Your search keyword '"Kodali, Vamsi"' showing total 37 results

1. Absence of lung tumor promotion with reduced tumor size in mice after inhalation of copper welding fumes.

Author

Zeidler-Erdely, Patti C, Kodali, Vamsi, Falcone, Lauryn M, Mercer, Robert, Leonard, Stephen S, Stefaniak, Aleksandr B, Grose, Lindsay, Salmen, Rebecca, Trainor-DeArmitt, Taylor, Battelli, Lori A, McKinney, Walter, Stone, Samuel, Meighan, Terence G, Betler, Ella, Friend, Sherri, Hobbie, Kristen R, Service, Samantha, Kashon, Michael, Antonini, James M, and Erdely, Aaron

Subjects

*WELDING fumes, *COPPER, *MILD steel, *LUNG tumors, *LUNG diseases

Abstract

Welding fumes are a Group 1 (carcinogenic to humans) carcinogen as classified by the International Agency for Research on Cancer. The process of welding creates inhalable fumes rich in iron (Fe) that may also contain known carcinogenic metals such as chromium (Cr) and nickel (Ni). Epidemiological evidence has shown that both mild steel (Fe-rich) and stainless steel (Fe-rich + Cr + Ni) welding fume exposure increases lung cancer risk, and experimental animal data support these findings. Copper-nickel (CuNi) welding processes have not been investigated in the context of lung cancer. Cu is intriguing, however, given the role of Cu in carcinogenesis and cancer therapeutics. This study examines the potential for a CuNi fume to induce mechanistic key characteristics of carcinogenesis in vitro and to promote lung tumorigenesis, using a two-stage mouse bioassay, in vivo. Male A/J mice, initiated with 3-methylcholanthrene (MCA; 10 µg/g), were exposed to CuNi fumes or air by whole-body inhalation for 9 weeks (low deposition-LD and high deposition-HD) and then sacrificed at 30 weeks. In BEAS-2B cells, the CuNi fume-induced micronuclei and caused DNA damage as measured by γ-H2AX. The fume exhibited high reactivity and a dose–response in cytotoxicity and oxidative stress. In vivo , MCA/CuNi HD and LD significantly decreased lung tumor size and adenomas. MCA/CuNi HD exposure significantly decreased gross-evaluated tumor number. In summary, the CuNi fume in vitro exhibited characteristics of a carcinogen, but in vivo , the exposure resulted in smaller tumors, fewer adenomas, less hyperplasia severity, and with HD exposure, less overall lung lesions/tumors. [ABSTRACT FROM AUTHOR]

Published

2024

2. Lung toxicity, deposition, and clearance of thermal spray coating particles with different metal profiles after inhalation in rats.

Author

Antonini, James M., Kodali, Vamsi, Meighan, Terence G., McKinney, Walter, Cumpston, Jared L., Leonard, Howard D., Cumpston, James B., Friend, Sherri, Leonard, Stephen S., Andrews, Ronnee, Zeidler-Erdely, Patti C., Erdely, Aaron, Lee, Eun Gyung, and Afshari, Aliakbar A.

Subjects

*METAL spraying, *LUNGS, *LIQUID metals, *COATING processes, *METALS, *SURFACE coatings, *STAINLESS steel

Abstract

Thermal spray coating is a process in which molten metal is sprayed onto a surface. Little is known about the health effects associated with these aerosols. Sprague-Dawley rats were exposed to aerosols (25 mg/m3 × 4 hr/d × 4 d) generated during thermal spray coating using different consumables [i.e. stainless-steel wire (PMET731), Ni-based wire (PMET885), Zn-based wire (PMET540)]. Control animals received air. Bronchoalveolar lavage was performed at 4 and 30 d post-exposure to assess lung toxicity. The particles were chain-like agglomerates and similar in size (310–378 nm). Inhalation of PMET885 aerosol caused a significant increase in lung injury and inflammation at both time points. Inhalation of PMET540 aerosol caused a slight but significant increase in lung toxicity at 4 but not 30 d. Exposure to PMET731 aerosol had no effect on lung toxicity. Overall, the lung responses were in the order: PMET885≫PMET540 >PMT731. Following a shorter exposure (25 mg/m3 × 4 h/d × 1d), lung burdens of metals from the different aerosols were determined by ICP-AES at 0, 1, 4 and 30 d post-exposure. Zn was cleared from the lungs at the fastest rate with complete clearance by 4 d post-exposure. Ni, Cr, and Mn had similar rates of clearance as nearly half of the deposited metal was cleared by 4 d. A small but significant percentage of each of these metals persisted in the lungs at 30 d. The pulmonary clearance of Fe was difficult to assess because of inherently high levels of Fe in control lungs. [ABSTRACT FROM AUTHOR]

Published

2023

3. Aerosol physicochemical determinants of carbon black and ozone inhalation co-exposure induced pulmonary toxicity.

Author

Majumder, Nairrita, Kodali, Vamsi, Velayutham, Murugesan, Goldsmith, Travis, Amedro, Jessica, Khramtsov, Valery V, Erdely, Aaron, Nurkiewicz, Timothy R, Harkema, Jack R, Kelley, Eric E, and Hussain, Salik

Subjects

*CARBON-black, *MICROBIOLOGICAL aerosols, *TRANSFORMING growth factors-beta, *THYMIC stromal lymphopoietin, *OZONE, *AEROSOLS, *AIR pollution

Abstract

Air pollution accounts for more than 7 million premature deaths worldwide. Using ultrafine carbon black (CB) and ozone (O3) as a model for an environmental co-exposure scenario, the dose response relationships in acute pulmonary injury and inflammation were determined by generating, characterizing, and comparing stable concentrations of CB aerosols (2.5, 5.0, 10.0 mg/m3), O3 (0.5, 1.0, 2.0 ppm) with mixture CB + O3 (2.5 + 0.5, 5.0 + 1.0, 10.0 + 2.0). C57BL6 male mice were exposed for 3 h by whole body inhalation and acute toxicity determined after 24 h. CB itself did not cause any alteration, however, a dose response in pulmonary injury/inflammation was observed with O3 and CB + O3. This increase in response with mixtures was not dependent on the uptake but was due to enhanced reactivity of the particles. Benchmark dose modeling showed several-fold increase in potency with CB + O3 compared with CB or O3 alone. Principal component analysis provided insight into response relationships between various doses and treatments. There was a significant correlation in lung responses with charge-based size distribution, total/alveolar deposition, oxidant generation, and antioxidant depletion potential. Lung tissue gene/protein response demonstrated distinct patterns that are better predicted by either particle dose/aerosol responses (interleukin-1β, keratinocyte chemoattractant, transforming growth factor beta) or particle reactivity (thymic stromal lymphopoietin, interleukin-13, interleukin-6). Hierarchical clustering showed a distinct signature with high dose and a similarity in mRNA expression pattern of low and medium doses of CB + O3. In conclusion, we demonstrate that the biological outcomes from CB + O3 co-exposure are significantly greater than individual exposures over a range of aerosol concentrations and aerosol characteristics can predict biological outcome. [ABSTRACT FROM AUTHOR]

Published

2023

4. In vivo and in vitro toxicity of a stainless-steel aerosol generated during thermal spray coating.

Author

Kodali, Vamsi, Afshari, Aliakbar, Meighan, Terence, McKinney, Walter, Mazumder, Md Habibul Hasan, Majumder, Nairrita, Cumpston, Jared L., Leonard, Howard D., Cumpston, James B., Friend, Sherri, Leonard, Stephen S., Erdely, Aaron, Zeidler-Erdely, Patti C., Hussain, Salik, Lee, Eun Gyung, and Antonini, James M.

Subjects

*STAINLESS steel welding, *METAL spraying, *MANUFACTURING processes, *PROTECTIVE coatings, *AEROSOLS, *WELDING fumes, *ELECTRON paramagnetic resonance

Abstract

Thermal spray coating is an industrial process in which molten metal is sprayed at high velocity onto a surface as a protective coating. An automated electric arc wire thermal spray coating aerosol generator and inhalation exposure system was developed to simulate an occupational exposure and, using this system, male Sprague–Dawley rats were exposed to stainless steel PMET720 aerosols at 25 mg/m3 × 4 h/day × 9 day. Lung injury, inflammation, and cytokine alteration were determined. Resolution was assessed by evaluating these parameters at 1, 7, 14 and 28 d after exposure. The aerosols generated were also collected and characterized. Macrophages were exposed in vitro over a wide dose range (0–200 µg/ml) to determine cytotoxicity and to screen for known mechanisms of toxicity. Welding fumes were used as comparative particulate controls. In vivo lung damage, inflammation and alteration in cytokines were observed 1 day post exposure and this response resolved by day 7. Alveolar macrophages retained the particulates even after 28 day post-exposure. In line with the pulmonary toxicity findings, in vitro cytotoxicity and membrane damage in macrophages were observed only at the higher doses. Electron paramagnetic resonance showed in an acellular environment the particulate generated free radicals and a dose-dependent increase in intracellular oxidative stress and NF-kB/AP-1 activity was observed. PMET720 particles were internalized via clathrin and caveolar mediated endocytosis as well as actin-dependent pinocytosis/phagocytosis. The results suggest that compared to stainless steel welding fumes, the PMET 720 aerosols were not as overtly toxic, and the animals recovered from the acute pulmonary injury by 7 days. [ABSTRACT FROM AUTHOR]

Published

2022

5. Bioactivity of Circulatory Factors After Pulmonary Exposure to Mild or Stainless Steel Welding Fumes.

Author

Kodali, Vamsi, Shoeb, Mohammad, Meighan, Terence G, Eye, Tracy, Friend, Sherri A, Hubczak, John, Kashon, Michael L, Zeidler-Erdely, Patti C, Antonini, James M, and Erdely, Aaron

Subjects

*STAINLESS steel welding, *WELDING fumes, *GAS metal arc welding, *MILD steel, *STAINLESS steel, *SPRAGUE Dawley rats, *ELECTRIC welding

Abstract

Studies suggest that alterations in circulating factors are a driver of pulmonary-induced cardiovascular dysfunction. To evaluate, if circulating factors effect endothelial function after a pulmonary exposure to welding fumes, an exposure known to induce cardiovascular dysfunction, serum collected from Sprague Dawley rats 24 h after an intratracheal instillation exposure to 2 mg/rat of 2 compositionally distinct metal-rich welding fume particulates (manual metal arc welding using stainless steel electrodes [MMA-SS] or gas metal arc welding using mild steel electrodes [GMA-MS]) or saline was used to test molecular and functional effects of in vitro cultures of primary cardiac microvascular endothelial cells (PCMEs) or ex vivo organ cultures. The welding fumes elicited significant pulmonary injury and inflammation with only minor changes in measured serum antioxidant and cytokine levels. PCME cells were challenged for 4 h with serum collected from exposed rats, and 84 genes related to endothelial function were analyzed. Changes in relative mRNA patterns indicated that serum from rats exposed to MMA-SS, and not GMA-MS or PBS, could influence several functional aspects related to endothelial cells, including cell migration, angiogenesis, inflammation, and vascular function. The predictions were confirmed using a functional in vitro assay (scratch assay) as well as an ex vivo multicellular environment (aortic ring angiogenesis assay), validating the concept that endothelial cells can be used as an effective screening tool of exposed workers for determining bioactivity of altered circulatory factors. Overall, the results indicate that pulmonary MMA-SS fume exposure can cause altered endothelial function systemically via altered circulating factors. [ABSTRACT FROM AUTHOR]

Published

2020

6. Effect of a High-Fat Diet and Occupational Exposure in Different Rat Strains on Lung and Systemic Responses: Examination of the Exposome in an Animal Model.

Author

Antonini, James M, Kodali, Vamsi, Shoeb, Mohammad, Kashon, Michael, Roach, Katherine A, Boyce, Gregory, Meighan, Terence, Stone, Samuel, McKinney, Walter, Boots, Theresa, Roberts, Jenny R, Zeidler-Erdely, Patti C, and Erdely, Aaron

Subjects

*HIGH-fat diet, *ENVIRONMENTAL exposure, *STAINLESS steel welding, *WELDING fumes, *ANIMAL models in research

Abstract

The exposome is the measure of all exposures of an individual in a lifetime and how those exposures relate to health. The goal was to examine an experimental model integrating multiple aspects of the exposome by collecting biological samples during critical life stages of an exposed animal that are applicable to worker populations. Genetic contributions were assessed using strains of male rats with different genetic backgrounds (Fischer-344, Sprague Dawley, and Brown-Norway) maintained on a regular or high-fat diet for 24 weeks. At week 7 during diet maintenance, groups of rats from each strain were exposed to stainless steel welding fume (WF; 20 mg/m3 × 3 h/d × 4 days/week × 5 weeks) or air until week 12, at which time some animals were euthanized. A separate set of rats from each strain were allowed to recover from WF exposure until the end of the 24-week period. Bronchoalveolar lavage fluid and serum were collected at 7, 12, and 24 weeks to assess general health indices. Depending on animal strain, WF exposure and high-fat diet together worsened kidney toxicity as well as altered different serum enzymes and proteins. Diet had minimal interaction with WF exposure for pulmonary toxicity endpoints. Experimental factors of diet, exposure, and strain were all important, depending on the health outcome measured. Exposure had the most significant influence related to pulmonary responses. Strain was the most significant contributor regarding the other health indices examined, indicating that genetic differences possibly drive the exposome effect in each strain. [ABSTRACT FROM AUTHOR]

Published

2020

7. Respirable Uranyl-Vanadate-Containing Particulate Matter Derived From a Legacy Uranium Mine Site Exhibits Potentiated Cardiopulmonary Toxicity.

Author

Zychowski, Katherine E, Kodali, Vamsi, Harmon, Molly, Tyler, Christina R, Sanchez, Bethany, Suarez, Yoselin Ordonez, Herbert, Guy, Wheeler, Abigail, Avasarala, Sumant, and Cerrato, José M

Subjects

*URANYL compounds, *VANADATES, *PARTICULATE matter, *TOXICITY testing, *LABORATORY mice

Abstract

Exposure to windblown particulate matter (PM) arising from legacy uranium (U) mine sites in the Navajo Nation may pose a human health hazard due to their potentially high metal content, including U and vanadium (V). To assess the toxic impact of PM derived from Claim 28 (a priority U mine) compared with background PM, and consider the putative role of metal species U and V. Two representative sediment samples from Navajo Nation sites (Background PM and Claim 28 PM) were obtained, characterized in terms of chemistry and morphology, and fractioned to the respirable (< 10 µm) fraction. Mice were dosed with either PM sample, uranyl acetate, or vanadyl sulfate via aspiration (100 µg), with assessments of pulmonary and vascular toxicity 24 h later. Particulate matter samples were also examined for in uitro effects on cytotoxicity, oxidative stress, phagocytosis, and inflammasome induction. Claim 28 PM10 was highly enriched with U and V and exhibited a unique nanoparticle ultrastructure compared with background PM10. Claim 28 PM10 exhibited enhanced pulmonary and vascular toxicity relative to background PM10. Both U and V exhibited complementary pulmonary inflammatory potential, with U driving a classical inflammatory cytokine profile (elevated interleukin [IL]-1β, tumor necrosis factor-α, and keratinocyte chemoattractant/human growth-regulated oncogene) while V preferentially induced a different cytokine pattern (elevated IL-5, IL-6, and IL-10). Claim 28 PM10 was more potent than background PM10 in terms of in uitro cytotoxicity, impairment of phagocytosis, and oxidative stress responses. Resuspended PM10 derived from U mine waste exhibit greater cardiopulmonary toxicity than background dusts. Rigorous exposure assessment is needed to gauge the regional health risks imparted by these unremediated sites. [ABSTRACT FROM AUTHOR]

Published

2018

8. Acute in vitro and in vivo toxicity of a commercial grade boron nitride nanotube mixture.

Author

Kodali, Vamsi K., Roberts, Jenny R., Shoeb, Mohammad, Wolfarth, Michael G., Bishop, Lindsey, Eye, Tracy, Barger, Mark, Roach, Katherine A., Friend, Sherri, Schwegler-Berry, Diane, Chen, Bean T., Stefaniak, Aleksandr, Jordan, Kevin C., Whitney, Roy R., Porter, Dale W., and Erdely, Aaron D.

Subjects

*BORON nitride, *NANOTUBES, *MULTIWALLED carbon nanotubes, *MONOCYTES, *INTERLEUKIN-18

Abstract

Boron nitride nanotubes (BNNTs) are an emerging engineered nanomaterial attracting significant attention due to superior electrical, chemical and thermal properties. Currently, the toxicity profile of this material is largely unknown. Commercial grade BNNTs are composed of a mixture (BNNT-M) of ∼50–60% BNNTs, and ∼40–50% impurities of boron and hexagonal boron nitride. We performed acutein vitroandin vivostudies with commercial grade BNNT-M, dispersed by sonication in vehicle, in comparison to the extensively studied multiwalled carbon nanotube-7 (MWCNT-7). THP-1 wild-type and NLRP3-deficient human monocytic cells were exposed to 0–100 µg/ml and C57BL/6 J male mice were treated with 40 µg of BNNT-M forin vitroandin vivostudies, respectively.In vitro, BNNT-M induced a dose-dependent increase in cytotoxicity and oxidative stress. This was confirmedin vivofollowing acute exposure increase in bronchoalveolar lavage levels of lactate dehydrogenase, pulmonary polymorphonuclear cell influx, loss in mitochondrial membrane potential and augmented levels of 4-hydroxynonenal. Uptake of this material caused lysosomal destabilization, pyroptosis and inflammasome activation, corroborated by an increase in cathepsin B, caspase 1, increased protein levels of IL-1β and IL-18 bothin vitroandin vivo. Attenuation of these effects in NLRP3-deficient THP-1 cells confirmed NLRP3-dependent inflammasome activation by BNNT-M. BNNT-M induced a similar profile of inflammatory pulmonary protein production when compared to MWCNT-7. Functionally, pretreatment with BNNT-M caused suppression in bacterial uptake by THP-1 cells, an effect that was mirrored in challenged alveolar macrophages collected from exposed mice and attenuated with NLRP3 deficiency. Analysis of cytokines secreted by LPS-challenged alveolar macrophages collected afterin vivoexposure to dispersions of BNNT-M showed a differential macrophage response. The observed results demonstrated acute inflammation and toxicityin vitroandin vivofollowing exposure to sonicated BNNT-M was in part due to NLRP3 inflammasome activation. [ABSTRACT FROM PUBLISHER]

Published

2017

9. Evaluation of the molecular mechanisms associated with cytotoxicity and inflammation after pulmonary exposure to different metal-rich welding particles.

Author

Shoeb, Mohammad, Kodali, Vamsi, Farris, Breanne, Bishop, Lindsey M., Meighan, Terence, Salmen, Rebecca, Eye, Tracy, Roberts, Jenny R., Zeidler-Erdely, Patti, Erdely, Aaron, and Antonini, James M.

Subjects

*WELDING, *CELL-mediated cytotoxicity, *LUNG diseases, *ENVIRONMENTAL exposure, *HEME oxygenase

Abstract

Welding generates a complex aerosol of incidental nanoparticles and cytotoxic metals, such as chromium (Cr), manganese (Mn), nickel (Ni), and iron (Fe). The goal was to use bothin vivoandin vitromethodologies to determine the mechanisms by which different welding fumes may damage the lungs. Sprague-Dawley rats were treated by intratracheal instillation (ITI) with 2.0 mg of gas metal arc-mild steel (GMA-MS) or manual metal arc-stainless steel (MMA-SS) fumes or saline (vehicle control). At 1, 3, and 10 days, bronchoalveolar lavage (BAL) was performed to measure lung toxicity. To assess molecular mechanisms of cytotoxicity, RAW264.7 cells were exposed to both welding fumes for 24 h (0–100 μg/ml). Fume composition was different: MMA-SS (41% Fe, 29% Cr, 17% Mn, 3% Ni) versus GMA-MS (85% Fe, 14% Mn). BAL indicators of lung injury and inflammation were increased by MMA-SS at all time points and by GMA-MS at 3 and 10 days after exposure. RAW264.7 cells exposed to MMA-SS had elevated generation of reactive oxygen species (ROS), protein-HNE (P-HNE) adduct formation, activation of ERK1/2, and expression of cyclooxygenase-2 (COX-2) compared to GMA-MS and control. Increased generation of ROS due to MMA-SS exposure was confirmed by increased expression of Nrf2 and heme oxygenase-1 (HO-1). Results ofin vitrostudies provide evidence that stainless steel welding fume mediate inflammatory responses via activation of ROS/P-HNE/ERK1/2/Nrf2 signaling pathways. These findings were corroborated by elevated expression of COX-2, Nrf2, and HO-1 in homogenized lung tissue collected 1 day afterin vivoexposure. [ABSTRACT FROM PUBLISHER]

Published

2017

10. Iron oxide nanoparticle agglomeration influences dose rates and modulates oxidative stress-mediated dose-response profiles in vitro.

Author

Sharma, Gaurav, Kodali, Vamsi, Gaffrey, Matthew, Wang, Wei, Minard, Kevin R., Karin, Norman J., Teeguarden, Justin G., and Thrall, Brian D.

Subjects

*OXIDATIVE stress, *GENETIC regulation, *DRUG dosage, *FERRIC oxide, *CELL culture

Abstract

Spontaneous agglomeration of engineered nanoparticles (ENPs) is a common problem in cell culture media which can confound interpretation of in vitro nanotoxicity studies. The authors created stable agglomerates of iron oxide nanoparticles (IONPs) in conventional culture medium, which varied in hydrodynamic size (276 nm-1.5 μm) but were composed of identical primary particles with similar surface potentials and protein coatings. Studies using C10 lung epithelial cells show that the dose rate effects of agglomeration can be substantial, varying by over an order of magnitude difference in cellular dose in some cases. Quantification by magnetic particle detection showed that small agglomerates of carboxylated IONPs induced greater cytotoxicity and redox-regulated gene expression when compared with large agglomerates on an equivalent total cellular IONP mass dose basis, whereas agglomerates of amine-modified IONPs failed to induce cytotoxicity or redox-regulated gene expression despite delivery of similar cellular doses. Dosimetry modelling and experimental measurements reveal that on a delivered surface area basis, large and small agglomerates of carboxylated IONPs have similar inherent potency for the generation of ROS, induction of stress-related genes and eventual cytotoxicity. The results suggest that reactive moieties on the agglomerate surface are more efficient in catalysing cellular ROS production than molecules buried within the agglomerate core. Because of the dynamic, size and density-dependent nature of ENP delivery to cells in vitro, the biological consequences of agglomeration are not discernible from static measures of exposure concentration (μg/ml) alone, highlighting the central importance of integrated physical characterisation and quantitative dosimetry for in vitro studies. The combined experimental and computational approach provides a quantitative framework for evaluating relationships between the biocompatibility of nanoparticles and their physical and chemical characteristics. [ABSTRACT FROM AUTHOR]

Published

2014

11. Going through the Barrier.

Author

Israel, Benjamin A., Kodali, Vamsi K., and Thorpe, Colin

Subjects

*THIOLS, *HYDROGEN peroxide, *TRYPANOSOMA brucei, *PROTEIN folding, *ENZYMES

Abstract

The quiescin sulfhydryl oxidase (QSOX) family of enzymes generates disulfide bonds in peptides and proteins with the reduction of oxygen to hydrogen peroxide. Determination of the potentials of the redox centers in Trypanosoma brucei QSOX provides a context for understanding catalysis by this facile oxidant of protein thiols. The CXXC motif of the thioredoxin domain is comparatively oxidizing (E'0 of -144 mV), consistent with an ability to transfer disulfide bonds to a broad range of thiol substrates. In contrast, the proximal CXXC disulfide in the ERV (essential for respiration and vegetative growth) domain of TbQSOX is strongly reducing (E'0 of -273 mV), representing a major apparent thermodynamic barrier to overall catalysis. Reduction of the oxidizing FAD cofactor (E'0 of -153 mV) is followed by the strongly favorable reduction of molecular oxygen. The role of a mixed disulfide intermediate between thioredoxin and ERV domains was highlighted by rapid reaction studies in which the wild-type CGAC motif in the thioredoxin domain of TbQSOX was replaced by the more oxidizing CPHC or more reducing CGPC sequence. Mixed disulfide bond formation is accompanied by the generation of a charge transfer complex with the flavin cofactor. This provides thermodynamic coupling among the three redox centers of QSOX and avoids the strongly uphill mismatch between the formal potentials of the thioredoxin and ERV disulfides. This work identifies intriguing mechanistic parallels between the eukaryotic QSOX enzymes and the DsbA/B system catalyzing disulfide bond generation in the bacterial periplasm and suggests that the strategy of linked disulfide exchanges may be exploited in other catalysts of oxidative protein folding. [ABSTRACT FROM AUTHOR]

Published

2014

12. A Novel Disulfide-Rich Protein Motif from Avian Eggshell Membranes.

Author

Kodali, Vamsi K., Gannon, Shawn A., Paramasivam, Sivakumar, Raje, Sonali, Polenova, Tatyana, and Thorpe, Colin

Subjects

*OVIDUCT diseases, *EGGSHELLS, *PRIONS, *LYSINE, *PROTEOLYTIC enzymes, *DIGESTION

Abstract

Under the shell of a chicken egg are two opposed proteinaceous disulfide-rich membranes. They are fabricated in the avian oviduct using fibers formed from proteins that are extensively coupled by irreversible lysine-derived crosslinks. The intractability of these eggshell membranes (ESM) has slowed their characterization and their protein composition remains uncertain. In this work, reductive alkylation of ESM followed by proteolytic digestion led to the identification of a cysteine rich ESM protein (abbreviated CREMP) that was similar to spore coat protein SP75 from cellular slime molds. Analysis of the cysteine repeats in partial sequences of CREMP reveals runs of remarkably repetitive patterns. Module a contains a C-X4-CX5- C-X8-C-X6 pattern (where X represents intervening non-cysteine residues). These inter-cysteine amino acid residues are also strikingly conserved. The evolutionarily-related module b has the same cysteine spacing as a, but has 11 amino acid residues at its C-terminus. Different stretches of CREMP sequences in chicken genomic DNA fragments show diverse repeat patterns: e.g. all a modules; an alternation of a-b modules; or an a-b-b arrangement. Comparable CREMP proteins are found in contigs of the zebra finch (Taeniopygia guttata) and in the oviparous green anole lizard (Anolis carolinensis). In all these cases the long runs of highly conserved modular repeats have evidently led to difficulties in the assembly of full length DNA sequences. Hence the number, and the amino acid lengths, of CREMP proteins are currently unknown. A 118 amino acid fragment (representing an a-b-a-b pattern) from a chicken oviduct EST library expressed in Escherichia coli is a well folded, highly anisotropic, protein with a large chemical shift dispersion in 2D solution NMR spectra. Structure is completely lost on reduction of the 8 disulfide bonds of this protein fragment. Finally, solid state NMR spectra suggest a surprising degree of order in intact ESM fibers. [ABSTRACT FROM AUTHOR]

Published

2011

13. Quiescin Sulfhydryl Oxidase from Trypanosoma brucei: Catalytic Activity and Mechanism of a QSOX Family Member with a Single Thioredoxin Domain.

Author

Kodali, Vamsi K. and Thorpe, Colin

Subjects

*OXIDASES, *FLAVOPROTEINS, *PROTEINS, *TRYPANOSOMA brucei, *THIOLS

Abstract

Quiescin sulfhydryl oxidase (QSOX) flavoenzymes catalyze the direct, facile, insertion of disulfide bonds into reduced unfolded proteins with the reduction of oxygen to hydrogen peroxide. To date, only QSOXs from vertebrates have been characterized enzymatically. These metazoan sulfhydryl oxidases have four recognizable domains: a redox-active thioredoxin (Trx) domain containing the first of three CxxC motifs (CI-CII), a second Trx domain with no obvious redox-active disulfide, a helix-rich domain, and then an Erv/ ALR domain. This last domain contains the FAD moiety, a proximal CIII-CIV disulfide, and a third CxxC of unknown function (CV-CVI). Plant and protist QSOXs lack the second Trx domain but otherwise appear to contain the same complement of redox centers. This work presents the first characterization of a single-Trx QSOX. Trypanosoma brucei QSOX was expressed in Echerichia coli using a synthetic gene and found to be a stable, monomeric, FAD-containing protein. Although evidently lacking an entire domain, TbQSOX shows catalytic activity and substrate specificity similar to the vertebrate QSOXs examined previously. Unfolded reduced proteins are more than 200-fold more effective substrates on a per thiol basis than glutathione and some 10-fold better than the parasite bisglutathione analogue, trypanothione. These data are consistent with a role for the protist QSOX in oxidative protein folding. Site-directed mutagenesis of each of the six cysteine residues (to serines) shows that the CxxC motif in the single-Trx domain is crucial for efficient catalysis of the oxidation of both reduced RNase and the model substrate dithiothreitol. As expected, the proximal disulfide CIII CIV, which interacts with the flavin, is catalytically crucial. However, as observed with human QSOX1, the third CxxC motif shows no obvious catalytic role during the in vitro oxidation of reduced RNase or dithiothreitol. Pre-steady-state kinetics demonstrates that turnover in TbQSOX is limited by an internal redox step leading to 2-electron reduction of the FAD cofactor. In sum, the single-Trx domain QSOX studied here shows a striking similarity in enzymatic behavior to its double-Trx metazoan counterparts. [ABSTRACT FROM AUTHOR]

Published

2010

14. Lung toxicity profile of inhaled copper-nickel welding fume in A/J mice.

Author

Zeidler-Erdely, Patti C., Erdely, Aaron, Kodali, Vamsi, Andrews, Ronnee, Antonini, James, Trainor-DeArmitt, Taylor, Salmen, Rebecca, Battelli, Lori, Grose, Lindsay, Kashon, Michael, Service, Samantha, McKinney, Walter, Stone, Samuel, and Falcone, Lauryn

Subjects

*LUNGS, *WELDING fumes, *MICE, *STAINLESS steel welding, *GAS metal arc welding, *WEIGHT loss, *HEAVY metals

Abstract

Objective: Stainless steel welding creates fumes rich in carcinogenic metals such as chromium (Cr). Welding consumables devoid of Cr are being produced in an attempt to limit worker exposures to toxic and carcinogenic metals. The study objective was to characterize a copper-nickel (Cu-Ni) fume generated using gas metal arc welding (GMAW) and determine the pulmonary deposition and toxicity of the fume in mice exposed by inhalation. Materials and Methods: Male A/J mice (6–8 weeks of age) were exposed to air or Cu-Ni welding fumes for 2 (low deposition) or 4 (high deposition) hours/day for 10 days. Mice were sacrificed, and bronchoalveolar lavage (BAL), macrophage function, and histopathological analyses were performed at different timepoints post-exposure to evaluate resolution. Results and Discussion: Characterization of the fume indicated that most of the particles were between 0.1 and 1 µm in diameter, with a mass median aerodynamic diameter of 0.43 µm. Metal content of the fume was Cu (∼76%) and Ni (∼12%). Post-exposure, BAL macrophages had a reduced ability to phagocytose E. coli, and lung cytotoxicity was evident and significant (>12%–19% fold change). Loss of body weight was also significant at the early timepoints. Lung inflammation, the predominant finding identified by histopathology, was observed as a subacute response early that progressively resolved by 28 days with only macrophage aggregates remaining late (84 days). Conclusions: Overall, there was high acute lung toxicity with a resolution of the response in mice which suggests that the Cu-Ni fume may not be ideal for reducing toxic and inflammatory lung effects. [ABSTRACT FROM AUTHOR]

Published

2022

15. TERT-independent telomere elongation and shelterin dysregulation after pulmonary exposure to stainless-steel welding fume in-vivo.

Author

Shoeb, Mohammad, Meighan, Terence, Kodali, Vamsi K., Abadin, Henry, Faroon, Obaid, Zarus, Gregory M., Erdely, Aaron, and Antonini, James M.

Subjects

*TELOMERES, *WELDING fumes, *STAINLESS steel welding, *POISONOUS gases, *TELOMERASE reverse transcriptase, *MONONUCLEAR leukocytes

Abstract

Telomeres are inert DNA sequences (TTAGGG) at the end of chromosomes that protect genetic information and maintain DNA integrity. Emerging evidence has demonstrated that telomere alteration can be closely related to occupational exposure and the development of various disease conditions, including cancer. However, the functions and underlying molecular mechanisms of telomere alteration and shelterin dysregulation after welding fume exposures have not been broadly defined. In this study, we analyzed telomere length and shelterin complex proteins in peripheral blood mononuclear cells (PBMCs) and in lung tissue recovered from male Sprague-Dawley rats following exposure by intratracheal instillation (ITI) to 2 mg/rat of manual metal arc-stainless steel (MMA-SS) welding fume particulate or saline (vehicle control). PBMCs and lung tissue were harvested at 30 d after instillation. Our study identified telomere elongation and shelterin dysregulation in PBMCs and lung tissue after welding fume exposure. Mechanistically, telomere elongation was independent of telomerase reverse transcriptase (TERT) activation. Collectively, our findings demonstrated that welding fume-induced telomere elongation was (a) TERT-independent and (b) associated with shelterin complex dysregulation. It is possible that an alteration of telomere length and its regulatory proteins may be utilized as predictive biomarkers for various disease conditions after welding fume exposure. This needs further investigation. • Welding fumes are a complex mixture of different cytotoxic and genotoxic metals known to cause genotoxic effects. • Epidemiology studies indicate that welders are likely more susceptible to developing lung cancer than the general population. • Our findings suggest that telomere elongation after pulmonary exposure to stainless steel welding fume could be due to initiation of dysfunctional shelterin complex, but not TERT expression, in both PBMCs and lung tissue. [ABSTRACT FROM AUTHOR]

Published

2024

16. Effect of Age, High-Fat Diet, and Rat Strain on Serum Biomarkers and Telomere Length and Global DNA Methylation in Peripheral Blood Mononuclear Cells.

Author

Antonini, James M., Kodali, Vamsi, Meighan, Terence G., Roach, Katherine A., Roberts, Jenny R., Salmen, Rebecca, Boyce, Greg R., Zeidler-Erdely, Patti C., Kashon, Michael, Erdely, Aaron, and Shoeb, Mohammad

Abstract

The objective of the current study was to determine if age, diet, and genetic disposition (animal strain) in an animal model had early effects on specific molecular markers in circulating peripheral blood mononuclear cells (PBMCs). Three strains [Sprague-Dawley (SD), Fischer 344 (F344), and Brown-Norway (BN)] of male rats were maintained on a high-fat (HF) or regular diet. Blood was collected at 4, 12, and 24 wk to assess chemistry and to recover PBMCs. Triglycerides and body weight gain increased at all time points in the HF diet group for each strain. Telomere length in PBMCs decreased in the HF diet group compared to the regular diet group up to 24 wk in all strains. Telomere length decreased in PBMCs at 24 wk compared to baseline in all strains, indicating an age-related effect. These findings highlight that diet and age cause changes in PBMCs recovered from different strains of rats. The next tier of studies will examine the contribution of an occupational exposure (e.g., welding fume inhalation) in combination with diet, age, and strain, to assess changes in the molecular responses of isolated PBMCs. In addition, studies involving lifestyle exposure (e.g., tobacco smoke) are in the planning stages and will assess the long-term effects of exposure in our animal model. [ABSTRACT FROM AUTHOR]

Published

2019

17. The NCBI Comparative Genome Viewer (CGV) is an interactive visualization tool for the analysis of whole-genome eukaryotic alignments.

Author

Rangwala, Sanjida H., Rudnev, Dmitry V., Ananiev, Victor V., Oh, Dong-Ha, Asztalos, Andrea, Benica, Barrett, Borodin, Evgeny A., Bouk, Nathan, Evgeniev, Vladislav I., Kodali, Vamsi K., Lotov, Vadim, Mozes, Eyal, Omelchenko, Marina V., Savkina, Sofya, Sukharnikov, Ekaterina, Virothaisakun, Joël, Murphy, Terence D., Pruitt, Kim D., and Schneider, Valerie A.

Subjects

*DATA visualization, *MULTIPLE comparisons (Statistics), *CHROMOSOMES, *RESEARCH personnel, *SCIENTIFIC community, *GENOMES

Abstract

We report a new visualization tool for analysis of whole-genome assembly-assembly alignments, the Comparative Genome Viewer (CGV) (https://ncbi.nlm.nih.gov/genome/cgv/). CGV visualizes pairwise same-species and cross-species alignments provided by National Center for Biotechnology Information (NCBI) using assembly alignment algorithms developed by us and others. Researchers can examine large structural differences spanning chromosomes, such as inversions or translocations. Users can also navigate to regions of interest, where they can detect and analyze smaller-scale deletions and rearrangements within specific chromosome or gene regions. RefSeq or user-provided gene annotation is displayed where available. CGV currently provides approximately 800 alignments from over 350 animal, plant, and fungal species. CGV and related NCBI viewers are undergoing active development to further meet needs of the research community in comparative genome visualization. Commonly used genome browsers only show one genome assembly at a time and cannot show comparisons between multiple genomes. This study develops a new visualization tool called the Comparative Genome Viewer (CGV) that aids in the pairwise comparison of whole-genome eukaryotic assembly-assembly alignments. [ABSTRACT FROM AUTHOR]

Published

2024

18. Using liquid chromatography mass spectrometry (LC-MS) to assess the effect of age, high-fat diet, and rat strain on the liver metabolome.

Author

Boyce, Greg, Shoeb, Mohammad, Kodali, Vamsi, Meighan, Terence, Roberts, Jenny R., Erdely, Aaron, Kashon, Michael, and Antonini, James M.

Subjects

*HIGH-fat diet, *MASS spectrometry, *LIQUID chromatography, *RATTUS norvegicus, *PRINCIPAL components analysis

Abstract

The goal of this study was to use liquid chromatography mass spectrometry to assess metabolic changes of two different diets in three distinct rat strains. Sprague-Dawley, Fischer 344, and Brown-Norway male rats were maintained on a high-fat, or regular diet for 24 weeks. Liver tissue was collected at 4, 12, and 24 weeks to assess global small molecule metabolite changes using high resolution accurate mass spectrometry coupled to ultra-high-performance liquid chromatography. The results of the global metabolomics analysis revealed significant changes based on both age and diet within all three strains. Principal component analysis revealed that the influence of diet caused a greater variation in significantly changing metabolites than that of age for the Brown Norway and Fisher 344 strains, whereas diet had the greatest influence in the Sprague Dawley strain only at the 4-week time point. As expected, metabolites involved in lipid metabolism were changed in the animals maintained on a high fat diet compared to the regular diet. There were also significant changes observed in the concentration of Tri carboxylic acid cycle intermediates that were extracted from the liver of all three strains based on diet. The results of this study showed that a high fat diet caused significant liver and metabolic changes compared to a regular diet in multiple rat strains. The inbred Fisher 344 and Brown Norway rats were more metabolically sensitive to the diet changes than outbred Sprague Dawley strain. The study also showed that age, as was the case for Sprague Dawley, is an important variable to consider when assessing metabolic changes. [ABSTRACT FROM AUTHOR]

Published

2020

19. Sparse Supervised Classification Methods Predict and Characterize Nanomaterial Exposures: Independent Markers of MWCNT Exposures.

Author

Yanamala, Naveena, Orandle, Marlene S., Kodali, Vamsi K., Bishop, Lindsey, Zeidler-Erdely, Patti C., Roberts, Jenny R., Castranova, Vincent, and Erdely, Aaron

Subjects

*CARBON nanotubes, *FIBROSIS

Abstract

Recent experimental evidence indicates significant pulmonary toxicity of multiwalled carbon nanotubes (MWCNTs), such as inflammation, interstitial fibrosis, granuloma formation, and carcinogenicity. Although numerous studies explored the adverse potential of various CNTs, their comparability is often limited. This is due to differences in administered dose, physicochemical characteristics, exposure methods, and end points monitored. Here, we addressed the problem through sparse classification method, a supervised machine learning approach that can reduce the noise contained in redundant variables for discriminating among MWCNT-exposed and MWCNT-unexposed groups. A panel of proteins measured from bronchoalveolar lavage fluid (BAL) samples was used to predict exposure to various MWCNT and determine markers that are attributable to MWCNT exposure and toxicity in mice. Using sparse support vector machine–based classification technique, we identified a small subset of proteins clearly distinguishing each exposure. Macrophage-derived chemokine (MDC/CCL22), in particular, was associated with various MWCNT exposures and was independent of exposure method employed, that is, oropharyngeal aspiration versus inhalation exposure. Sustained expression of some of the selected protein markers identified also suggests their potential role in MWCNT-induced toxicity and proposes hypotheses for future mechanistic studies. Such approaches can be used more broadly for nanomaterial risk profiling studies to evaluate decisions related to dose/time–response relationships that could delineate experimental variables from exposure markers. [ABSTRACT FROM AUTHOR]

Published

2018

20. Generating disulfides with the Quiescin-sulfhydryl oxidases

Author

Heckler, Erin J., Rancy, Pumtiwitt C., Kodali, Vamsi K., and Thorpe, Colin

Subjects

*OXIDASES, *ENZYMES, *PROTEINS, *ENZYMOLOGY

Abstract

Abstract: The Quiescin-sulfhydryl oxidase (QSOX) family of flavoenzymes catalyzes the direct and facile insertion of disulfide bonds into unfolded reduced proteins with concomitant reduction of oxygen to hydrogen peroxide. This review discusses the chemical mechanism of these enzymes and the involvement of thioredoxin and flavin-binding domains in catalysis. The variability of CxxC motifs in the QSOX family is highlighted and attention is drawn to the steric factors that may promote efficient thiol/disulfide exchange during oxidative protein folding. The varied cellular location of these multi-domain sulfhydryl oxidases is reviewed and potential intracellular and extracellular roles are summarized. Finally, this review identifies important unresolved questions concerning this ancient family of sulfhydryl oxidases. [Copyright &y& Elsevier]

Published

2008

21. A possible relationship between telomere length and markers of neurodegeneration in rat brain after welding fume inhalation exposure.

Author

Shoeb, Mohammad, Mustafa, Gul M., Kodali, Vamsi K., Smith, Kelly, Roach, Katherine A., Boyce, Gregory, Meighan, Terence, Roberts, Jenny R., Erdely, Aaron, and Antonini, James M.

Subjects

*WELDING fumes, *TELOMERES, *CENTRAL nervous system, *NEURODEGENERATION, *CELLULAR aging, *HEAVY metals

Abstract

Inhalation of welding fume (WF) can result in the deposition of toxic metals, such as manganese (Mn), in the brain and may cause neurological changes in exposed workers. Alterations in telomere length are indicative of cellular aging and, possibly, neurodegeneration. Here, we investigated the effect of WF inhalation on telomere length and markers of neurodegeneration in whole brain tissue in rats. Male Fischer-344 (F-344) rats were exposed by inhalation to stainless steel WF (20 mg/m3 x 3 h/d x 4 d/wk x 5 wk) or filtered air (control). Telomere length, DNA-methylation, gene expression of Trf1, Trf2, ATM, and APP, protein expression of p-Tau, α-synuclein, and presenilin 1 and 2 were assessed in whole brain tissue at 12 wk after WF exposure ended. Results suggest that WF inhalation increased telomere length without affecting telomerase in whole brain. Moreover, we observed that components of the shelterin complex, Trf1 and Trf2, play an important role in telomere end protection, and their regulation may be responsible for the increase in telomere length. In addition, expression of different neurodegeneration markers, such as p-Tau, presenilin 1-2 and α-synuclein proteins, were increased in brain tissue from the WF-exposed rats as compared to control. These findings suggest a possible correlation between epigenetic modifications, telomere length alteration, and neurodegeneration because of the presence of factors in serum after WF exposure that may cause extra-pulmonary effects as well as the translocation of potentially neurotoxic metals associated with WF to the central nervous system (CNS). Further studies are needed to investigate the brain region specificity and temporal response of these effects. • Welding fume exposure may cause the translocation of potentially neurotoxic metals to the central nervous system. • Welding fume exposure induced greater ROS generation that was lacking in the control groups. • Our findings suggest a possible correlation between telomere alteration and neurodegeneration after welding fume exposure. [ABSTRACT FROM AUTHOR]

Published

2020

22. Association of occupational exposures with ex vivo functional immune response in workers handling carbon nanotubes and nanofibers.

Author

Schubauer-Berigan, Mary K., Dahm, Matthew M., Toennis, Christine A., Sammons, Deborah L., Eye, Tracy, Kodali, Vamsi, Zeidler-Erdely, Patti C., and Erdely, Aaron

Subjects

*CARBON nanotubes, *IMMUNE response, *MULTIWALLED carbon nanotubes, *EMPLOYEES, *CROSS-sectional method

Abstract

The objective of this study was to evaluate the association between carbon nanotube and nanofiber (CNT/F) exposure and ex vivo responses of whole blood challenged with secondary stimulants, adjusting for potential confounders, in a cross-sectional study of 102 workers. Multi-day exposure was measured by CNT/F structure count (SC) and elemental carbon (EC) air concentrations. Demographic, lifestyle and other occupational covariate data were obtained via questionnaire. Whole blood collected from each participant was incubated for 18 hours with and without two microbial stimulants (lipopolysaccharide/LPS and staphylococcal enterotoxin type B/SEB) using TruCulture technology to evaluate immune cell activity. Following incubation, supernatants were preserved and analyzed for protein concentrations. The stimulant:null response ratio for each individual protein was analyzed using multiple linear regression, followed by principal component (PC) analysis to determine whether patterns of protein response were related to CNT/F exposure. Adjusting for confounders, CNT/F metrics (most strongly, the SC-based) were significantly (p < 0.05) inversely associated with stimulant:null ratios of several individual biomarkers: GM-CSF, IFN-γ, interleukin (IL)-2, IL-4, IL-5, IL-10, IL-17, and IL-23. CNT/F metrics were significantly inversely associated with PC1 (a weighted mean of most biomarkers, explaining 25% of the variance in the protein ratios) and PC2 (a biomarker contrast, explaining 14%). Among other occupational exposures, only solvent exposure was significant (inversely related to PC2). CNT/F exposure metrics were uniquely related to stimulant responses in challenged whole blood, illustrating reduced responsiveness to a secondary stimulus. This approach, if replicated in other exposed populations, may present a relatively sensitive method to evaluate human response to CNT/F or other occupational exposures. [ABSTRACT FROM AUTHOR]

Published

2020

23. Grouping of carbonaceous nanomaterials based on association of patterns of inflammatory markers in BAL fluid with adverse outcomes in lungs.

Author

Yanamala, Naveena, Desai, Ishika C., Miller, William, Kodali, Vamsi K., Syamlal, Girija, Roberts, Jenny R., and Erdely, Aaron D.

Subjects

*NANOSTRUCTURED materials, *LUNGS, *CARBON-black, *CARBON nanotubes, *FLUIDS, *CARBONACEOUS aerosols

Abstract

Carbonaceous nanomaterials (CNMs) are universally being used to make commodities, as they present unique opportunities for development and innovation in the fields of engineering, biotechnology, etc. As technology advances to incorporate CNMs in industry, the potential exposures associated with these particles also increase. CNMs have been found to be associated with substantial pulmonary toxicity, including inflammation, fibrosis, and/or granuloma formation in animal models. This study attempts to categorize the toxicity profiles of various carbon allotropes, in particular, carbon black, different multi-walled carbon nanotubes, graphene-based materials, and their derivatives. Statistical and machine learning-based approaches were used to identify groups of CNMs with similar pulmonary toxicity responses from a panel of proteins measured in bronchoalveolar lavage (BAL) fluid samples and with similar pathological outcomes in the lungs. Thus, grouped particles, based on their pulmonary toxicity profiles, were used to select a small set of proteins that could potentially identify and discriminate between the toxicity profiles associated within each group. Specifically, MDC/CCL22 and MIP-3β/CCL19 were identified as common protein markers associated with both toxicologically distinct groups of CNMs. In addition, the persistent expression of other selected protein markers in BAL fluid from each group suggested their ability to predict toxicity in the lungs, i.e. fibrosis and microgranuloma formation. The advantages of such approaches can have positive implications for further research in toxicity profiling. [ABSTRACT FROM AUTHOR]

Published

2019

24. Surface area- and mass-based comparison of fine and ultrafine nickel oxide lung toxicity and augmentation of allergic response in an ovalbumin asthma model.

Author

Roach, Katherine A., Anderson, Stacey E., Stefaniak, Aleksandr B., Shane, Hillary L., Kodali, Vamsi, Kashon, Michael, and Roberts, Jenny R.

Subjects

*NICKEL oxides, *IMMUNOGLOBULIN E, *LUNGS, *RESPIRATORY allergy, *SURFACE area, *ASTHMA

Abstract

Background: The correlation of physico-chemical properties with mechanisms of toxicity has been proposed as an approach to predict the toxic potential of the vast number of emerging nanomaterials. Although relationships have been established between properties and the acute pulmonary inflammation induced by nanomaterials, properties' effects on other responses, such as exacerbation of respiratory allergy, have been less frequently explored. Methods: In this study, the role of nickel oxide (NiO) physico-chemical properties in the modulation of ovalbumin (OVA) allergy was examined in a murine model. Results: 181 nm fine (NiO-F) and 42 nm ultrafine (NiO-UF) particles were characterized and incorporated into a time course study where measured markers of pulmonary injury and inflammation were associated with NiO particle surface area. In the OVA model, exposure to NiO, irrespective of any metric was associated with elevated circulating total IgE levels. Serum and lung cytokine levels were similar with respect to NiO surface area. The lower surface area was associated with an enhanced Th2 profile, whereas the higher surface area was associated with a Th1-dominant profile. Surface area-normalized groups also exhibited similar alterations in OVA-specific IgE levels and lung neutrophil number. However, lung eosinophil number and allergen challenge-induced alterations in lung function related more to particle size, wherein NiO-F was associated with an increased enhanced pause response and NiO-UF was associated with increased lung eosinophil burden. Conclusions: Collectively, these findings suggest that although NiO surface area correlates best with acute pulmonary injury and inflammation following respiratory exposure, other physico-chemical properties may contribute to the modulation of immune responses in the lung. [ABSTRACT FROM AUTHOR]

Published

2019

25. Pulmonary toxicity and lung tumorigenic potential of surrogate metal oxides in gas metal arc welding–stainless steel fume: Iron as a primary mediator versus chromium and nickel.

Author

Falcone, Lauryn M., Erdely, Aaron, Salmen, Rebecca, Keane, Michael, Battelli, Lori, Kodali, Vamsi, Bowers, Lauren, Stefaniak, Aleksandr B., Kashon, Michael L., Antonini, James M., and Zeidler-Erdely, Patti C.

Subjects

*METALLIC oxides, *GAS metal arc welding, *CHROMIUM, *STAINLESS steel, *LUNG tumors

Abstract

In 2017, the International Agency for Research on Cancer classified welding fumes as “carcinogenic to humans” (Group 1). Both mild steel (MS) welding, where fumes lack carcinogenic chromium and nickel, and stainless steel (SS) increase lung cancer risk in welders; therefore, further research to better understand the toxicity of the individual metals is needed. The objectives were to (1) compare the pulmonary toxicity of chromium (as Cr(III) oxide [Cr2O3] and Cr (VI) calcium chromate [CaCrO4]), nickel [II] oxide (NiO), iron [III] oxide (Fe2O3), and gas metal arc welding-SS (GMAW-SS) fume; and (2) determine if these metal oxides can promote lung tumors. Lung tumor susceptible A/J mice (male, 4–5 weeks old) were exposed by oropharyngeal aspiration to vehicle, GMAW-SS fume (1.7 mg), or a low or high dose of surrogate metal oxides based on the respective weight percent of each metal in the fume: Cr2O3 + CaCrO4 (366 + 5 μg and 731 + 11 μg), NiO (141 and 281 μg), or Fe2O3 (1 and 2 mg). Bronchoalveolar lavage, histopathology, and lung/liver qPCR were done at 1, 7, 28, and 84 days post-aspiration. In a two-stage lung carcinogenesis model, mice were initiated with 3-methylcholanthrene (10 μg/g; intraperitoneal; 1x) or corn oil then exposed to metal oxides or vehicle (1 x/week for 5 weeks) by oropharyngeal aspiration. Lung tumors were counted at 30 weeks post-initiation. Results indicate the inflammatory potential of the metal oxides was Fe2O3 > Cr2O3 + CaCrO4 > NiO. Overall, the pneumotoxic effects were negligible for NiO, acute but not persistent for Cr2O3 + CaCrO4, and persistent for the Fe2O3 exposures. Fe2O3, but not Cr2O3 + CaCrO4 or NiO significantly promoted lung tumors. These results provide experimental evidence that Fe2O3 is an important mediator of welding fume toxicity and support epidemiological findings and the IARC classification. [ABSTRACT FROM AUTHOR]

Published

2018

26. Carbon nanotube and nanofiber exposure and sputum and blood biomarkers of early effect among U.S. workers.

Author

Beard, John D., Erdely, Aaron, Dahm, Matthew M., de Perio, Marie A., Birch, M. Eileen, Evans, Douglas E., Fernback, Joseph E., Eye, Tracy, Kodali, Vamsi, Mercer, Robert R., Bertke, Stephen J., and Schubauer-Berigan, Mary K.

Subjects

*CARBON nanotubes, *SPUTUM examination, *EMPLOYEES, *BLOOD testing, *AIR sampling, *HEALTH

Abstract

Background Carbon nanotubes and nanofibers (CNT/F) are increasingly used for diverse applications. Although animal studies suggest CNT/F exposure may cause deleterious health effects, human epidemiological studies have typically been small, confined to single workplaces, and limited in exposure assessment. Objectives We conducted an industrywide cross-sectional epidemiological study of 108 workers from 12 U.S. sites to evaluate associations between occupational CNT/F exposure and sputum and blood biomarkers of early effect. Methods We assessed CNT/F exposure via personal breathing zone, filter-based air sampling to measure background-corrected elemental carbon (EC) (a CNT/F marker) mass and microscopy-based CNT/F structure count concentrations. We measured 36 sputum and 37 blood biomarkers. We used factor analyses with varimax rotation to derive factors among sputum and blood biomarkers separately. We used linear, Tobit, and unconditional logistic regression models to adjust for potential confounders and evaluate associations between CNT/F exposure and individual biomarkers and derived factors. Results We derived three sputum and nine blood biomarker factors that explained 78% and 67%, respectively, of the variation. After adjusting for potential confounders, inhalable EC and total inhalable CNT/F structures were associated with the most sputum and blood biomarkers, respectively. Biomarkers associated with at least three CNT/F metrics were 72 kDa type IV collagenase/matrix metalloproteinase-2 (MMP-2), interleukin-18, glutathione peroxidase (GPx), myeloperoxidase, and superoxide dismutase (SOD) in sputum and MMP-2, matrix metalloproteinase-9, metalloproteinase inhibitor 1/tissue inhibitor of metalloproteinases 1, 8-hydroxy-2′-deoxyguanosine, GPx, SOD, endothelin-1, fibrinogen, intercellular adhesion molecule 1, vascular cell adhesion protein 1, and von Willebrand factor in blood, although directions of associations were not always as expected. Conclusions Inhalable rather than respirable CNT/F was more consistently associated with fibrosis, inflammation, oxidative stress, and cardiovascular biomarkers. [ABSTRACT FROM AUTHOR]

Published

2018

27. MMP-9-Dependent Serum-Borne Bioactivity Caused by Multiwalled Carbon Nanotube Exposure Induces Vascular Dysfunction via the CD36 Scavenger Receptor.

Author

Aragon, Mario, Erdely, Aaron, Bishop, Lindsey, Salmen, Rebecca, Weaver, John, Jim Liu, Hall, Pamela, Eye, Tracy, Kodali, Vamsi, Zeidler-Erdely, Patti, Stafflinger, Jillian E., Ottens, Andrew K., and Campen, Matthew J.

Subjects

*MATRIX metalloproteinases, *MULTIWALLED carbon nanotubes, *CD36 antigen, *SCAVENGER receptors (Biochemistry), *PROTEIN expression, TREATMENT of vascular diseases

Abstract

Inhalation of multiwalled carbon nanotubes (MWCNT) causes systemic effects including vascular inflammation, endothelial dysfunction, and acute phase protein expression. MWCNTs translocate only minimally beyond the lungs, thus cardiovascular effects thereof may be caused by generation of secondary biomolecular factors from MWCNT-pulmonary interactions that spill over into the systemic circulation. Therefore, we hypothesized that induced matrix metalloproteinase-9 (MMP-9) is a generator of factors that, in turn, drive vascular effects through ligand-receptor interactions with the multiligand pattern recognition receptor, CD36. To test this, wildtype (WT; C57BL/6) and MMP-9/ mice were exposed to varying doses (10 or 40 mg) of MWCNTs via oropharyngeal aspiration and serum was collected at 4 and 24h postexposure. Endothelial cells treated with serum from MWCNT-exposed WT mice exhibited significantly reduced nitric oxide (NO) generation, as measured by electron paramagnetic resonance, an effect that was independent of NO scavenging. Serum from MWCNT-exposed WT mice inhibited acetylcholine (ACh)-mediated relaxation of aortic rings at both time points. Absence of CD36 on the aortic rings (obtained from CD36-deficient mice) abolished the serum-induced impairment of vasorelaxation. MWCNT exposure induced MMP-9 protein levels in both bronchoalveolar lavage and whole lung lysates. Serum from MMP-9-/- mice exposed to MWCNT did not diminish the magnitude of vasorelaxation in naıve WT aortic rings, although a modest right shift of the ACh dose-response curve was observed in both MWCNT dose groups relative to controls. In conclusion, pulmonary exposure to MWCNT leads to elevated MMP-9 levels and MMP-9-dependent generation of circulating bioactive factors that promote endothelial dysfunction and decreased NO bioavailability via interaction with vascular CD36. [ABSTRACT FROM AUTHOR]

Published

2016

28. The IRE1α/XBP1s Pathway Is Essential for the Glucose Response and Protection of β Cells.

Author

Hassler, Justin R., Scheuner, Donalyn L., Wang, Shiyu, Han, Jaeseok, Kodali, Vamsi K., Li, Philip, Nguyen, Julie, George, Jenny S., Davis, Cory, Wu, Shengyang P., Bai, Yongsheng, Sartor, Maureen, Cavalcoli, James, Malhi, Harmeet, Baudouin, Gregory, Zhang, Yaoyang, Yates III, John R., Itkin-Ansari, Pamela, Volkmann, Niels, and Kaufman, Randal J.

Subjects

*GLUCOSE, *PANCREATIC beta cells, *PROINSULIN, *BIOSYNTHESIS, *MESSENGER RNA, *RNA splicing

Abstract

Although glucose uniquely stimulates proinsulin biosynthesis in β cells, surprisingly little is known of the underlying mechanism(s). Here, we demonstrate that glucose activates the unfolded protein response transducer inositol-requiring enzyme 1 alpha (IRE1α) to initiate X-box-binding protein 1 (Xbp1) mRNA splicing in adult primary β cells. Using mRNA sequencing (mRNA-Seq), we show that unconventional Xbp1 mRNA splicing is required to increase and decrease the expression of several hundred mRNAs encoding functions that expand the protein secretory capacity for increased insulin production and protect from oxidative damage, respectively. At 2 wk after tamoxifen-mediated Ire1α deletion, mice develop hyperglycemia and hypoinsulinemia, due to defective β cell function that was exacerbated upon feeding and glucose stimulation. Although previous reports suggest IRE1α degrades insulin mRNAs, Ire1α deletion did not alter insulin mRNA expression either in the presence or absence of glucose stimulation. Instead, β cell failure upon Ire1α deletion was primarily due to reduced proinsulin mRNA translation primarily because of defective glucose-stimulated induction of a dozen genes required for the signal recognition particle (SRP), SRP receptors, the translocon, the signal peptidase complex, and over 100 other genes with many other intracellular functions. In contrast, Ire1α deletion in β cells increased the expression of over 300 mRNAs encoding functions that cause inflammation and oxidative stress, yet only a few of these accumulated during high glucose. Antioxidant treatment significantly reduced glucose intolerance and markers of inflammation and oxidative stress in mice with β cell-specific Ire1α deletion. The results demonstrate that glucose activates IRE1α-mediated Xbp1 splicing to expand the secretory capacity of the β cell for increased proinsulin synthesis and to limit oxidative stress that leads to β cell failure. [ABSTRACT FROM AUTHOR]

Published

2015

29. Mouse genome annotation by the RefSeq project.

Author

McGarvey, Kelly, Goldfarb, Tamara, Cox, Eric, Farrell, Catherine, Gupta, Tripti, Joardar, Vinita, Kodali, Vamsi, Murphy, Michael, O'Leary, Nuala, Pujar, Shashikant, Rajput, Bhanu, Rangwala, Sanjida, Riddick, Lillian, Webb, David, Wright, Mathew, Murphy, Terence, and Pruitt, Kim

Subjects

*MICE genetics, *GENOMES, *ANIMAL models in research, *BIOTECHNOLOGY, *DATABASES

Abstract

Complete and accurate annotation of the mouse genome is critical to the advancement of research conducted on this important model organism. The National Center for Biotechnology Information (NCBI) develops and maintains many useful resources to assist the mouse research community. In particular, the reference sequence (RefSeq) database provides high-quality annotation of multiple mouse genome assemblies using a combinatorial approach that leverages computation, manual curation, and collaboration. Implementation of this conservative and rigorous approach, which focuses on representation of only full-length and non-redundant data, produces high-quality annotation products. RefSeq records explicitly link sequences to current knowledge in a timely manner, updating public records regularly and rapidly in response to nomenclature updates, addition of new relevant publications, collaborator discussion, and user feedback. Whole genome re-annotation is also conducted at least every 12-18 months, and often more frequently in response to assembly updates or availability of informative data. This article highlights key features and advantages of RefSeq genome annotation products and presents an overview of NCBI processes to generate these data. Further discussion of NCBI's resources highlights useful features and the best methods for accessing our data. [ABSTRACT FROM AUTHOR]

Published

2015

30. Celastrol induces unfolded protein response-dependent cell death in head and neck cancer.

Author

Fribley, Andrew M., Miller, Justin R., Brownell, Amy L., Garshott, Danielle M., Zeng, Qinghua, Reist, Tyler E., Narula, Neha, Cai, Peter, Xi, Yue, Callaghan, Michael U., Kodali, Vamsi, and Kaufman, Randal J.

Subjects

*TRITERPENES, *DENATURATION of proteins, *CELL death, *HEAD physiology, *HEAD & neck cancer treatment, *SQUAMOUS cell carcinoma, *DISEASE exacerbation, *PATIENTS

Abstract

The survival rate for patients with oral squamous cell carcinoma (OSCC) has not seen marked improvement in recent decades despite enhanced efforts in prevention and the introduction of novel therapies. We have reported that pharmacological exacerbation of the unfolded protein response (UPR) is an effective approach to killing OSCC cells. The UPR is executed via distinct signaling cascades whereby an initial attempt to restore folding homeostasis in the endoplasmic reticulum during stress is complemented by an apoptotic response if the defect cannot be resolved. To identify novel small molecules able to overwhelm the adaptive capacity of the UPR in OSCC cells, we engineered a complementary cell-based assay to screen a broad spectrum of chemical matter. Stably transfected CHO-K1 cells that individually report (luciferase) on the PERK/eIF2α/ATF4/CHOP (apoptotic) or the IRE1/XBP1 (adaptive) UPR pathways, were engineered [1] . The triterpenoids dihydrocelastrol and celastrol were identified as potent inducers of UPR signaling and cell death in a primary screen and confirmed in a panel of OSCC cells and other cancer cell lines. Biochemical and genetic assays using OSCC cells and modified murine embryonic fibroblasts demonstrated that intact PERK-eIF2–ATF4-CHOP signaling is required for pro-apoptotic UPR and OSCC death following celastrol treatment. [ABSTRACT FROM AUTHOR]

Published

2015

31. Organelle-Specific Activity-Based Protein Profiling in Living Cells.

Author

Wiedner, Susan D., Anderson, Lindsey N., Sadler, Natalie C., Chrisler, William B., Kodali, Vamsi K., Smith, Richard D., and Wright, Aaron T.

Subjects

*ORGANELLES, *ENZYME activation, *CATHEPSINS, *MACROPHAGES, *LYSOSOMES, *FLUORESCENCE microscopy, *MASS spectrometry

Abstract

A multimodal activity-based probe for targeting acidic organelles was developed to measure subcellular native enzymatic activity in cells by fluorescence microscopy and mass spectrometry. A cathepsin-reactive warhead conjugated to a weakly basic amine and a clickable alkyne, for subsequent appendage of a fluorophore or biotin reporter tag, accumulated in lysosomes as observed by structured illumination microscopy (SIM) in J774 mouse macrophage cells. Analysis of in vivo labeled J774 cells by mass spectrometry showed that the probe was very selective for cathepsins B and Z, two lysosomal cysteine proteases. Analysis of starvation-induced autophagy, a catabolic pathway involving lysosomes, showed a large increase in the number of tagged proteins and an increase in cathepsin activity. The organelle-targeting of activity-based probes holds great promise for the characterization of enzyme activities in the myriad diseases linked to specific subcellular locations, particularly the lysosome. [ABSTRACT FROM AUTHOR]

Published

2014

32. Organelle-Specific Activity-Based Protein Profiling in Living Cells.

Author

Wiedner, Susan D., Anderson, Lindsey N., Sadler, Natalie C., Chrisler, William B., Kodali, Vamsi K., Smith, Richard D., and Wright, Aaron T.

Subjects

*ORGANELLES, *SUBCELLULAR fractionation, *FLUORESCENCE microscopy, *MASS spectrometry, *CATHEPSINS, *FLUOROPHORES, *LYSOSOMES

Abstract

A multimodal activity-based probe for targeting acidic organelles was developed to measure subcellular native enzymatic activity in cells by fluorescence microscopy and mass spectrometry. A cathepsin-reactive warhead conjugated to a weakly basic amine and a clickable alkyne, for subsequent appendage of a fluorophore or biotin reporter tag, accumulated in lysosomes as observed by structured illumination microscopy (SIM) in J774 mouse macrophage cells. Analysis of in vivo labeled J774 cells by mass spectrometry showed that the probe was very selective for cathepsins B and Z, two lysosomal cysteine proteases. Analysis of starvation-induced autophagy, a catabolic pathway involving lysosomes, showed a large increase in the number of tagged proteins and an increase in cathepsin activity. The organelle-targeting of activity-based probes holds great promise for the characterization of enzyme activities in the myriad diseases linked to specific subcellular locations, particularly the lysosome. [ABSTRACT FROM AUTHOR]

Published

2014

33. Fabricating Nanoscale Chemical Gradients with ThermoChemicalNanoLithography.

Author

Carroll, Keith M., Giordano, Anthony J., Wang, Debin, Kodali, Vamsi K., Scrimgeour, Jan, King, William P., Marder, Seth R., Riedo, Elisa, and Curtis, Jennifer E.

Subjects

*MICROFABRICATION, *NANOCHEMISTRY, *NANOLITHOGRAPHY, *UBIQUITINATION, *QUANTITATIVE chemical analysis, *CHEMICAL reactions

Abstract

Productionof chemical concentration gradients on the submicrometerscale remains a formidable challenge, despite the broad range of potentialapplications and their ubiquity throughout nature. We present a strategyto quantitatively prescribe spatial variations in functional groupconcentration using ThermoChemical NanoLithography (TCNL). The approachuses a heated cantilever to drive a localized nanoscale chemical reactionat an interface, where a reactant is transformed into a product. Weshow using friction force microscopy that localized gradients in theproduct concentration have a spatial resolution of ∼20 nm wherethe entire concentration profile is confined to sub-180 nm. To gainquantitative control over the concentration, we introduce a chemicalkinetics model of the thermally driven nanoreaction that shows excellentagreement with experiments. The comparison provides a calibrationof the nonlinear dependence of product concentration versus temperature,which we use to design two-dimensional temperature maps encoding theprescription for linear and nonlinear gradients. The resultant chemicalnanopatterns show high fidelity to the user-defined patterns, includingthe ability to realize complex chemical patterns with arbitrary variationsin peak concentration with a spatial resolution of 180 nm or better.While this work focuses on producing chemical gradients of amine groups,other functionalities are a straightforward modification. We envisionthat using the basic scheme introduced here, quantitative TCNL willbe capable of patterning gradients of other exploitable physical orchemical properties such as fluorescence in conjugated polymers andconductivity in graphene. The access to submicrometer chemical concentrationand gradient patterning provides a new dimension of control for nanolithography. [ABSTRACT FROM AUTHOR]

Published

2013

34. The dynamic disulphide relay of quiescin sulphydryl oxidase.

Author

Alon, Assaf, Grossman, Iris, Gat, Yair, Kodali, Vamsi K., DiMaio, Frank, Mehlman, Tevie, Haran, Gilad, Baker, David, Thorpe, Colin, and Fass, Deborah

Subjects

*PROTEIN stability, *CYSTEINE, *OXIDASES, *OXIDATION-reduction reaction, *POLYPEPTIDES

Abstract

Protein stability, assembly, localization and regulation often depend on the formation of disulphide crosslinks between cysteine side chains. Enzymes known as sulphydryl oxidases catalyse de novo disulphide formation and initiate intra- and intermolecular dithiol/disulphide relays to deliver the disulphides to substrate proteins. Quiescin sulphydryl oxidase (QSOX) is a unique, multi-domain disulphide catalyst that is localized primarily to the Golgi apparatus and secreted fluids and has attracted attention owing to its overproduction in tumours. In addition to its physiological importance, QSOX is a mechanistically intriguing enzyme, encompassing functions typically carried out by a series of proteins in other disulphide-formation pathways. How disulphides are relayed through the multiple redox-active sites of QSOX and whether there is a functional benefit to concatenating these sites on a single polypeptide are open questions. Here we present the first crystal structure of an intact QSOX enzyme, derived from a trypanosome parasite. Notably, sequential sites in the disulphide relay were found more than 40?Å apart in this structure, too far for direct disulphide transfer. To resolve this puzzle, we trapped and crystallized an intermediate in the disulphide hand-off, which showed a 165° domain rotation relative to the original structure, bringing the two active sites within disulphide-bonding distance. The comparable structure of a mammalian QSOX enzyme, also presented here, shows further biochemical features that facilitate disulphide transfer in metazoan orthologues. Finally, we quantified the contribution of concatenation to QSOX activity, providing general lessons for the understanding of multi-domain enzymes and the design of new catalytic relays. [ABSTRACT FROM AUTHOR]

Published

2012

35. Biological effects of inhaled hydraulic fracturing sand dust. IV. Pulmonary effects.

Author

Russ, Kristen A., Thompson, Janet A., Reynolds, Jeffrey S., Mercer, Robert R., Porter, Dale W., McKinney, Walter, Dey, Richard D., Barger, Mark, Cumpston, Jared, Batchelor, Thomas P., Kashon, Michael L., Kodali, Vamsi, Jackson, Mark C., Sriram, Krishnan, and Fedan, Jeffrey S.

Subjects

*METHACHOLINE chloride, *FRAC sand, *RESPIRATORY organs, *BORING & drilling (Earth & rocks), *HYDRAULIC fracturing, *DUST, *AIRWAY (Anatomy)

Abstract

Hydraulic fracturing creates fissures in subterranean rock to increase the flow and retrieval of natural gas. Sand ("proppant") in fracking fluid injected into the well bore maintains fissure patency. Fracking sand dust (FSD) is generated during manipulation of sand to prepare the fracking fluid. Containing respirable crystalline silica, FSD could pose hazards similar to those found in work sites where silica inhalation induces lung disease such as silicosis. This study was performed to evaluate the possible toxic effects following inhalation of a FSD (FSD 8) in the lung and airways. Rats were exposed (6 h/d × 4 d) to 10 or 30 mg/m3 of a FSD collected at a gas well, and measurements were performed 1, 7, 27 and, in one series of experiments, 90 d post-exposure. The following ventilatory and non-ventilatory parameters were measured in vivo and/or in vitro : 1) lung mechanics (respiratory system resistance and elastance, tissue damping, tissue elastance, Newtonian resistance and hysteresivity); 2) airway reactivity to inhaled methacholine (MCh); airway epithelium integrity (isolated, perfused trachea); airway efferent motor nerve activity (electric field stimulation in vitro); airway smooth muscle contractility; ion transport in intact and cultured epithelium; airway effector and sensory nerves; tracheal particle deposition; and neurogenic inflammation/vascular permeability. FSD 8 was without large effect on most parameters, and was not pro-inflammatory, as judged histologically and in cultured epithelial cells, but increased reactivity to inhaled MCh at some post-exposure time points and affected Na+ transport in airway epithelial cells. • Fracking sand dust effects on ventilatory/non-ventilatory rat lung function studied. • Inhalation exposure 10 or 30 mg/m3 × 6 h/d × 4 d; 1, 7 and 27 d post-exposure. • Pulmonary function was unaffected; reactivity to inhaled methacholine was increased. • Tracheal epithelial Na+ transport was inhibited. • Otherwise, the dust lacked appreciable in vivo/in vitro bioactivity in rat airways. [ABSTRACT FROM AUTHOR]

Published

2020

36. Initiation of Pulmonary Fibrosis after Silica Inhalation in Rats is linked with Dysfunctional Shelterin Complex and DNA Damage Response.

Author

Shoeb, Mohammad, Mustafa, Gul M., Joseph, Pius, Umbright, Christina, Kodali, Vamsi, Roach, Katherine A., Meighan, Terence, Roberts, Jenny R., Erdely, Aaron, and Antonini, James M.

Abstract

Occupational exposure to silica has been observed to cause pulmonary fibrosis and lung cancer through complex mechanisms. Telomeres, the nucleoprotein structures with repetitive (TTAGGG) sequences at the end of chromosomes, are a molecular "clock of life", and alterations are associated with chronic disease. The shelterin complex (POT1, TRF1, TRF2, Tin2, Rap1, and POT1 and TPP1) plays an important role in maintaining telomere length and integrity, and any alteration in telomeres may activate DNA damage response (DDR) machinery resulting in telomere attrition. The goal of this study was to assess the effect of silica exposure on the regulation of the shelterin complex in an animal model. Male Fisher 344 rats were exposed by inhalation to Min-U-Sil 5 silica for 3, 6, or 12 wk at a concentration of 15 mg/m3 for 6 hr/d for 5 consecutive d/wk. Expression of shelterin complex genes was assessed in the lungs at 16 hr after the end of each exposure. Also, the relationship between increased DNA damage protein (γH2AX) and expression of silica-induced fibrotic marker, αSMA, was evaluated. Our findings reveal new information about the dysregulation of shelterin complex after silica inhalation in rats, and how this pathway may lead to the initiation of silica-induced pulmonary fibrosis. [ABSTRACT FROM AUTHOR]

Published

2019

37. A congenital disorder of deglycosylation: biochemical characterization of N‐glycanase 1 deficiency in patient fibroblasts (607.3).

Author

He, Ping, Ng, Bobby, Cresswell, Peter, Grotzke, Jeff, Gunel, Murat, Jafar‐Nejad, Hamed, Kodali, Vamsi, Kaufman, Randal, and Freeze, Hudson

Published

2014