Your search keyword '"Jacob Elmer"' showing total 39 results

1. Optimizing the lyophilization of Lumbricus terrestris erythrocruorin

Author

Sean Dowd, Catherine Sharo, Osheiza Abdulmalik, and Jacob Elmer

Subjects

Erythrocruorin, Lumbricus terrestris, LtEc, haemoglobin, haemoglobin-based oxygen carrier, HBOC, Biotechnology, TP248.13-248.65, Medical technology, R855-855.5

Abstract

AbstractHaemorrhagic shock is a leading cause of death worldwide. Blood transfusions can be used to treat patients suffering severe blood loss but donated red blood cells (RBCs) have several limitations that limit their availability and use. To solve the problems associated with donated RBCs, several acellular haemoglobin-based oxygen carriers (HBOCs) have been developed to restore the most important function of blood: oxygen transport. One promising HBOC is the naturally extracellular haemoglobin (i.e. erythrocruorin) of Lumbricus terrestris (LtEc). The goal of this study was to maximise the portability of LtEc by lyophilising it and then testing its stability at elevated temperatures. To prevent oxidation, several cryoprotectants were screened to determine the optimum formulation for lyophilisation that could minimise oxidation of the haem iron and maximise recovery. Furthermore, samples were also deoxygenated prior to storage to decrease auto-oxidation, while resuspension in a solution containing ascorbic acid was shown to partially reduce LtEc that had oxidised during storage (e.g. from 42% Fe3+ to 11% Fe3+). Analysis of the oxygen equilibria and size of the resuspended LtEc showed that the lyophilisation, storage, and resuspension processes did not affect the oxygen transport properties or the structure of the LtEc, even after 6 months of storage at 40 °C. Altogether, these efforts have yielded a shelf-stable LtEc powder that can be stored for long periods at high temperatures, but future animal studies will be necessary to prove that the resuspended product is a safe and effective oxygen transporter in vivo.

Published

2024

2. Transcriptomic analysis of the innate immune response to in vitro transfection of plasmid DNA

Author

Eric Warga, Jared Anderson, Matthew Tucker, Emily Harris, and Jacob Elmer

Subjects

MT: Oligonucleotides: Therapies and applications, plasmid, innate immune response, cytokines, cytokine-stimulated genes, IFI16, Therapeutics. Pharmacology, RM1-950

Abstract

The innate immune response to cytosolic DNA is intended to protect the host from viral infections, but it can also inhibit the delivery and expression of therapeutic transgenes in gene and cell therapies. The goal of this work was to use mRNA sequencing to identify genes that may influence transfection efficiency in four different cell types (PC-3, Jurkat, HEK-293T, and primary T cells). The highest transfection efficiency was observed in HEK-293T cells, which upregulated only 142 genes with no known antiviral functions after transfection with lipofectamine. Lipofection upregulated 1,057 cytokine-stimulated genes (CSGs) in PC-3 cells, which exhibited a significantly lower transfection efficiency. However, when PC-3 cells were transfected in serum-containing media or electroporated, the observed transfection efficiencies were significantly higher while the expression levels of cytokines and CSGs decreased. In contrast, lipofection of Jurkat and primary T cells only upregulated a few genes, but several of the antiviral CSGs that were absent in HEK-293T cells and upregulated in PC-3 cells were observed to be constitutively expressed in T cells, which may explain the relatively low Lipofection efficiencies observed with T cells (8%–21% GFP+). Indeed, overexpression of one CSG (IFI16) significantly decreased transfection efficiency in HEK-293T cells.

Published

2023

3. Components from the Human c-myb Transcriptional Regulation System Reactivate Epigenetically Repressed Transgenes

Author

Cassandra M. Barrett, Reilly McCracken, Jacob Elmer, and Karmella A. Haynes

Subjects

myb, c-myb, transgene, epigenetic silencing, activator, heterochromatin, polycomb, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

A persistent challenge for mammalian cell engineering is the undesirable epigenetic silencing of transgenes. Foreign DNA can be incorporated into closed chromatin before and after it has been integrated into a host cell’s genome. To identify elements that mitigate epigenetic silencing, we tested components from the c-myb and NF-kB transcriptional regulation systems in transiently transfected DNA and at chromosomally integrated transgenes in PC-3 and HEK 293 cells. DNA binding sites for MYB (c-myb) placed upstream of a minimal promoter enhanced expression from transiently transfected plasmid DNA. We targeted p65 and MYB fusion proteins to a chromosomal transgene, UAS-Tk-luciferase, that was silenced by ectopic Polycomb chromatin complexes. Transient expression of Gal4-MYB induced an activated state that resisted complete re-silencing. We used custom guide RNAs and dCas9-MYB to target MYB to different positions relative to the promoter and observed that transgene activation within ectopic Polycomb chromatin required proximity of dCas9-MYB to the transcriptional start site. Our report demonstrates the use of MYB in the context of the CRISPR-activation system, showing that DNA elements and fusion proteins derived from c-myb can mitigate epigenetic silencing to improve transgene expression in engineered cell lines.

Published

2020

4. Biophysical Properties of Lumbricus terrestris Erythrocruorin and Its Potential Use as a Red Blood Cell Substitute

Author

Jacob Elmer and Andre F. Palmer

Subjects

red blood cell substitute, hemoglobin, erythrocruorin, oxygen carrier, Biotechnology, TP248.13-248.65, Medicine (General), R5-920

Abstract

Previous generations of hemoglobin (Hb)-based oxygen carriers (HBOCs) have been plagued by key biophysical limitations that result in severe side-effects once transfused in vivo, including protein instability, high heme oxidation rates, and nitric oxide (NO) scavenging. All of these problems emerge after mammalian Hbs are removed from red blood cells (RBCs) and used for HBOC synthesis/formulation. Therefore, extracellular Hbs (erythrocruorins) from organisms which lack RBCs might serve as better HBOCs. This review focuses on the erythrocruorin of Lumbricus terrestris (LtEc), which has been shown to be extremely stable, resistant to oxidation, and may interact with NO differently than mammalian Hbs. All of these beneficial properties show that LtEc is a promising new HBOC which warrants further investigation.

Published

2012

5. Lumbricus terrestris Erythrocruorin: A Novel Blood Substitute from a Terrestrial Earthworm

Author

Sean Dowd and Jacob Elmer

Published

2022

6. Enhancing the Stability of Lumbricus terrestris Erythrocruorin (LtEc) for Use as a Blood Substitute

Author

Brandon Timm and Jacob Elmer

Published

2022

7. Transcriptomic Analysis of the Innate Immune Response toin vitroTransfection of Plasmid DNA

Author

Jacob Elmer, Eric Warga, Emily Harris, and Matthew Tucker

Subjects

Cell type, medicine.anatomical_structure, Innate immune system, Chemistry, Electroporation, HEK 293 cells, Cell, medicine, Transfection, Gene delivery, Jurkat cells, Cell biology

Abstract

The innate immune response to cytosolic DNA is intended to protect the host from viral infections, but it can also inhibit the delivery and expression of therapeutic transgenes in gene and cell therapies. The goal of this work was to use mRNA-sequencing to reveal correlations between the transfection efficiencies of four cell types (PC-3, Jurkat, HEK-293T, and primary CD3+T cells) and their innate immune responses to nonviral gene delivery. Overall, the highest transfection efficiency was observed in HEK-293T cells (87%), which upregulated only 142 genes with no known anti-viral functions. Lipofection upregulated a much larger number (n = 1,057) of cytokine-stimulated genes (CSGs) in PC-3 cells, which also exhibited a significantly lower transfection efficiency. However, the addition of serum during Lipofection and electroporation significantly increased transfection efficiencies and decreased the number of upregulated genes in PC-3 cells. Finally, while Lipofection of Jurkat and Primary T cells only upregulated a few genes, several anti-viral CSGs that were absent in HEK and upregulated in PC-3 cells were observed to be constitutively expressed in T cells, which may explain their relatively low Lipofection efficiencies (8-21%). Indeed, overexpression of one such CSG (IFI16) significantly decreased transfection efficiency in HEK cells to 33%.

Published

2021

8. Transcriptomic analysis of the innate immune response to

Author

Eric, Warga, Jared, Anderson, Matthew, Tucker, Emily, Harris, and Jacob, Elmer

Abstract

The innate immune response to cytosolic DNA is intended to protect the host from viral infections, but it can also inhibit the delivery and expression of therapeutic transgenes in gene and cell therapies. The goal of this work was to use mRNA sequencing to identify genes that may influence transfection efficiency in four different cell types (PC-3, Jurkat, HEK-293T, and primary T cells). The highest transfection efficiency was observed in HEK-293T cells, which upregulated only 142 genes with no known antiviral functions after transfection with lipofectamine. Lipofection upregulated 1,057 cytokine-stimulated genes (CSGs) in PC-3 cells, which exhibited a significantly lower transfection efficiency. However, when PC-3 cells were transfected in serum-containing media or electroporated, the observed transfection efficiencies were significantly higher while the expression levels of cytokines and CSGs decreased. In contrast, lipofection of Jurkat and primary T cells only upregulated a few genes, but several of the antiviral CSGs that were absent in HEK-293T cells and upregulated in PC-3 cells were observed to be constitutively expressed in T cells, which may explain the relatively low Lipofection efficiencies observed with T cells (8%-21% GFP

Published

2021

9. Nonviral gene delivery to T cells with Lipofectamine LTX

Author

Anil Bamezai, Devon Zimmerman, Emily Harris, Eric Warga, and Jacob Elmer

Subjects

Chemistry, Lymphocyte, T cell, T-Lymphocytes, Genetic Vectors, Green Fluorescent Proteins, Gene Transfer Techniques, Bioengineering, Transfection, Gene delivery, Applied Microbiology and Biotechnology, Jurkat cells, Lipids, Cell biology, Viral vector, Transduction (genetics), Jurkat Cells, medicine.anatomical_structure, Lipofectamine, medicine, Humans, Transgenes, Biotechnology

Abstract

Retroviral gene delivery is widely used in T cell therapies for hematological cancers. However, viral vectors are expensive to manufacture, integrate genes in semi-random patterns, and their transduction efficiency varies between patients. In this study, several non-viral gene delivery vehicles, promoters, and additional variables were compared to optimize non-viral transgene delivery and expression in both Jurkat and primary T cells. Transfection of Jurkat cells was maximized to a high efficiency (63.0±10.9% EGFP+ cells) by transfecting cells with Lipofectamine LTX in X-VIVOTM 15 media. However, the same method yielded a much lower transfection efficiency in primary T cells (8.1±0.8% EGFP+ ). Subsequent confocal microscopy revealed that a majority of the lipoplexes did not enter the primary T cells, which might be due to relatively low expression levels of heparan sulfate proteoglycans (HSPGs) detected via mRNA-sequencing. PYHIN DNA sensors (e.g., AIM2, IFI16) that can induce apoptosis or repress transcription after binding cytoplasmic DNA were also detected at high levels in primary T cells. Therefore, transfection of primary T cells appears to be limited at the level of cellular uptake or DNA sensing in the cytoplasm. Both of these factors should be considered in the development of future viral and non-viral T cell gene delivery methods. This article is protected by copyright. All rights reserved.

Published

2021

10. Non-Viral Gene Delivery to T Cells with Lipofectamine LTX

Author

Jacob Elmer, Emily Harris, Eric Warga, Anil Bamezai, and Devon Zimmerman

Subjects

Transduction (genetics), medicine.anatomical_structure, Chemistry, Lipofectamine, viruses, Transgene, T cell, medicine, Transfection, Gene delivery, Jurkat cells, Viral vector, Cell biology

Abstract

Retroviral gene delivery is widely used in T cell therapies for hematological cancers. However, viral vectors are expensive to manufacture, they integrate genes in semi-random patterns, and their transduction efficiency is highly variable. In this study, several non-viral gene delivery vehicles, promoters, and additional variables were compared to optimize non-viral transgene delivery and expression in both Jurkat and primary T cells. Overall, transfecting Jurkat cells in X-VIVOTM 15 media with Lipofectamine LTX provided a high transfection efficiency (63.0±10.9% EGFP+). However, the same method yielded a much lower transfection efficiency in primary T cells (8.1±0.8% EGFP+). Subsequent confocal microscopy revealed that a majority of the lipoplexes did not enter the primary T cells, which might be due to relatively low expression levels of heparan sulfate proteoglycans (HSPGs) detected via mRNA-sequencing. PYHIN DNA sensors (e.g., AIM2, IFI16) were also expressed at high levels in Primary T cells, which can induce apoptosis when bound to cytoplasmic DNA. Therefore, transfection of primary T cells appears to be limited at the level of cellular uptake and/or DNA sensing in the cytoplasm, so both of these factors should be considered in the development of future viral and non-viral T cell gene delivery methods.

Published

2020

11. 3-D Printing and Arduino in the Chemical Engineering Classroom: Protein Structures, Heat Exchangers, and Flow Cells

Author

Jacob Elmer and Daniel Kraut

Published

2020

12. Entrepreneurial Mindset (EML) Modules for Chemical Engineering Courses

Author

Noelle Comolli and Jacob Elmer

Published

2020

13. Author response for 'Optimization of Electroporation and other <scp>Non‐Viral</scp> Gene Delivery Strategies for T Cells'

Author

Jacob Elmer and Emily Harris

Subjects

Electroporation, Biology, Virology, Viral gene

Published

2020

14. Optimization of electroporation and other non-viral gene delivery strategies for T cells

Author

Jacob Elmer and Emily Harris

Subjects

0106 biological sciences, T-Lymphocytes, Gene delivery, 01 natural sciences, Immunotherapy, Adoptive, CD19, Viral vector, Transduction (genetics), 010608 biotechnology, Medicine, Animals, Humans, biology, business.industry, Electroporation, Lymphoma, Non-Hodgkin, 010401 analytical chemistry, Transfection, Genetic Therapy, Precursor Cell Lymphoblastic Leukemia-Lymphoma, Chimeric antigen receptor, 0104 chemical sciences, Cancer research, biology.protein, business, Ex vivo, Biotechnology

Abstract

CAR-T therapy is a particularly effective treatment for some types of cancer that uses retroviruses to deliver the gene for a chimeric antigen receptor (CAR) to a patient's T cells ex vivo. The CAR enables the T cells to bind and eradicate cells with a specific surface marker (e.g., CD19+ B cells) after they are transfused back into the patient. This treatment was proven to be particularly effective in treating non-Hodgkin's lymphoma (NHL) and acute lymphoblastic leukemia (ALL), but the current CAR-T cell manufacturing process has a few significant drawbacks. For example, while lentiviral and gammaretroviral transduction are both relatively effective, the process of producing viral vectors is time-consuming and costly. Additionally, patients must undergo follow up appointments for several years to monitor them for any unanticipated side effects associated with the virus. Therefore, several studies have endeavored to find alternative non-viral gene delivery methods that are less expensive, more precise, simple, and safe. This review focuses on the current state of the most promising non-viral gene delivery techniques, including electroporation and transfection with cationic polymers or lipids.

Published

2020

15. Nonviral Vehicles for Gene Delivery

Author

Eric Warga, Brian Austin-Carter, Jacob Elmer, and Noelle Comolli

Subjects

0303 health sciences, 03 medical and health sciences, Environmental Engineering, Chemistry, Lower cost, 02 engineering and technology, Computational biology, Gene delivery, 021001 nanoscience & nanotechnology, 0210 nano-technology, Inorganic nanoparticles, Viral gene, 030304 developmental biology

Abstract

Nonviral gene delivery (NVGD) is an appealing alternative to viral gene delivery for clinical applications due to its lower cost and increased safety. A variety of promising nonviral vectors are under development, including cationic polymers, lipids, lipid-polymer hybrids (LPHs) and inorganic nanoparticles. However, some NVGD strategies have disadvantages that have limited their adoption, including high toxicity and low efficiency. This review focuses on the most common NVGD vehicles with an emphasis on recent developments in the field.

Published

2021

16. Direct comparison of oligochaete erythrocruorins as potential blood substitutes

Author

Matthew DiIusto, Jack Dienes, Devon Zimmerman, Osheiza Abdulmalik, and Jacob Elmer

Subjects

Eisenia fetida, biology, Chemistry, Biomedical Engineering, Oxygen transport, Pharmaceutical Science, Erythrocruorins, 02 engineering and technology, 030204 cardiovascular system & hematology, 021001 nanoscience & nanotechnology, biology.organism_classification, Blood substitute, 03 medical and health sciences, 0302 clinical medicine, Biochemistry, Eisenia, biology.protein, Erythrocruorin, Hemoglobin, 0210 nano-technology, Lumbricus terrestris, Biotechnology

Abstract

While many blood substitutes are based on mammalian hemoglobins (e.g., human hemoglobin, HbA), the naturally extracellular hemoglobins of invertebrates (a.k.a. erythrocruorins, Ecs) are intriguing alternative oxygen carriers. Specifically, the erythrocruorin of Lumbricus terrestris has been shown to effectively deliver oxygen in mice and rats without the negative side effects observed with HbA. In this study, the properties of six oligochaete Ecs (Lumbricus terrestris, Eisenia hortensis, Eisenia fetida, Eisenia veneta, Eudrilus eugeniae, and Amynthas gracilis) were compared in vitro to identify the most promising blood substitute candidate(s). Several metrics were used to compare the Ecs, including their oxidation rates, dissociation at physiological pH, thermal stability, and oxygen transport characteristics. Overall, the Ecs of Lumbricus terrestris (LtEc) and Eisenia fetida (EfEc) were identified as promising candidates, since they demonstrated high thermal and oligomeric stability, while also exhibiting relatively low oxidation rates. Interestingly, the O2 affinity of LtEc (P50 = 26.25 mmHg at 37 °C) was also observed to be uniquely lower than EfEc and all of the other Ecs (P50 = 9.29-13.62 mmHg). Subsequent alignment of the primary sequences of LtEc and EfEc revealed several significant amino acid substitutions within the D subunit interfaces that may be responsible for this significant change in O2 affinity. Nonetheless, these results show that LtEc and EfEc are promising potential blood substitutes that are resistant to oxidation and denaturation, but additional experiments will need to be conducted to determine their safety, efficacy, and the effects of their disparate oxygen affinities in vivo.

Published

2017

17. Prolonging the shelf life ofLumbricus terrestriserythrocruorin for use as a novel blood substitute

Author

Osheiza Abdulmalik, Jacob Elmer, Christopher Neely, Christine Muzzelo, and Payal Shah

Subjects

0301 basic medicine, Time Factors, Antioxidant, Drug Storage, medicine.medical_treatment, Biomedical Engineering, Pharmaceutical Science, Medicine (miscellaneous), Heme, 030204 cardiovascular system & hematology, Antioxidants, Blood substitute, Ferrous, Hemoglobins, 03 medical and health sciences, 0302 clinical medicine, Drug Stability, Blood Substitutes, medicine, Animals, Erythrocruorin, Food science, Oligochaeta, Deoxygenation, biology, Chemistry, Temperature, General Medicine, Ascorbic acid, biology.organism_classification, Oxygen, 030104 developmental biology, Biochemistry, biology.protein, Hemoglobin, Oxidation-Reduction, Lumbricus terrestris, Biotechnology

Abstract

Limitations associated with the storage of red blood cells have motivated the development of novel blood substitutes that are able to withstand long-term storage at elevated temperatures. The hemoglobin of the earthworm Lumbricus terrestris (LtEc) is an attractive blood substitute candidate, since it is resistant to oxidation and aggregation during storage. Several factors were investigated to optimize the thermal and oxidative stability of LtEc during storage, including pH, antioxidant supplements, and deoxygenation. A strategy for the reduction of fully oxidized LtEc with antioxidants was also developed. Overall, LtEc was shown to have the highest thermal stability in Ringer’s Modified Lactate solution with 10 mM HEPES at pH 7.0. Deoxygenation of the LtEc was also shown to significantly reduce oxidation of the ferrous heme iron (e.g., %Fe2+ after 7 d at 37 °C = 75.7%). However, even in cases where oxidation does occur, the addition of 1.8 mM ascorbic acid (AA) was found to reduce 98.3% of the ox...

Published

2017

18. Components from the Human c-myb Transcriptional Regulation System Reactivate Epigenetically Repressed Transgenes

Author

Reilly McCracken, Cassandra M Barrett, Karmella A. Haynes, and Jacob Elmer

Subjects

Transcription, Genetic, Polycomb-Group Proteins, MYB, Regulatory Sequences, Nucleic Acid, Epigenesis, Genetic, lcsh:Chemistry, chemistry.chemical_compound, 0302 clinical medicine, Genes, Reporter, Heterochromatin, Transcriptional regulation, Transgenes, lcsh:QH301-705.5, Spectroscopy, 0303 health sciences, food and beverages, General Medicine, epigenetic silencing, Computer Science Applications, 3. Good health, Chromatin, Cell biology, 030220 oncology & carcinogenesis, Transcription Initiation Site, Protein Binding, Transcriptional Activation, animal structures, Transgene, Biology, Models, Biological, Catalysis, Article, activator, Inorganic Chemistry, 03 medical and health sciences, Proto-Oncogene Proteins c-myb, c-myb, Humans, Gene Silencing, Physical and Theoretical Chemistry, Molecular Biology, 030304 developmental biology, Binding Sites, Base Sequence, Organic Chemistry, HEK 293 cells, fungi, transgene, Fusion protein, DNA binding site, lcsh:Biology (General), lcsh:QD1-999, chemistry, Gene Expression Regulation, Trans-Activators, polycomb, DNA

Abstract

A persistent challenge for mammalian cell engineering is the undesirable epigenetic silencing of transgenes. Foreign DNA can be incorporated into closed chromatin before and after it has been integrated into a host cell&rsquo, s genome. To identify elements that mitigate epigenetic silencing, we tested components from the c-myb and NF-kB transcriptional regulation systems in transiently transfected DNA and at chromosomally integrated transgenes in PC-3 and HEK 293 cells. DNA binding sites for MYB (c-myb) placed upstream of a minimal promoter enhanced expression from transiently transfected plasmid DNA. We targeted p65 and MYB fusion proteins to a chromosomal transgene, UAS-Tk-luciferase, that was silenced by ectopic Polycomb chromatin complexes. Transient expression of Gal4-MYB induced an activated state that resisted complete re-silencing. We used custom guide RNAs and dCas9-MYB to target MYB to different positions relative to the promoter and observed that transgene activation within ectopic Polycomb chromatin required proximity of dCas9-MYB to the transcriptional start site. Our report demonstrates the use of MYB in the context of the CRISPR-activation system, showing that DNA elements and fusion proteins derived from c-myb can mitigate epigenetic silencing to improve transgene expression in engineered cell lines.

Published

2019

19. Purification of diverse hemoglobins by metal salt precipitation

Author

Devon Zimmerman, Jacob Elmer, Jack Dienes, and Osheiza Abdulmalik

Subjects

0301 basic medicine, Metal ions in aqueous solution, Cooperativity, Heme oxidation, 030204 cardiovascular system & hematology, Divalent, Metal, Hemoglobins, 03 medical and health sciences, 0302 clinical medicine, Nickel, Animals, Chemical Precipitation, Humans, Erythrocruorin, Oligochaeta, chemistry.chemical_classification, biology, Chemistry, Precipitation (chemistry), Polychaeta, Oxygen, Zinc, 030104 developmental biology, Biochemistry, visual_art, biology.protein, visual_art.visual_art_medium, Hemoglobin, Oxidation-Reduction, Filtration, Biotechnology, Nuclear chemistry

Abstract

Although donated blood is the preferred material for transfusion, its limited availability and stringent storage requirements have motivated the development of blood substitutes. The giant extracellular hemoglobin (aka erythrocruorin) of the earthworm Lumbricus terrestris (LtEc) has shown promise as a blood substitute, but an efficient purification method for LtEc must be developed to meet the potential large demand for blood substitutes. In this work, an optimized purification process that uses divalent and trivalent metal salts to selectively precipitate human, earthworm, and bloodworm hemoglobin (HbA, LtEc, and GdHb, respectively) from crude solutions was developed. Although several metal ions were able to selectively precipitate LtEc, Zn(2+) and Ni(2+) provided the lowest heme oxidation and highest overall yield of LtEc. In contrast, Zn(2+) was the only metal ion that completely precipitated HbA and GdHb. Polyacrylamide gel electrophoresis (PAGE) analysis shows that metal precipitation removes several impurities to provide highly pure hemoglobin samples. Heme oxidation levels were relatively low for Zn(2+)-purified HbA and LtEc (2.4±1.3% and 5.3±2.1%, respectively), but slightly higher for Ni(2+)-purified LtEc (8.4±1.2%). The oxygen affinity and cooperativity of the precipitated samples are also identical to samples purified with tangential flow filtration (TFF) alone, indicating the metal precipitation does not significantly affect the function of the hemoglobins. Overall, these results show that hemoglobins from several different species can be highly purified using a combination of metal (Zn(2+)) precipitation and tangential flow filtration.

Published

2016

20. Purification of Lumbricus terrestris erythrocruorin (LtEc) with anion exchange chromatography

Author

Brandon Timm, Atis Chakrabarti, Jacob Elmer, and Osheiza Abdulmalik

Subjects

Clinical Biochemistry, Heme oxidation, Complex Mixtures, 030226 pharmacology & pharmacy, 01 natural sciences, Biochemistry, Chromatography, Affinity, Article, Analytical Chemistry, Hemoglobins, 03 medical and health sciences, 0302 clinical medicine, Blood Substitutes, Protein purification, Animals, Erythrocruorin, Oligochaeta, Chromatography, Ion exchange, biology, Chemistry, 010401 analytical chemistry, Oxygen transport, Cell Biology, General Medicine, Chromatography, Ion Exchange, biology.organism_classification, 0104 chemical sciences, Endotoxins, Oxygen, biology.protein, Hemoglobin, Oxygen binding, Lumbricus terrestris

Abstract

The naturally extracellular hemoglobin (erythrocruorin) of the Canadian nightcrawler, Lumbricus terrestris (LtEc), is a unique oxygen transport protein that may be an effective substitute for donated human blood. Indeed, this ultra-high molecular weight (~3.6 MDa) hemoglobin has already been shown to avoid the side effects associated with previous hemoglobin-based oxygen carriers and its high thermal stability (T(m) = 56 °C) and resistance to heme oxidation (k(ox) = 0.04 hr(−1) × 10(3) at 20 °C) allow it to be stored for long periods of time without refrigeration. However, before it can be tested in human clinical trials, an effective and scalable purification process for LtEc must be developed. We have previously purified LtEc for animal studies with tangential flow filtration (TFF), which allows rapid and scalable purification of LtEc based on its relatively large size, but that type of size-based purification may not be able to specifically remove some impurities and high MW (>500 kDa) contaminants like endotoxin (MW = ~1–4 MDa). Anion exchange (AEX) and immobilized metal affinity chromatography (IMAC) are two purification methods that have been previously used to purify mammalian hemoglobins, but they have not yet been used to purify large invertebrate hemoglobins like LtEc. Therefore, the goal of this study was to determine if AEX and IMAC resins could successfully purify LtEc from crude earthworm homogenate, while also preserving its macromolecular structure and function. Both processes were able to produce purified LtEc with low levels of endotoxin, but IMAC purification induced significantly higher levels of heme oxidation and subunit dissociation than AEX. In addition, the IMAC process required an additional desalting step to enable LtEc binding. In contrast, AEX produced highly pure LtEc that was not dissociated. LtEc purified by AEX also exhibits similar oxygen binding characteristics (P(50) = 27.33 ± 1.82 mm Hg, n = 1.58 ± 0.17) to TFF-purified LtEc (P(50) = 28.84 ± 0.40 mm Hg, n = 1.93 ± 0.02). Therefore, AEX appears to be the optimal method for LtEc purification.

Published

2020

21. Synthesis of Cationic Polymer Libraries for Gene Delivery Using Diglycidyl Ethers

Author

Jacob, Elmer, Thrimoorthy, Potta, and Kaushal, Rege

Subjects

Cell Survival, Polymers, Cations, Cell Line, Tumor, Gene Transfer Techniques, Humans, Luciferases, Ether, Polymerization

Abstract

Gene therapy has the potential to cure many different genetic diseases, if safe and effective gene delivery vectors can be developed. This chapter describes protocols for the synthesis of novel polymers using diglycidyl ether and diamine or polyamine monomers for transgene delivery and expression. The resulting poly (amino ethers) are able to transfect a higher number of cells, with lower cytotoxicity than other commercially available polymers (e.g., Polyethyleneimine, PEI).

Published

2018

22. Small Molecule Inhibition of the Innate Immune Response Increases Transgene Expression

Author

Christopher Neely, J Vanzelli, Jacob Elmer, Christine Muzzelo, Evan Kurt, and Kyle Spivack

Subjects

AP-1 transcription factor, Innate immune system, Cytokine, Chemistry, Cell growth, Transgene, medicine.medical_treatment, medicine, TLR9, Signal transduction, Proinflammatory cytokine, Cell biology

Abstract

Foreign molecules like plasmid DNA trigger a complex and potent innate immune response comprised of highly redundant signal transduction cascades that result in the activation of transcription factors and the production of inflammatory cytokines. Unfortunately, this defense mechanism can hinder gene therapy by inhibiting transgene expression. The goal of this study was to increase transgene expression by inhibiting key components of the innate immune response (β-catenin, NF-κB/AP1, TBK1, TLR9, and p38 MAPK) with small molecule inhibitors (iCRT-14, curcumin, BX-795, E6446, and VX-702 respectively). The effects of each drug on transgene (luciferase) expression, inflammatory cytokine (IL-6) levels, and cell viability were quantified in prostate (PC3), breast (MCF-7), and murine bladder (MB49) cancer cell lines. The β-catenin inhibitor iCRT-14 (1 μM) provided the highest enhancement of 35.5 ± 19-fold in MCF-7 cells, while the other inhibitors increased transgene expression at a more modest level (2-9 fold). The optimal concentrations of iCRT-14, curcumin, and VX-702 showed no significant effect on cell proliferation; however, optimal concentrations of BX-795 and E6446 did significantly reduce cell proliferation. Nonetheless, inhibition of the innate immune response by iCRT-14 and curcumin was confirmed by a concomitant decrease in IL-6 production in PC3 cells. These results demonstrate that these inhibitors can improve gene therapy by preventing an inflammatory innate immune response.

Published

2018

23. Enhancement of Transgene Expression by NF-Y and CTCF

Author

Devon Zimmerman, Jacob Elmer, Matthew Hall, and Krupa Patel

Subjects

0303 health sciences, Chemistry, Heterochromatin, Transgene, CAAT box, Repressor, Promoter, Cell biology, 03 medical and health sciences, 0302 clinical medicine, CTCF, Transcription (biology), 030220 oncology & carcinogenesis, Transcription factor, 030304 developmental biology

Abstract

If a transgene is effectively delivered to a cell, its expression may still be limited by epigenetic mechanisms that silence the transgene. Indeed, once the transgene reaches the nucleus, it may be bound by histone proteins and condensed into heterochromatin or associated with repressor proteins that block transcription. In this study, we sought to enhance transgene expression by adding binding motifs for several different epigenetic enzymes either upstream or downstream of two promoters (CMV and EF1α). Screening these plasmids revealed that luciferase expression was enhanced 10-fold by the addition of a CCAAT box just upstream of the EF1α promoter to recruit nuclear transcription factor Y (NF-Y), while inserting a CCCTC-binding factor (CTCF) motif downstream of the EF1α promoter enhanced expression 14-fold (14.03 ± 6.54). ChIP assays confirmed that NF-Y and CTCF bound to the motifs that were added to each plasmid, but the presence of NF-Y and CTCF did not significantly affect the levels of histone acetylation (H3K9ac). Overall, these result show that transgene expression from the EF1α promoter can be significantly increased with motifs that recruit NF-Y or CTCF.

Published

2018

24. Enhancement of transgene expression by nuclear transcription factor Y and CCCTC-binding factor

Author

Devon Zimmerman, Matthew Hall, Krupa Patel, and Jacob Elmer

Subjects

0301 basic medicine, Epigenomics, CCCTC-Binding Factor, Chemistry, Transgene, CAAT box, Repressor, Promoter, Acetylation, Genetic Therapy, Methylation, Cell biology, Histones, 03 medical and health sciences, 030104 developmental biology, CCAAT-Binding Factor, Transcription (biology), CTCF, Animals, Humans, Epigenetics, Promoter Regions, Genetic, Transcription factor, Biotechnology

Abstract

If a transgene is effectively delivered to a cell, its expression may still be limited by epigenetic mechanisms that silence the transgene. Indeed, once the transgene reaches the nucleus, it may be bound by histone proteins and condensed into heterochromatin or associated with repressor proteins that block transcription. In this study, we sought to enhance transgene expression by adding binding motifs for several different epigenetic enzymes either upstream or downstream of two promoters (CMV and EF1α). Screening these plasmids revealed that luciferase expression was enhanced 10-fold (10.4 ± 5.8) by the addition of a CCAAT box just upstream of the EF1α promoter to recruit nuclear transcription factor Y (NF-Y), while inserting a CCCTC-binding factor (CTCF) motif downstream of the EF1α promoter enhanced expression at least 14-fold (14.03 ± 6.54). ChIP assays confirmed that NF-Y and CTCF bound to the motifs that were added to each plasmid, but the presence of NF-Y and CTCF did not significantly affect the levels of histone acetylation (H3K9ac) or methylation (H3K9me3). Overall, these results show that transgene expression from the EF1α promoter can be significantly increased with motifs that recruit NF-Y or CTCF. © 2018 American Institute of Chemical Engineers Biotechnol. Prog., 34:1581-1588, 2018.

Published

2018

25. Synthesis of Cationic Polymer Libraries for Gene Delivery Using Diglycidyl Ethers

Author

Thrimoorthy Potta, Jacob Elmer, and Kaushal Rege

Subjects

0301 basic medicine, Diglycidyl ether, Transgene, Cationic polymerization, Transfection, Gene delivery, Combinatorial chemistry, 03 medical and health sciences, chemistry.chemical_compound, 030104 developmental biology, chemistry, Diamine, Cytotoxicity, Polyamine

Abstract

Gene therapy has the potential to cure many different genetic diseases, if safe and effective gene delivery vectors can be developed. This chapter describes protocols for the synthesis of novel polymers using diglycidyl ether and diamine or polyamine monomers for transgene delivery and expression. The resulting poly (amino ethers) are able to transfect a higher number of cells, with lower cytotoxicity than other commercially available polymers (e.g., Polyethyleneimine, PEI).

Published

2018

26. Increasing the stability of Lumbricus terrestris erythrocruorin via poly(acrylic acid) conjugation

Author

Noelle Comolli, Matthew Nicholas, Matthew Tucker, Kyle Spivack, Osheiza Abdulmalik, Jacob Elmer, and Devon Zimmerman

Subjects

Models, Molecular, 0301 basic medicine, Protein Conformation, Acrylic Resins, Biomedical Engineering, Pharmaceutical Science, Medicine (miscellaneous), Cooperativity, 02 engineering and technology, Article, Dissociation (chemistry), Blood substitute, 03 medical and health sciences, chemistry.chemical_compound, Dynamic light scattering, Animals, Erythrocruorin, Thermal stability, Oligochaeta, Acrylic acid, biology, Protein Stability, Chemistry, Temperature, General Medicine, Hydrogen-Ion Concentration, 021001 nanoscience & nanotechnology, biology.organism_classification, Oxygen, 030104 developmental biology, biology.protein, Erythrocruorins, 0210 nano-technology, Lumbricus terrestris, Biotechnology, Nuclear chemistry

Abstract

Since donated red blood cells must be constantly refrigerated, they are often unavailable in remote areas and battlefields. The goal of this study was to synthesize a highly stable blood substitute that does not require refrigeration. Specifically, the extracellular haemoglobin (a.k.a. erythrocruorin, Ec) of the earthworm Lumbricus terrestris erythrocruororin (LtEc) was cross-linked with poly(acrylic acid) (PAA) and ethylene diamine (EDA). PAGE analysis of the LtEc nanoparticles reveals cross-linking between subunits, while dynamic light scattering and scanning electron microscopy show that cross-linking significantly increases the size of the LtEc nanoparticles (164 ± 13.9 nm). Cross-linking also significantly increased the thermal stability of the LtEc nanoparticles by 10 °C (Tm = 72 ± 0.84 °C) relative to native LtEc (Tm = 62 ± 0.6 °C). In addition, while native LtEc rapidly dissociates at pH 9, the LtEc nanoparticles resist subunit dissociation up to pH 10. The oxygen affinity of the LtEc nanoparticles (P50 = 6.85 ± 0.13 mm Hg) is much higher than native LtEc (P50 = 26.67 ± 0.4 mm Hg), but the cooperativity (n = 2.43 ± 0.12) is not affected. Altogether, these results show that cross-linking LtEc with PAA and EDA provides a potential blood substitute with increased stability and oxygen affinity.

Published

2018

27. Glutaraldehyde Cross-Linking Increases the Stability of Lumbricus terrestris Erythrocruorin

Author

Kyle Spivack, Jacob Elmer, Devon Zimmerman, Osheiza Abdulmalik, and Athul Rajesh

Subjects

0106 biological sciences, 0301 basic medicine, Tris, 01 natural sciences, Dissociation (chemistry), Article, Antioxidants, Blood substitute, 03 medical and health sciences, chemistry.chemical_compound, Hemoglobins, Blood Substitutes, 010608 biotechnology, Erythrocruorin, Animals, Thermal stability, Oligochaeta, biology, biology.organism_classification, Molecular Weight, Oxygen, 030104 developmental biology, chemistry, Glutaral, biology.protein, Glutaraldehyde, Hemoglobin, Oxidation-Reduction, Lumbricus terrestris, Biotechnology, Nuclear chemistry

Abstract

Since donated red blood cells must be constantly refrigerated, they are not available in remote areas and battlefields. We have previously shown that the hemoglobin of the earthworm Lumbricus terrestris (LtEc) is an effective and safe substitute for donated blood that is stable enough to be stored for long periods at the relatively high temperatures that may be encountered in remote areas. The goal of this study was to further increase the thermal stability of LtEc by covalently cross-linking LtEc with glutaraldehyde (gLtEc). Our results show that the melting temperatures of the gLtEc samples steadily increase as the molar ratio of glutaraldehyde to heme increases (from Tm = 57°C for native LtEc up to Tm = 68°C at a ratio of 128:1). In addition, while native LtEc is susceptible to subunit dissociation at alkaline pH (8-10), cross-linking with glutaraldehyde completely prevents dissociation of gLtEc at pH 10. Increasing the molar ratio of glutaraldehyde:heme also significantly increased the oxygen affinity of gLtEc, but this effect was decreased by cross-linking gLtEc in the deoxygenated T state. Finally, while gLtEc samples cross-linked at low G:H ratios (e.g., 2:1) exhibited slight increases in oxidation rate in Tris buffer, no significant difference in oxidation rate was observed between native LtEc and the gLtEc samples in Ringer's Solution, which contains antioxidants. Overall, cross-linking LtEc with glutaraldehyde significantly increases its thermal and structural stability without any loss of function, making gLtEc an attractive blood substitute for deployment in remote areas and battlefields. © 2017 American Institute of Chemical Engineers Biotechnol. Prog., 34:521-528, 2018.

Published

2017

28. Kinome-level screening identifies inhibition of polo-like kinase-1 (PLK1) as a target for enhancing non-viral transgene expression

Author

Laura Gonzalez-Malerva, Joshua LaBaer, Kaushal Rege, Matthew D. Christensen, Jacob Elmer, and Seron Eaton

Subjects

Male, Cell Survival, Pyridines, Transgene, Green Fluorescent Proteins, Cell Culture Techniques, Pharmaceutical Science, Cell Cycle Proteins, Polo-like kinase, Protein Serine-Threonine Kinases, Biology, PLK1, Article, Cyclic N-Oxides, Small Molecule Libraries, chemistry.chemical_compound, Cell Line, Tumor, Proto-Oncogene Proteins, Humans, Kinome, Luciferase, Gene Silencing, Transgenes, Luciferases, Protein Kinase Inhibitors, Drug Carriers, Sulfonamides, Gene knockdown, Dose-Response Relationship, Drug, Entinostat, Kinase, Pteridines, Cell Cycle, Gene Transfer Techniques, Molecular biology, Cell biology, chemistry, Plasmids

Abstract

Human cells contain hundreds of kinase enzymes that regulate several cellular processes, which likely include transgene delivery and expression. We identified several kinases that influence gene delivery and/or expression by performing a kinome-level screen in which, we identified small-molecule kinase inhibitors that significantly enhanced non-viral (polymer-mediated) transgene (luciferase) expression in cancer cells. The strongest enhancement was observed with several small-molecule inhibitors of Polo-like Kinase 1 (PLK 1) (e.g., HMN-214 and BI 2536), which enhanced luciferase expression up to 30-fold by arresting cells in the G2/M phase of the cell cycle and influencing intracellular trafficking of plasmid DNA. Knockdown of PLK 1 using an shRNA-expressing lentivirus further confirmed the enhancement of polymer-mediated transgene expression. In addition, pairwise and three-way combinations of PLK1 inhibitors with the histone deacetylase-1 (HDAC-1) inhibitor Entinostat and the JAK/STAT inhibitor AG-490 enhanced luciferase expression to levels significantly higher than individual drug treatments acting alone. These findings indicate that inhibition of specific intracellular kinases (e.g., PLK1) can significantly enhance non-viral transgene expression for applications in biotechnology and medicine.

Published

2015

29. GENE THERAPY TREATMENTS FOR CANCER

Author

Jacob Elmer

Subjects

Oncology, medicine.medical_specialty, business.industry, Internal medicine, Genetic enhancement, Medicine, Cancer, business, medicine.disease

Published

2017

30. Hemoglobin regulates the migration of glioma cells along poly(ε-caprolactone)-aligned nanofibers

Author

John J. Lannutti, Tyler Nelson, Jacob Elmer, Ruipeng Xue, Jed Johnson, Alexander Roth, Joseph Huntley, Mariano S. Viapiano, Andre F. Palmer, and David R. Harris

Subjects

Cell Survival, Polyesters, Cell Culture Techniques, Nanofibers, Cell Movement, Cell Line, Tumor, Dispersion (optics), Animals, Humans, Viability assay, Fiber, Oligochaeta, Wound Healing, Chemistry, Spheroid, Cell migration, Glioma, Culture Media, Biochemistry, Cell culture, Oxyhemoglobins, Nanofiber, Biophysics, Cattle, Hemoglobin, Biotechnology

Abstract

Aligned fibers have been shown to facilitate cell migration in the direction of fiber alignment while oxygen (O2 )-carrying solutions improve the metabolism of cells in hypoxic culture. Therefore, U251 aggregate migration on poly(ε-caprolactone) (PCL)-aligned fibers was studied in cell culture media supplemented with the O2 storage and transport protein hemoglobin (Hb) obtained from bovine, earthworm and human sources at concentrations ranging from 0 to 5 g/L within a cell culture incubator exposed to O2 tensions ranging from 1 to 19% O2 . Individual cell migration was quantified using a wound healing assay. In addition, U251 cell aggregates were developed and aggregate dispersion/cell migration quantified on PCL-aligned fibers. The results of this work show that the presence of bovine or earthworm Hb improved individual cell viability at 1% O2 , while human Hb adversely affected cell viability at increasing Hb concentrations and decreasing O2 levels. The control data suggests that decreasing the O2 tension in the incubator from 5 to 1% O2 decreased aggregate dispersion on the PCL-aligned fibers. However, the addition of bovine Hb at 5% O2 significantly improved aggregate dispersion. At 19% O2 , Hb did not impact aggregate dispersion. Also at 1% O2 , aggregate dispersion appeared to increase in the presence of earthworm Hb, but only at the latter time points. Taken together, these results show that Hb-based O2 carriers can be utilized to improve O2 availability and the migration of glioma spheroids on nanofibers.

Published

2014

31. Applying horizontal gene transfer phenomena to enhance non-viral gene therapy

Author

Kaushal Rege, Matthew D. Christensen, and Jacob Elmer

Subjects

Genetics, Bartonella henselae, Nuclear gene, Gene Transfer, Horizontal, Trypanosoma cruzi, Transgene, Intracellular parasite, Pharmaceutical Science, Genetic Therapy, Agrobacterium tumefaciens, Plants, Virus Physiological Phenomena, Biology, Gene delivery, biology.organism_classification, Article, DNA sequencing, Host-Pathogen Interactions, Viruses, Horizontal gene transfer, Animals, Humans, Transgenes

Abstract

Horizontal gene transfer (HGT) is widespread amongst prokaryotes, but eukaryotes tend to be far less promiscuous with their genetic information. However, several examples of HGT from pathogens into eukaryotic cells have been discovered and mimicked to improve non-viral gene delivery techniques. For example, several viral proteins and DNA sequences have been used to significantly increase cytoplasmic and nuclear gene delivery. Plant genetic engineering is routinely performed with the pathogenic bacterium Agrobacterium tumefaciens and similar pathogens (e.g. Bartonella henselae) may also be able to transform human cells. Intracellular parasites like Trypanosoma cruzi may also provide new insights into overcoming cellular barriers to gene delivery. Finally, intercellular nucleic acid transfer between host cells will also be briefly discussed. This article will review the unique characteristics of several different viruses and microbes and discuss how their traits have been successfully applied to improve non-viral gene delivery techniques. Consequently, pathogenic traits that originally caused diseases may eventually be used to treat many genetic diseases.

Published

2013

32. Oxygen delivery during extreme anemia with ultra-pure earthworm hemoglobin

Author

Jacob Elmer, Pedro Cabrales, and Andre F. Palmer

Subjects

Male, medicine.medical_specialty, Plasma Substitutes, Hemodynamics, Hematocrit, Article, General Biochemistry, Genetics and Molecular Biology, Hemoglobins, Blood Substitutes, Heart Rate, Cricetinae, Internal medicine, medicine, Animals, Arterial Pressure, Oligochaeta, General Pharmacology, Toxicology and Pharmaceutics, Hemodilution, medicine.diagnostic_test, Chemistry, Albumin, Anemia, General Medicine, Blood flow, Surgery, Oxygen, Red blood cell, Endocrinology, medicine.anatomical_structure, Microvessels, Vascular resistance, Hemoglobin, Blood Gas Analysis, medicine.symptom, Vasoconstriction

Abstract

Aim Lumbricus terrestris (earthworm) erythrocruorin (LtEc) is a naturally occurring extracellular hemoglobin (Hb) with high molecular weight (3.6 MDa), low autoxidation rate, and limited nitric oxide (NO) dioxygenation activity. These properties make LtEc a potential candidate for use as red blood cell (RBC) substitute, i.e. Hb-based oxygen carrier (HBOC). Previous studies have shown that small amounts of LtEc can be safely transfused into mice, rats, and hamsters without eliciting major side effects. Therefore, this study was designed to understand oxygen (O 2 ) transport to tissues and systemic/microvascular hemodynamics induced by LtEc during anemic conditions. Main methods Hamsters fitted with dorsal window chambers were hemodiluted to 18% hematocrit (Hct) using 6 g/dL dextran 70 kDa (Dex70). Hemodilution was then continued to 11% Hct using 10 g/dL LtEc, 6 g/dL Dex70 or 10 g/dL human serum albumin (HSA). Blood pressure, heart rate, blood gas parameters, microvascular hemodynamics, microvascular blood flow, functional capillary density (FCD), intravascular pO 2 and perivascular pO 2 were studied. Key findings LtEc maintained blood pressure without inducing vasoconstriction while increasing microvascular perfusion and FCD relative to Dex70 and HSA. LtEc increased blood O 2 carrying capacity and maintained systemic and microvascular parameters without decreasing arteriolar diameter or increasing vascular resistance with during extreme anemia. LtEc increased O 2 delivery compared to conventional plasma expanders. Significance LtEc or synthetic molecules that replicate the characteristics of LtEc could be effective O 2 carriers with potential to be used in transfusion medicine to prevent tissue anoxia resulting from severe anemia.

Published

2012

33. Hypervolemic infusion of Lumbricus terrestris erythrocruorin purified by tangential-flow filtration

Author

Andre F. Palmer, Jacob Elmer, Shahid Rameez, Yipin Zhou, Pedro Cabrales, and Katie Zorc

Subjects

Chromatography, biology, Chemistry, Immunology, Hematology, Anatomy, biology.organism_classification, Cross-flow filtration, Animal model, biology.protein, Immunology and Allergy, Erythrocruorin, Osmotic pressure, Hemoglobin, Polyacrylamide gel electrophoresis, Lumbricus terrestris, Whole blood

Abstract

Background The hemoglobin of the Earthworm Lumbricus terrestris (also known as erythrocruorin, or LtEc) is a naturally occurring high molecular weight protein assembly (3.6 MDa) that is extremely stable, resistant to oxidation, and transports oxygen similarly to human whole blood. Therefore, LtEc may serve as an alternative to donated human red blood cells, however, a suitable purification process must be developed to produce highly pure LtEc on a large scale that can be evaluated in an animal model to determine the safety and efficacy of LtEc.

Published

2012

34. Preparation of Biology Review and Virtual Experiment/Training Videos to Enhance Learning in Biochemical Engineering Courses

Author

Jacob Elmer, Noelle Comolli, William Kelly, and Zuyi (Jacky) Huang

Published

2015

35. The histone deacetylase inhibitor Entinostat enhances polymer-mediated transgene expression in cancer cell lines

Author

Matthew D. Christensen, Karmella A. Haynes, Jacob Elmer, Jennifer Lehrman, Sutapa Barua, and Kaushal Rege

Subjects

0301 basic medicine, medicine.drug_class, Pyridines, Transgene, Bioengineering, Biology, Applied Microbiology and Biotechnology, Gene Expression Regulation, Enzymologic, Histone Deacetylases, Article, 03 medical and health sciences, chemistry.chemical_compound, Cell Line, Tumor, Gene expression, medicine, Gene silencing, Humans, Transgenes, Histone binding, Entinostat, Histone deacetylase inhibitor, DNA, Neoplasm, Neoplasms, Experimental, Molecular biology, Up-Regulation, Histone Deacetylase Inhibitors, 030104 developmental biology, Histone, chemistry, Acetylation, Benzamides, biology.protein, Biotechnology

Abstract

Eukaryotic cells maintain an immense amount of genetic information by tightly wrapping their DNA around positively charged histones. While this strategy allows human cells to maintain more than 25,000 genes, histone binding can also block gene expression. Consequently, cells express histone acetyl transferases (HATs) to acetylate histone lysines and release DNA for transcription. Conversely, histone deacetylases (HDACs) are employed for restoring the positive charge on the histones, thereby silencing gene expression by increasing histone-DNA binding. It has previously been shown that histones bind and silence viral DNA, while hyperacetylation of histones via HDAC inhibition restores viral gene expression. In this study, we demonstrate that treatment with Entinostat, an HDAC inhibitor, enhances transgene (luciferase) expression by up to 25-fold in human prostate and murine bladder cancer cell lines when used with cationic polymers for plasmid DNA delivery. Entinostat treatment altered cell cycle progression, resulting in a significant increase in the fraction of cells present in the G0/G1 phase at low micromolar concentrations. While this moderate G0/G1 arrest disappeared at higher concentrations, a modest increase in the fraction of apoptotic cells and a decrease in cell proliferation were observed, consistent with the known anticancer effects of the drug. DNase accessibility studies revealed no significant change in plasmid transcriptional availability with Entinostat treatment. However, quantitative PCR studies indicated that Entinostat treatment, at the optimal dose for enhancing transgene expression, led to an increase in the amount of plasmid present in the nucleus in two cancer cell lines. Taken together, our results show that Entinostat enhances polymer- mediated transgene expression and can be useful in applications related to transient protein expression in mammalian cells. Biotechnol. Bioeng. 2016;113: 1345-1356. © 2015 Wiley Periodicals, Inc.

Published

2015

36. Hypervolemic infusion of Lumbricus terrestris erythrocruorin purified by tangential-flow filtration

Author

Jacob, Elmer, Katie, Zorc, Shahid, Rameez, Yipin, Zhou, Pedro, Cabrales, and Andre F, Palmer

Subjects

Male, Mesocricetus, Viscosity, Shock, Models, Biological, Article, Molecular Weight, Oxygen, Arterioles, Disease Models, Animal, Hemoglobins, Blood Substitutes, Osmotic Pressure, Regional Blood Flow, Cricetinae, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Animals, Humans, Cattle, Electrophoresis, Polyacrylamide Gel, Oligochaeta, Filtration, Methemoglobin, Chromatography, Liquid

Abstract

The hemoglobin of the earthworm Lumbricus terrestris (also known as erythrocruorin, or LtEc) is a naturally occurring high-molecular-weight protein assembly (3.6 MDa) that is extremely stable, resistant to oxidation, and transports oxygen similarly to human whole blood. Therefore, LtEc may serve as an alternative to donated human red blood cells. However, a suitable purification process must be developed to produce highly pure LtEc on a large scale that can be evaluated in an animal model to determine the safety and efficacy of LtEc.We used tangential-flow filtration (TFF), an easily scalable and affordable technique, to produce highly pure LtEc from earthworms. The purity, yield, methemoglobin level, viscosity, colloid osmotic pressure, O(2) binding equilibria, and ligand-binding kinetics of the purified LtEc were measured in vitro. The purified LtEc product was then evaluated in hamsters using a hypervolemic infusion model to establish its basic biocompatibility and detect any changes in microcirculatory and systemic variables.TFF was able to produce LtEc with high purity and yield (5-10 g/1000 worms). The purified LtEc product did not elicit hypertension or vasoconstriction when infused into hamsters.LtEc may be easily purified and safely transfused into hamsters in small amounts (0.5-1.5 g/dL final concentration in blood) without any noticeable side effects. Therefore, LtEc may serve as a very promising oxygen carrier for use in transfusion medicine.

Published

2012

37. Purification of Hemoglobin from Red Blood Cells using Tangential Flow Filtration and Immobilized Metal Ion Affinity Chromatography

Author

Jacob Elmer, David R. Harris, and Andre F. Palmer

Subjects

Lysis, Erythrocytes, Clinical Biochemistry, Biochemistry, Article, Chromatography, Affinity, Analytical Chemistry, Cross-flow filtration, Hemoglobins, Affinity chromatography, Protein purification, medicine, Animals, Humans, Chromatography, Chemistry, Cell Biology, General Medicine, Molecular Weight, Oxygen, Electrophoresis, Red blood cell, medicine.anatomical_structure, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Cattle, Electrophoresis, Polyacrylamide Gel, Hemoglobin, Chickens, Oxygen binding, Filtration, Protein Binding

Abstract

Two methods for purifying hemoglobin (Hb) from red blood cells (RBCs) are examined and compared. In the first method, red blood cell lysate is clarified with a 50 nm tangential flow filter and hemoglobin is purified using immobilized metal ion affinity chromatography (IMAC). In the second method, RBC lysate is processed with 50 nm, 500 kDa, and 50-100 kDa tangential flow filters, then hemoglobin is purified with IMAC. Our results show that the hemoglobins from both processes produce identical Hb products that are ultrapure and retain their biophysical properties (except for chicken hemoglobin, which shows erratic oxygen binding behavior after purification). Therefore, the most efficient method for Hb purification appears to be clarification with a 50 nm tangential flow filter, followed by purification with IMAC, and sample concentration/polishing on a 10-50 kDa tangential flow filter.

Published

2010

38. Functional comparison of hemoglobin purified by different methods and their biophysical implications

Author

Jacob Elmer, Francine Wood, Yiping Jia, Andre F. Palmer, Paul W. Buehler, Abdu I. Alayash, and David R. Harris

Subjects

Canada, Erythrocytes, Kinetics, Bioengineering, Applied Microbiology and Biotechnology, Cofactor, Blood substitute, chemistry.chemical_compound, Hemoglobins, medicine, Animals, Humans, Heme, Chromatography, biology, Autoxidation, Chemistry, Red blood cell, medicine.anatomical_structure, Biochemistry, Catalase, biology.protein, Cattle, Hemoglobin, Filtration, Biotechnology

Abstract

Hemoglobin (Hb) that is purified from red blood cells (RBCs) is commonly subjected to harsh processing conditions, such as high temperatures and extensive column separation, which may damage the Hb by altering the heme prosthetic group and/or the Hb protein structure. In this study, bovine and human Hb purified by tangential flow filtration (TFF) was compared to commercial preparations of human Hb (Hemosol, Inc., Toronto, Canada) and bovine Hb (Biopure, Inc., Cambridge, MA). Purified Hbs were characterized by measuring their overall purity (SDS-PAGE, SEC, and ESI-MS), susceptibility to oxidation (k(ox)), responses to physiological conditions (pH, [Cl(-)], [IHP], and T), and ligand binding kinetics (O(2), NO, and CO). All Hbs evaluated possessed comparable biophysical properties, however, a small amount of catalase was detected in the TFF-purified Hbs that reduced the rate of autoxidation. Mass changes observed by mass spectrometry suggest that structural alterations may be introduced into Hbs that are purified by extensive chromatographic separations. These results demonstrate that TFF is a suitable process for the purification of Hb from RBCs with a quality equivalent to that of commercial Hb preparations that employ more extensive purification strategies. This work also shows that TFF can yield highly pure Hb which can be used for Hb-based O(2) carrier synthesis.

Published

2010

39. Purification of Hemoglobin by Tangential Flow Filtration with Diafiltration

Author

Andre F. Palmer, Guoyong Sun, Jacob Elmer, and David R. Harris

Subjects

Lysis, Erythrocytes, Methemoglobin, Article, Permeability, Blood substitute, Cross-flow filtration, Hemoglobins, Animals, Humans, Polyacrylamide gel electrophoresis, Chromatography, High Pressure Liquid, Chromatography, Chemistry, Proteins, Equipment Design, Endotoxins, Oxygen, Diafiltration, Membrane, Biochemistry, Cattle, Electrophoresis, Polyacrylamide Gel, Hemoglobin, Filtration, Biotechnology

Abstract

A recent study by Palmer, Sun, and Harris (Biotechnol. Prog., 25:189-199, 2009) demonstrated that tangential flow filtration (TFF) can be used to produce HPLC-grade bovine and human hemoglobin (Hb). In this current study, we assessed the quality of bovine Hb (bHb) purified by introducing a 10 L batch-mode diafiltration step to the previously mentioned TFF Hb purification process. The bHb was purified from bovine red blood cells (RBCs) by filtering clarified RBC lysate through 50 nm (stage I) and 500 kDa (stage II) hollow fiber (HF) membranes. The filtrate was then passed through a 100 kDa (stage III) HF membrane with or without an additional 10 L diafiltration step to potentially remove additional small molecular weight impurities. Protein assays, SDS-PAGE, and LC-MS of the purified bHb (stage III retentate) reveal that addition of a diafiltration step has no effect on bHb purity or yield; however, it does increase the methemoglobin level and oxygen affinity of purified bHb. Therefore, we conclude that no additional benefit is gained from diafiltration at stage III and a three stage TFF process is sufficient to produce HPLC-grade bHb.

Published

2009