Your search keyword '"Eng DY"' showing total 10 results

1. The MRE11-RAD50-NBS1 complex both starts and extends DNA end resection in mouse meiosis.

Author

Kim S, Yamada S, Li T, Canasto-Chibuque C, Kim JH, Marcet-Ortega M, Xu J, Eng DY, Feeney L, Petrini JHJ, and Keeney S

Abstract

Nucleolytic resection of DNA ends is critical for homologous recombination, but its mechanism is not fully understood, particularly in mammalian meiosis. Here we examine roles of the conserved MRN complex (MRE11, RAD50, and NBS1) through genome-wide analysis of meiotic resection in mice with various MRN mutations, including several that cause chromosomal instability in humans. Meiotic DSBs form at elevated levels but remain unresected if Mre11 is conditionally deleted, thus MRN is required for both resection initiation and regulation of DSB numbers. Resection lengths are reduced to varying degrees in MRN hypomorphs or if MRE11 nuclease activity is attenuated in a conditional nuclease-dead Mre11 model. These findings unexpectedly establish that MRN is needed for longer-range extension of resection, not just resection initiation. Finally, resection defects are additively worsened by combining MRN and Exo1 mutations, and mice that are unable to initiate resection or have greatly curtailed resection lengths experience catastrophic spermatogenic failure. Our results elucidate multiple functions of MRN in meiotic recombination, uncover unanticipated relationships between short- and long-range resection, and establish the importance of resection for mammalian meiosis.

Published

2024

2. The endosomal trafficking regulator LITAF controls the cardiac Nav1.5 channel via the ubiquitin ligase NEDD4-2.

Author

Turan NN, Moshal KS, Roder K, Baggett BC, Kabakov AY, Dhakal S, Teramoto R, Chiang DY, Zhong M, Xie A, Lu Y, Dudley SC Jr, MacRae CA, Karma A, and Koren G

Subjects

Action Potentials, Animals, Genome-Wide Association Study, Humans, Myocytes, Cardiac cytology, NAV1.5 Voltage-Gated Sodium Channel genetics, Nedd4 Ubiquitin Protein Ligases genetics, Nuclear Proteins genetics, Protein Binding, Protein Transport, Rabbits, Transcription Factors genetics, Ubiquitination, Zebrafish, Endosomes metabolism, Myocytes, Cardiac metabolism, NAV1.5 Voltage-Gated Sodium Channel metabolism, Nedd4 Ubiquitin Protein Ligases metabolism, Nuclear Proteins metabolism, Transcription Factors metabolism, Ubiquitin metabolism

Abstract

The QT interval is a recording of cardiac electrical activity. Previous genome-wide association studies identified genetic variants that modify the QT interval upstream of LITAF (lipopolysaccharide-induced tumor necrosis factor-α factor), a protein encoding a regulator of endosomal trafficking. However, it was not clear how LITAF might impact cardiac excitation. We investigated the effect of LITAF on the voltage-gated sodium channel Nav1.5, which is critical for cardiac depolarization. We show that overexpressed LITAF resulted in a significant increase in the density of Nav1.5-generated voltage-gated sodium current I Na and Nav1.5 surface protein levels in rabbit cardiomyocytes and in HEK cells stably expressing Nav1.5. Proximity ligation assays showed co-localization of endogenous LITAF and Nav1.5 in cardiomyocytes, whereas co-immunoprecipitations confirmed they are in the same complex when overexpressed in HEK cells. In vitro data suggest that LITAF interacts with the ubiquitin ligase NEDD4-2, a regulator of Nav1.5. LITAF overexpression down-regulated NEDD4-2 in cardiomyocytes and HEK cells. In HEK cells, LITAF increased ubiquitination and proteasomal degradation of co-expressed NEDD4-2 and significantly blunted the negative effect of NEDD4-2 on I Na We conclude that LITAF controls cardiac excitability by promoting degradation of NEDD4-2, which is essential for removal of surface Nav1.5. LITAF-knockout zebrafish showed increased variation in and a nonsignificant 15% prolongation of action potential duration. Computer simulations using a rabbit-cardiomyocyte model demonstrated that changes in Ca 2+ and Na + homeostasis are responsible for the surprisingly modest action potential duration shortening. These computational data thus corroborate findings from several genome-wide association studies that associated LITAF with QT interval variation., Competing Interests: Conflict of interest—The authors declare that they have no conflicts of interest with the contents of this article., (© 2020 Turan et al.)

Published

2020

3. LITAF (Lipopolysaccharide-Induced Tumor Necrosis Factor) Regulates Cardiac L-Type Calcium Channels by Modulating NEDD (Neural Precursor Cell Expressed Developmentally Downregulated Protein) 4-1 Ubiquitin Ligase.

Author

Moshal KS, Roder K, Kabakov AY, Werdich AA, Chiang DY, Turan NN, Xie A, Kim TY, Cooper LL, Lu Y, Zhong M, Li W, Terentyev D, Choi BR, Karma A, MacRae CA, and Koren G

Subjects

Animals, Calcium metabolism, Calcium Channels, L-Type genetics, DNA-Binding Proteins genetics, Heart embryology, Humans, Membrane Proteins genetics, Myocytes, Cardiac enzymology, Nedd4 Ubiquitin Protein Ligases genetics, Nuclear Proteins genetics, Nuclear Proteins metabolism, Rabbits, Transcription Factors genetics, Transcription Factors metabolism, Ubiquitination, Zebrafish genetics, Zebrafish growth & development, Zebrafish Proteins genetics, Calcium Channels, L-Type metabolism, DNA-Binding Proteins metabolism, Membrane Proteins metabolism, Nedd4 Ubiquitin Protein Ligases metabolism, Zebrafish metabolism, Zebrafish Proteins metabolism

Abstract

Background: The turnover of cardiac ion channels underlying action potential duration is regulated by ubiquitination. Genome-wide association studies of QT interval identified several single-nucleotide polymorphisms located in or near genes involved in protein ubiquitination. A genetic variant upstream of LITAF (lipopolysaccharide-induced tumor necrosis factor) gene prompted us to determine its role in modulating cardiac excitation., Methods: Optical mapping was performed in zebrafish hearts to determine Ca 2+ transients. Live-cell confocal calcium imaging was performed on adult rabbit cardiomyocytes to determine intracellular Ca 2+ handling. L-type calcium channel (LTCC) current ( I Ca,L ) was measured using whole-cell recording. To study the effect of LITAF on Cav1.2 (L-type voltage-gated calcium channel 1.2) channel expression, surface biotinylation, and Westerns were performed. LITAF interactions were studied using coimmunoprecipitation and in situ proximity ligation assay., Results: LITAF knockdown in zebrafish resulted in a robust increase in calcium transients. Overexpressed LITAF in 3-week-old rabbit cardiomyocytes resulted in a decrease in I Ca,L and Cavα1c abundance, whereas LITAF knockdown increased I Ca,L and Cavα1c protein. LITAF-overexpressing decreases calcium transients in adult rabbit cardiomyocytes, which was associated with lower Cavα1c levels. In tsA201 cells, overexpressed LITAF downregulated total and surface pools of Cavα1c via increased Cavα1c ubiquitination and its subsequent lysosomal degradation. We observed colocalization between LITAF and LTCC in tsA201 and cardiomyocytes. In tsA201, NEDD ( neural precursor cell expressed developmentally downregulated protein ) 4-1, but not its catalytically inactive form NEDD4-1-C867A, increased Cavα1c ubiquitination. Cavα1c ubiquitination was further increased by coexpressed LITAF and NEDD4-1 but not NEDD4-1-C867A. NEDD4-1 knockdown abolished the negative effect of LITAF on I Ca,L and Cavα1c levels in 3-week-old rabbit cardiomyocytes. Computer simulations demonstrated that a decrease of I Ca,L current associated with LITAF overexpression simultaneously shortened action potential duration and decreased calcium transients in rabbit cardiomyocytes., Conclusions: LITAF acts as an adaptor protein promoting NEDD4-1-mediated ubiquitination and subsequent degradation of LTCC, thereby controlling LTCC membrane levels and function and thus cardiac excitation.

Published

2019

4. REC114 Partner ANKRD31 Controls Number, Timing, and Location of Meiotic DNA Breaks.

Author

Boekhout M, Karasu ME, Wang J, Acquaviva L, Pratto F, Brick K, Eng DY, Xu J, Camerini-Otero RD, Patel DJ, and Keeney S

Subjects

Animals, Cell Cycle Proteins chemistry, Cell Cycle Proteins genetics, Chromosome Pairing, Chromosome Segregation genetics, Chromosomes, Crystallography, X-Ray, DNA Breaks, Double-Stranded, Female, Male, Mice, Protein Conformation, Recombinases genetics, Spermatocytes chemistry, Spermatocytes metabolism, Cell Cycle Proteins physiology, Homologous Recombination genetics, Meiosis genetics, Recombinases chemistry

Abstract

Double-strand breaks (DSBs) initiate the homologous recombination that is crucial for meiotic chromosome pairing and segregation. Here, we unveil mouse ANKRD31 as a lynchpin governing multiple aspects of DSB formation. Spermatocytes lacking ANKRD31 have altered DSB locations and fail to target DSBs to the pseudoautosomal regions (PARs) of sex chromosomes. They also have delayed and/or fewer recombination sites but, paradoxically, more DSBs, suggesting DSB dysregulation. Unrepaired DSBs and pairing failures-stochastic on autosomes, nearly absolute on X and Y-cause meiotic arrest and sterility in males. Ankrd31-deficient females have reduced oocyte reserves. A crystal structure defines a pleckstrin homology (PH) domain in REC114 and its direct intermolecular contacts with ANKRD31. In vivo, ANKRD31 stabilizes REC114 association with the PAR and elsewhere. Our findings inform a model in which ANKRD31 is a scaffold anchoring REC114 and other factors to specific genomic locations, thereby regulating DSB formation., (Copyright © 2019 Elsevier Inc. All rights reserved.)

Published

2019

5. Brain metastasis from prostate carcinoma: antemortem recognition and outcome after treatment.

Author

McCutcheon IE, Eng DY, and Logothetis CJ

Subjects

Adenocarcinoma secondary, Adult, Aged, Brain Neoplasms diagnosis, Brain Neoplasms epidemiology, Carcinoma, Small Cell secondary, Carcinoma, Transitional Cell secondary, Diagnosis, Differential, Humans, Incidence, Male, Middle Aged, Prognosis, Retrospective Studies, Risk Factors, Survival Analysis, Time Factors, Brain Neoplasms secondary, Neoplasm Staging, Prostatic Neoplasms pathology

Abstract

Background: In patients with prostate carcinoma, brain metastasis has most commonly been reported in autopsy series. Symptomatic brain metastasis from prostate carcinoma has occasionally been detected., Methods: The authors retrospectively studied a series of 38 patients with antemortem intracerebral metastasis found on review of 7994 patients treated over an 18-year period at the University of Texas M. D. Anderson Cancer Center., Results: The mean time from diagnosis of prostate carcinoma to discovery of brain metastasis was 28 months, with a mean survival of 9.2 months after the discovery of the brain metastasis. The brain metastasis was treated only with whole brain irradiation in 29 patients, with craniotomy and irradiation in 8 patients, and with surgery alone in 1 patient. Small cell carcinomas and primary transitional cell carcinomas of the prostate were much more likely to produce brain metastasis than were adenocarcinomas. Also noted among the overall prostate carcinoma cohort was a second group of 16 patients with prostate carcinoma and brain metastasis that had developed from a second primary tumor, which in all was either lung carcinoma or melanoma., Conclusions: The occurrence of brain metastasis in prostate carcinoma patients is rare, usually signifies a late stage of the disease, and may in some patients be produced by a tandem extraprostatic tumor., (Copyright 1999 American Cancer Society.)

Published

1999

6. Craniospinal dissemination of central neurocytoma. Report of two cases.

Author

Eng DY, DeMonte F, Ginsberg L, Fuller GN, and Jaeckle K

Subjects

Adult, Antineoplastic Agents administration & dosage, Antineoplastic Agents, Alkylating administration & dosage, Antineoplastic Agents, Phytogenic administration & dosage, Antineoplastic Combined Chemotherapy Protocols therapeutic use, Cerebral Ventricle Neoplasms cerebrospinal fluid, Cerebral Ventricle Neoplasms drug therapy, Cerebral Ventricle Neoplasms surgery, Cisplatin administration & dosage, Cyclophosphamide administration & dosage, Dura Mater pathology, Etoposide administration & dosage, Female, Follow-Up Studies, Humans, Magnetic Resonance Imaging, Neoplasm Recurrence, Local pathology, Neoplasm Seeding, Neoplastic Cells, Circulating pathology, Neurocytoma cerebrospinal fluid, Neurocytoma drug therapy, Neurocytoma surgery, Septum Pellucidum pathology, Spinal Cord Neoplasms cerebrospinal fluid, Spinal Cord Neoplasms drug therapy, Cerebral Ventricle Neoplasms pathology, Neurocytoma pathology, Spinal Cord Neoplasms pathology

Abstract

Central neurocytoma was first described in the literature in 1982 and has been noted to be a benign neuronal tumor usually located in the ventricular system. Of the more than 100 reported cases, only seven recurrences have been reported, all of which have been local. The authors report two cases of recurrent central neurocytoma that disseminated through the ventricular system with seeding to the spine, as evidenced by magnetic resonance images and positive cerebrospinal fluid cytology. The histological appearance of these two tumors was typical for the lesion and lacked evidence of malignant change. Central neurocytoma may not be as benign as previously thought, and the recognition of this more malignant behavior has implications for patient follow up and therapy.

Published

1997

7. Serum glutamic pyruvic transaminase elevation following severe hypotension during halothane anesthesia in dogs.

Author

Eng DY, Heavner JE, Dong WK, Bledsoe SW, and Hornbein TF

Subjects

Anesthesia, Animals, Dogs, Hypotension chemically induced, Male, Stimulation, Chemical, Alanine Transaminase blood, Halothane adverse effects, Hypotension enzymology

Published

1980

8. Evidence of active regulation of cerebrospinal fluid acid-base balance.

Author

Bledsoe SW, Eng DY, and Hornbein TF

Subjects

Acidosis cerebrospinal fluid, Acidosis, Respiratory cerebrospinal fluid, Alkalosis cerebrospinal fluid, Alkalosis, Respiratory cerebrospinal fluid, Animals, Biological Transport, Active, Dogs, Female, Hyperkalemia cerebrospinal fluid, Male, Acid-Base Equilibrium, Cerebrospinal Fluid physiopathology

Abstract

To test the passive transport hypothesis of cerebrospinal fluid (CSF) [H+] regulation, we altered the relationship between plasma [H+] and the electrical potential difference between CSF and blood (PD) by elevating plasma [K+] during 6-h systemic acid-base disturbances. In five groups of pentobarbital-anesthetized dogs, we increased plasma [K+] from 3.5 to an average of 7.8 meq/l. Hyperkalemia produced an increase in the PD of 6.3 mV by 6 h with normal plasma acid-base status (pHa 7.4), of 8.3 mV with isocapnic metabolic acidosis (pHa 7.2), of 5.3 mV with isocapnic metabolic alkalosis (pHa 7.6), of 9.2 mV with isobicarbonate respiratory acidosis (PaCO2 61 Torr) and of 5.7 mV with isobicarbonate respiratory alkalosis (PaCO2 25 Torr). The change in CSF [H+] at 6 h in each group was the same as that observed in normokalemic animals (Am. J. Physiol. 228: 1134-1154, 1975). This result is not consistent with the passive transport hypothesis. The CSF-blood PD is therefore not an important determinant of CSF [H+] CSF [H+] homeostasis must result from some form of active transport control.

Published

1981

9. Profound arterial hypotension in dogs: brain electrical activity and organ integrity.

Author

Dong WK, Bledsoe SW, Eng DY, Heavner JE, Shaw CM, Hornbein TF, and Anderson JL

Subjects

Animals, Brain pathology, Dogs, Electroencephalography, Evoked Potentials, Auditory, Evoked Potentials, Somatosensory, Liver enzymology, Liver pathology, Male, Spinal Cord pathology, Brain physiology, Brain Ischemia etiology, Hypotension, Controlled adverse effects

Abstract

To determine whether non-invasive measurement of brain electrical activity can predict ischemic brain damage, we recorded the electroencephalogram (EEG) and somatosensory- (SEP) and auditory- (AEP) evoked potentials before, during, and after trimethaphan-induced profound arterial hypotension in dogs. The authors set out to compare the change in electrical activity with the degree of brain damage, as determined by microscopic examination. Dogs were anesthetized with halothane (1.4 vol % inspired), maintained horizontal (head at the level of the heart), and ventilated mechanically (FIO2 0.50); deviations from normal acid-base status were corrected. Twenty animals received a 1.5-mg/kg intravenous bolus of trimethaphan. Three animals were resistant to the drug. The remaining animals had profound hypotension [mean arterial blood pressure (MABP) at some steady level between 12 and 25 mmHg] for 1 h. Eight of these animals died during or soon after the hypotensive period as a consequence of cardiac arrest (three), intestinal bleeding (three) or unknown causes (two). In all survivors, EEG intensity and the amplitude of the SEP decreased during hypotension; both variables recovered with restoration of MABP. All nine animals surviving hypotension had no apparent neurologic or behavioral deficit nor any histologic evidence of ischemic brain cell injury. We were thus unable to find a MABP threshold for brain with minimal brain injury. Our findings suggest, under the conditions of our experiments, a great margin of tolerance for profound hypotension by the brain in this species. Other organ systems--the heart, gastrointestinal tract, and liver--proved to be more susceptible to ischemic damage. Eight of the nine surviving animals had elevations in serum alanine transaminase (SGPT), aspartate transaminase (SGOT), and alkaline phosphatase. Animals with the greatest increases in these enzymes showed centrilobular hepatocyte degeneration.

Published

1983

10. Ribonucleoside 2',3'-cyclic phosphate diesterase activity and cerebroside levels in vertebrate and invertebrate nerve.

Author

Drummond GI, Eng DY, and McIntosh CA

Subjects

Animals, Central Nervous System Diseases enzymology, Cerebrosides metabolism, Chromatography, Thin Layer, Crustacea, Fishes, Guinea Pigs, Mice, Mollusca, Mutation, Myelin Sheath enzymology, Ribonucleotides, Sharks, Species Specificity, Turtles, Central Nervous System enzymology, Cerebrosides analysis, Demyelinating Diseases enzymology, Encephalomyelitis, Autoimmune, Experimental enzymology, Peripheral Nerves enzymology, Phosphoric Monoester Hydrolases metabolism

Published

1971