Author

Susanne Pettersson, Elizabeth A. Blackburn, Borek Vojtesek, Petr Müller, Jennifer Fraser, Ted R. Hupp, Erin G. Worrall, Yao Lin, Malcolm D. Walkinshaw, Vivien Landre, and Kathryn L. Ball

Subjects

Protein Conformation, Amino Acid Motifs, Molecular Sequence Data, Allosteric regulation, Thioester, Mice, Allosteric Regulation, Ubiquitin, Structural Biology, Cell Line, Tumor, Animals, Humans, Point Mutation, Amino Acid Sequence, Polyubiquitin, Molecular Biology, chemistry.chemical_classification, biology, Hydrolysis, Ubiquitination, Tryptophan, Proto-Oncogene Proteins c-mdm2, Protein Structure, Tertiary, Ubiquitin ligase, Enzyme, chemistry, Biochemistry, Ubiquitin-Conjugating Enzymes, biology.protein, Biophysics, Mdm2, Tumor Suppressor Protein p53, P53 binding

Abstract

Mouse double minute 2 (MDM2) has a phosphorylation site within a lid motif at Ser17 whose phosphomimetic mutation to Asp17 stimulates MDM2-mediated polyubiquitination of p53. MDM2 lid deletion, but not Asp17 mutation, induced a blue shift in the λ(max) of intrinsic fluorescence derived from residues in the central domain including Trp235, Trp303, Trp323, and Trp329. This indicates that the Asp17 mutation does not alter the conformation of MDM2 surrounding the tryptophan residues. In addition, Phe235 mutation enhanced MDM2 binding to p53 but did not stimulate its ubiquitination function, thus uncoupling increases in p53 binding from its E3 ubiquitin ligase function. However, the Asp17 mutation in MDM2 stimulated its discharge of the UBCH5a-ubiquitin thioester adduct (UBCH5a is a ubiquitin-conjugating enzyme E2D 1 UBC4/5 homolog yeast). This stimulation of ubiquitin discharge from E2 was independent of the p53 substrate. There are now four known effects of the Asp17 mutation on MDM2: (i) it alters the conformation of the isolated N-terminus as defined by NMR; (ii) it induces increased thermostability of the isolated N-terminal domain; (iii) it stimulates the allosteric interaction of MDM2 with the DNA-binding domain of p53; and (iv) it stimulates a novel protein-protein interaction with the E2-ubiquitin complex in the absence of substrate p53 that, in turn, increases hydrolysis of the E2-ubiquitin thioester bond. These data also suggest a new strategy to disrupt MDM2 function by targeting the E2-ubiquitin discharge reaction.

Published

2015

44. Maternal Estriol Concentrations in Early Gestation Predict Infant Telomere Length

Author

Pathik D. Wadhwa, Elissa S. Epel, Sonja Entringer, Hyagriv N. Simhan, Elizabeth H. Blackburn, Jue Lin, and Claudia Buss

Subjects

medicine.medical_specialty, medicine.drug_class, Endocrinology, Diabetes and Metabolism, Clinical Biochemistry, Context (language use), Biochemistry, Endocrinology, Pregnancy, Internal medicine, medicine, Humans, Endocrine Research, Early childhood, Fetus, Estriol, business.industry, Obstetrics, Biochemistry (medical), Infant, Newborn, Mouth Mucosa, Infant, Telomere, medicine.disease, Pregnancy Trimester, First, Estrogen, Child, Preschool, Cohort, Female, business

Abstract

Telomere biology plays a fundamental role in genomic integrity, cellular regeneration, physiology, aging, disease risk, and mortality. The initial setting of telomere length (TL) in early life has important implications for telomere maintenance and related disorders throughout the life span. However, little is known about the predictors of this initial setting.Given the established role of estrogen on adult TL and the role of estriol (E3) in the context of fetal development, the goal of this study was to test the hypothesis that higher maternal E3 concentration during early pregnancy is associated with longer infant telomere length.Study participants comprised a cohort of N = 100 infants followed prospectively from intrauterine life and birth through early childhood from a population-based, representative sample of pregnant mothers recruited in early pregnancy at university-based obstetric clinics in Southern California. Maternal unconjugated E3 concentrations were assessed in plasma in early gestation (around wk 15). Infant TL was assessed in buccal cells at approximately 15 months of age.After accounting for the effects of potential confounding maternal and infant variables, there was a significant, independent effect of maternal E3 concentration on infant TL (unstandardized β = 0.297; P = .001; 95% Cl, 0.121-0.473). Specifically, a one-multiple-of-the-median (MoM) increase in maternal E3 concentration during early pregnancy was associated with a 14.42% increase in infant TL.This study supports the concept of developmental plasticity of the telomere biology system and highlights specifically the role of a potentially modifiable intrauterine factor for additional mechanistic and clinical investigation.

Published

2015

45. Contents Vol. 66, 2015

Author

Ning Li, Cristiane Kochi, Itana Gomes Alves Andrade, Lisette C. P. G. M. de Groot, Xinying Wang, Daniel L. Gillen, Milena S. G. Correia, Satyajit Patra, Beatriz Tavares Costa-Carvalho, Barry M. Popkin, Jadwiga Trzeciak, Sitong Liu, Penny Gordon-Larsen, Rosangela da Silva, Hyagriv N. Simhan, Daniele Gonçalves Vieira, Pathik D. Wadhwa, Babak Shahbaba, Donja M. Mijnarends, Elissa S. Epel, Yvette C. Luiking, Fei Dong, Fabíola Isabel Suano-Souza, Chao Wu, Druckerei Stückle, Grzegorz Przysada, Jue Lin, Pei Li, Anne-Sophie Brazeau, Feng Tian, Sonja Entringer, Raman Venkataramanan, Sovianne ter Borg, Elizabeth H. Blackburn, Roseli Oselka Saccardo Sarni, Amy H. Herring, Claudia Buss, Annie-Green Howard, Sonia Hix, Jos M. G. A. Schols, Marc-Antoine Rouillier, Antony D. Karelis, Sarah David-Riel, Wenkui Yu, David H. St-Pierre, Lidia Perenc, Jieshou Li, and Sjors Verlaan

Subjects

Gerontology, Nutrition and Dietetics, Anthropology, Philosophy, Medicine (miscellaneous)

Published

2015

46. Psychiatric disorders and leukocyte telomere length: Underlying mechanisms linking mental illness with cellular aging

Author

Dóra Révész, Elissa S. Epel, Victor I. Reus, Daniel Lindqvist, Jue Lin, Synthia H. Mellon, Brenda W.J.H. Penninx, Josine E. Verhoeven, Owen M. Wolkowitz, F. Saverio Bersani, Laura Mahan, Rebecca Rosser, Christina M. Hough, Elizabeth H. Blackburn, Psychiatry, NCA - Neurobiology of mental health, EMGO - Mental health, Neuroscience Campus Amsterdam - Neurobiology of Mental Health, and EMGO+ - Mental Health

Subjects

Male, Aging, Telomerase, Antidepressant, Anxiety, Bipolar affective disorder, Depression, Disease, Early life adversity, Inflammation, Leukocytes, Major depressive disorder, Manic-depression, Mortality, Neurotrophic, Oxidative stress, Post-traumatic stress disorder, Psychosis, Schizophrenia, Stress, Telomeres, Adolescent, Adult, Aged, Cellular Senescence, Child, Female, Humans, Mental Disorders, Middle Aged, Telomere, Young Adult, Neuropsychology and Physiological Psychology, Cognitive Neuroscience, Behavioral Neuroscience, Medical and Health Sciences, 2.1 Biological and endogenous factors, Aetiology, Depression (differential diagnoses), Mental Health, Psychology, Cell aging, Senescence, medicine.medical_specialty, Behavioral Science & Comparative Psychology, Article, SDG 3 - Good Health and Well-being, medicine, Psychiatry, Psychology and Cognitive Sciences, medicine.disease, Mental illness, Brain Disorders, Good Health and Well Being

Abstract

Many psychiatric illnesses are associated with early mortality and with an increased risk of developing physical diseases that are more typically seen in the elderly. Moreover, certain psychiatric illnesses may be associated with accelerated cellular aging, evidenced by shortened leukocyte telomere length (LTL), which could underlie this association. Shortened LTL reflects a cell's mitotic history and cumulative exposure to inflammation and oxidation as well as the availability of telomerase, a telomere-lengthening enzyme. Critically short telomeres can cause cells to undergo senescence, apoptosis or genomic instability, and shorter LTL correlates with poorer health and predicts mortality. Emerging data suggest that LTL may be reduced in certain psychiatric illnesses, perhaps in proportion to exposure to the psychiatric illnesses, although conflicting data exist. Telomerase has been less well characterized in psychiatric illnesses, but a role in depression and in antidepressant and neurotrophic effects has been suggested by preclinical and clinical studies. In this article, studies on LTL and telomerase activity in psychiatric illnesses are critically reviewed, potential mediators are discussed, and future directions are suggested. A deeper understanding of cellular aging in psychiatric illnesses could lead to re-conceptualizing them as systemic illnesses with manifestations inside and outside the brain and could identify new treatment targets.

Published

2015

47. Molecular insights into the pathways underlying naked mole-rat eusociality

Author

Nigel C. Bennett, Andre Ganswindt, David Gentien, Chris G. Faulkes, Elizabeth H. Blackburn, Eskeatnaf Mulugeta, Lucile Marion-Poll, Stefanie Birgit Ganswindt, and Edith Heard

Subjects

medicine.medical_specialty, Reproductive suppression, biology, Dopaminergic, Ovary, biology.organism_classification, Sperm, Eusociality, Endocrinology, medicine.anatomical_structure, Dopaminergic pathways, Internal medicine, medicine, Naked mole-rat, Sperm motility

Abstract

BackgroundEusociality is the highest level of social organization and naked mole-rats (NMR)s are amongst the few mammals showing this unique social behavior; nevertheless, little is known about the molecular mechanisms underlying the eusociality of NMRs.ResultsGene expression profiling of NMR brain and gonads (ovary and testis), from animals belonging to different reproductive castes, revealed robust gene expression differences between reproductive and non-reproductive members of NMR colonies. In the brain, dopaminergic pathways appear to be potential players in NMR eusocial behaviour. Breeding animals (queens and breeding males) showed increased expression of genes involved in dopamine metabolism. Using immunohistochemistry, we notably found these differences to be in dopaminergic hypothalamic areas, which provide inhibitory control over the secretion of prolactin, amongst other regions. Furthermore, plasma prolactin concentrations were elevated in many non-breeders (of both sexes), often reaching levels exceeding that of pregnant or lactating queens, suggesting a role for hyperprolactinaemia in socially-induced reproductive suppression. We also found that the ovaries of non-breeding females are arrested at pre-pubertal stage. They contained fewer supporting stromal cells compared to queens, and had very low expression of the aromatase geneCyp19A1(a key enzyme in estrogen synthesis) compared to non-breeding females. In the testes, genes involved in post meiosis spermatogenesis and sperm maturation (Prm1, Prm2, Odf3andAkap4) were highly expressed in breeding males compared to non-breeders, explaining the low sperm number and impaired sperm motility characteristic of non-breeding males.ConclusionsOur study suggests that extreme reproductive skew, one of the defining features of eusociality, is associated with changes in expression of key components of dopamine pathways, which could lead to hypogonadism and a lifetime of socially-induced sterility for most NMRs.

Published

2017

48. Validation of Minimally-Invasive Sample Collection Methods for Measurement of Telomere Length

Author

Elizabeth H. Blackburn, Elysia Poggi Davis, Jue Lin, Stephanie A. Stout, Judith E. Carroll, Natalie Hernandez, and Laura M. Glynn

Subjects

0301 basic medicine, concordance, Aging, Saliva, venous blood, Cognitive Neuroscience, Physiology, lcsh:RC321-571, 03 medical and health sciences, 0302 clinical medicine, Methods, telomere length, Medicine, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, Finger prick, Whole blood, saliva, business.industry, Venous blood, dried blood spot, Dried blood spot, cellular aging, qPCR, 030104 developmental biology, Cellular Aging, Biomarker (medicine), Sample collection, business, 030217 neurology & neurosurgery, Neuroscience

Abstract

Objective: The discovery of telomere length (TL) as a biomarker of cellular aging and correlate of age-related disease has generated a new field of research in the biology of healthy aging. Although the most common method of sample collection for TL is venous blood draw, less-invasive DNA collection methods are becoming more widely used. However, how TL relates across tissues derived from these sample collection methods is poorly understood. The current study is the first to characterize the associations in TL across three sample collection methods: venous whole blood, finger prick dried blood spot and saliva.Methods: TL was measured in 24 healthy young adults using three modes of sample collection for each participant: venous whole blood, finger prick dried blood spot and saliva. Relative TL was measured using quantitative polymerase chain reaction.Results: TL in finger prick dried blood spots (DBS) washighly correlated with TL in whole blood (r = 0.84, p < 0.001). Salivary TL was also correlated with whole blood TL (r = 0.56, p = 0.005), but this association was not as strong as that of dried blood spot TL (Steiger’s Z = 2.12, p = 0.034). TL was longer in saliva than in whole blood or DBS (p’s < 0.001).Conclusions: These findings have important implications for future study design by supporting the validity of less-invasive methods that can be implemented with vulnerable populations or in the field. Further, these findings aid in interpreting the burgeoning area of biological aging research and may shed light on our understanding of inconsistencies in the empirical literature.

Published

2017

49. Socioeconomic Status, Financial Strain, and Leukocyte Telomere Length in a Sample of African American Midlife Men

Author

Joshua M. Schrock, Elissa S. Epel, Amani Nuru-Jeter, Jue Lin, Nancy E. Adler, Elizabeth H. Blackburn, Robert Joseph Taylor, and David H. Chae

Subjects

Gerontology, Adult, Male, medicine.medical_specialty, Health (social science), Sociology and Political Science, Population, Odds, 03 medical and health sciences, 0302 clinical medicine, Epidemiology, Leukocytes, Odds Ratio, Medicine, Economic Status, Humans, 030212 general & internal medicine, education, Socioeconomic status, Cellular Senescence, Multinomial logistic regression, Masculinity, education.field_of_study, business.industry, Health Policy, Public Health, Environmental and Occupational Health, Gender Identity, Telomere Homeostasis, Odds ratio, Middle Aged, Telomere, Educational attainment, Black or African American, Logistic Models, Social Class, Anthropology, Life course approach, business, 030217 neurology & neurosurgery, Stress, Psychological

Abstract

African American men in the USA experience poorer aging-related health outcomes compared to their White counterparts, partially due to socioeconomic disparities along racial lines. Greater exposure to socioeconomic strains among African American men may adversely impact health and aging at the cellular level, as indexed by shorter leukocyte telomere length (LTL). This study examined associations between socioeconomic factors and LTL among African American men in midlife, a life course stage when heterogeneity in both health and socioeconomic status are particularly pronounced. Using multinomial logistic regression, we examined associations between multiple measures of SES and tertiles of LTL in a sample of 92 African American men between 30 to 50 years of age. Reports of greater financial strain were associated with higher odds of short versus medium LTL (odds ratio (OR)=2.21, p = 0.03). Higher income was associated with lower odds of short versus medium telomeres (OR=0.97, p = 0.04). Exploratory analyses revealed a significant interaction between educational attainment and employment status (χ 2 = 4.07, p = 0.04), with greater education associated with lower odds of short versus long telomeres only among those not employed (OR=0.10, p = 0.040). Cellular aging associated with multiple dimensions of socioeconomic adversity may contribute to poor aging-related health outcomes among African American men. Subjective appraisal of financial difficulty may impact LTL independently of objective dimensions of SES. Self-appraised success in fulfilling traditionally masculine gender roles, including being an economic provider, may be a particularly salient aspect of identity for African American men and have implications for cellular aging in this population.

Published

2017

50. An antiapoptotic role for telomerase RNA in human immune cells independent of telomere integrity or telomerase enzymatic activity

Author

Elizabeth H. Blackburn and Francesca S. Gazzaniga

Subjects

Adult, CD4-Positive T-Lymphocytes, Telomerase, Adolescent, DNA damage, Blotting, Western, Immunology, Anti-Inflammatory Agents, Plenary Paper, Gene Expression, Apoptosis, Biology, Biochemistry, Dexamethasone, Young Adult, Telomerase RNA component, Proto-Oncogene Proteins, Humans, Telomerase reverse transcriptase, Cells, Cultured, Bcl-2-Like Protein 11, Reverse Transcriptase Polymerase Chain Reaction, Membrane Proteins, RNA, Cell Biology, Hematology, Telomere, Non-coding RNA, Molecular biology, Reverse transcriptase, Mutation, RNA Interference, Apoptosis Regulatory Proteins

Abstract

Telomerase is a ribonucleoprotein complex that adds telomeric DNA to the ends of linear chromosomes. It contains two core canonical components: the essential RNA component, hTR, which provides the template for DNA synthesis, and the reverse transcriptase protein component, hTERT. Low telomerase activity in circulating peripheral blood mononuclear cells has been associated with a variety of diseases. It is unknown, however, whether telomerase, in addition to its long-term requirement for telomere maintenance, is also necessary for short-term immune cell proliferation and survival. We report that overexpression of enzymatically inactive hTR mutants protected against dexamethasone-induced apoptosis in stimulated CD4 T cells. Furthermore, hTR knockdown reproducibly induced apoptosis in the absence of any detectable telomere shortening or DNA damage response. In contrast, hTERT knockdown did not induce apoptosis. Strikingly, overexpression of hTERT protein caused apoptosis that was rescued by overexpression of enzymatically inactive hTR mutants. Hence, we propose that hTR can function as a noncoding RNA that protects from apoptosis independent of its function in telomerase enzymatic activity and long-term telomere maintenance in normal human immune cells. These results imply that genetic or environmental factors that alter hTR levels can directly affect immune cell function to influence health and disease.

Published

2014