Search

Your search keyword '"Colin Brady"' showing total 13 results
Start Over Author "Colin Brady"
Sorry, I don't understand your search. ×
13 results on '"Colin Brady"'

1. Needle-free, spirulina-produced Plasmodium falciparum circumsporozoite vaccination provides sterile protection against pre-erythrocytic malaria in mice

Author

Tracy Saveria, Chaitra Parthiban, Annette M. Seilie, Colin Brady, Anissa Martinez, Ridhima Manocha, Esha Afreen, Hui Zhao, Ashley Krzeszowski, Jeremy Ferrara, Troy Paddock, James Roberts, Brad C. Stone, Michael Tasch, and Sean C. Murphy

Subjects
Immunologic diseases. Allergy, RC581-607, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Abstract Antibodies against the Plasmodium falciparum circumsporozoite protein (PfCSP) can block hepatocyte infection by sporozoites and protect against malaria. Needle-free vaccination strategies are desirable, yet most PfCSP-targeted vaccines like RTS,S require needle-based administration. Here, we evaluated the edible algae, Arthrospira platensis (commonly called ‘spirulina’) as a malaria vaccine platform. Spirulina were genetically engineered to express virus-like particles (VLPs) consisting of the woodchuck hepatitis B core capsid protein (WHcAg) displaying a (NANP)15 PfCSP antigen on its surface. PfCSP-spirulina administered to mice intranasally followed by oral PfCSP-spirulina boosters resulted in a strong, systemic anti-PfCSP immune response that was protective against subcutaneous challenge with PfCSP-expressing P. yoelii. Unlike male mice, female mice did not require Montanide adjuvant to reach high antibody titers or protection. The successful use of spirulina as a vaccine delivery system warrants further development of spirulina-based vaccines as a useful tool in addressing malaria and other diseases of global health importance.

Published
2022
Full Text
View/download PDF

3. Development of spirulina for the manufacture and oral delivery of protein therapeutics

Author

Benjamin W. Jester, Hui Zhao, Mesfin Gewe, Thomas Adame, Lisa Perruzza, David T. Bolick, Jan Agosti, Nhi Khuong, Rolf Kuestner, Caitlin Gamble, Kendra Cruickshank, Jeremy Ferrara, Rachelle Lim, Troy Paddock, Colin Brady, Stacey Ertel, Miaohua Zhang, Alex Pollock, Jamie Lee, Jian Xiong, Michael Tasch, Tracy Saveria, David Doughty, Jacob Marshall, Damian Carrieri, Lauren Goetsch, Jason Dang, Nathaniel Sanjaya, David Fletcher, Anissa Martinez, Bryce Kadis, Kristjan Sigmar, Esha Afreen, Tammy Nguyen, Amanda Randolph, Alexandria Taber, Ashley Krzeszowski, Brittney Robinett, David B. Volkin, Fabio Grassi, Richard Guerrant, Ryo Takeuchi, Brian Finrow, Craig Behnke, and James Roberts

Subjects
Mice, Spirulina, Biomedical Engineering, Animals, Humans, Proteins, Molecular Medicine, Bioengineering, Biomass, Photosynthesis, Applied Microbiology and Biotechnology, Biotechnology
Abstract

The use of the edible photosynthetic cyanobacterium Arthrospira platensis (spirulina) as a biomanufacturing platform has been limited by a lack of genetic tools. Here we report genetic engineering methods for stable, high-level expression of bioactive proteins in spirulina, including large-scale, indoor cultivation and downstream processing methods. Following targeted integration of exogenous genes into the spirulina chromosome (chr), encoded protein biopharmaceuticals can represent as much as 15% of total biomass, require no purification before oral delivery and are stable without refrigeration and protected during gastric transit when encapsulated within dry spirulina. Oral delivery of a spirulina-expressed antibody targeting campylobacter—a major cause of infant mortality in the developing world—prevents disease in mice, and a phase 1 clinical trial demonstrated safety for human administration. Spirulina provides an advantageous system for the manufacture of orally delivered therapeutic proteins by combining the safety of a food-based production host with the accessible genetic manipulation and high productivity of microbial platforms.

Published
2022

4. Using synthetic activity to design ultra-potent antibody cocktails

Author

Hui Zhao, Michael Dodds, Michael Tasch, Mesfin Gewe, Anissa Martinez, Melanie Hutton, Kristie Keeney, Alex Pollock, Benjamin W. Jester, Nhi Khuong, Mia Zhang, Stacey Ertel, Colin Brady, Mark Heinnickel, Hannah Tabakh, Nathan Sanjaya, Kendra Cruickshank, Troy Paddock, Sarah Struyvenberg, Jason Dang, Tracy Saveria, Chelsea Shanitta, David Fletcher, Kristjan Sigmar, Lauren Goetsch, Caitlin Gamble, Steven J. Mileto, Ryan Heselpoth, Dena Lyras, Craig A. Behnke, Vincent Fischetti, Brian Finrow, and James M. Roberts

Abstract

Drugs which independently inhibit a shared target or pathway can have synthetic activities that result in multiplicative instead of merely additive potencies. This characteristic of drug combinations can be quantified by expressing the potency of the combination as if it were a single agent. We show that by optimizing this quantity we can prospectively design drug cocktails with apparent potencies that far exceed any of its individual components. We illustrate the power of this approach, which is based on statistical design of experiments to select optimal drug combinations, and response surface methodology to determine optimal drug ratios, by building a drug cocktail comprised of three antibodies for treating C. difficile infection that is almost 1000-fold more potent than the current, clinically approved antibody monotherapy. High synthetic activities do not require unusual drug interactions, and therefore may be achievable much more readily than generally appreciated.One-Sentence SummaryA development pathway is described for designing antibody cocktails with potencies that far exceed what is achievable with single antibodies

Published
2021

6. Expression and manufacturing of protein therapeutics in spirulina

Author

Tracy Saveria, Brittney Robinett, Tammy Nguyen, Jacob Marshall, Ryo Takeuchi, Ashley Krzeszowski, James A. Roberts, Lisa Perruzza, Khuong Nhi, Mesfin Gewe, Bryce Kadis, Nathaniel Sanjaya, Rolf E. Kuestner, Stacey Ertel, Michael Tasch, Jan M. Agosti, Craig A. Behnke, Kendra Cruickshank, Hui Zhao, David Fletecher, Brian Finrow, Jeremy Ferrara, Mia Zhang, David M. Doughty, Michael Spigarelli, Colin Brady, Troy Paddock, Jason Dang, Thomas Adame, Fabio Grassi, Benjamin Jester, Kristjian Sigmar, Richard Guerrant, David T. Bolick, Alexandria Taber, Esha Afreen, Rachelle Lim, Lauren Goetsch, Caitlin Gamble, Damian Carrieri, Anissa Martinez, Amanda Randolph, and Jamie Lee

Subjects
Spirulina (genus), Protein therapeutics, biology, business.industry, High productivity, Arthrospira platensis, Biomanufacturing, biology.organism_classification, business, Nutritious food, Biotechnology
Abstract

Arthrospira platensis(commonly known as spirulina) is a photosynthetic cyanobacterium1. It is a highly nutritious food that has been consumed for decades in the US, and even longer by indigenous cultures2. Its widespread use as a safe food source and proven scalability have driven frequent attempts to convert it into a biomanufacturing platform. But these were repeatedly frustrated by spirulina’s genetic intractability. We report here efficient and versatile genetic engineering methodology for spirulina that allows stable expression of bioactive protein therapeutics at high levels. We further describe large-scale, indoor cultivation and downstream processing methods appropriate for the manufacturing of biopharmaceuticals in spirulina. The potential of the platform is illustrated by pre-clinical development and human testing of an orally delivered antibody therapeutic against campylobacter, a major cause of infant mortality in the developing world and a growing antibiotic resistance threat3,4. This integrated development and manufacturing platform blends the safety of food-based biotechnology with the ease of genetic manipulation, rapid growth rates and high productivity characteristic of microbial platforms. These features combine for exceptionally low-cost production of biopharmaceuticals to address medical needs that are unfeasible with current biotechnology platforms.

Published
2021

7. Author Correction: Development of spirulina for the manufacture and oral delivery of protein therapeutics

Author

Benjamin W. Jester, Hui Zhao, Mesfin Gewe, Thomas Adame, Lisa Perruzza, David T. Bolick, Jan Agosti, Nhi Khuong, Rolf Kuestner, Caitlin Gamble, Kendra Cruickshank, Jeremy Ferrara, Rachelle Lim, Troy Paddock, Colin Brady, Stacey Ertel, Miaohua Zhang, Alex Pollock, Jamie Lee, Jian Xiong, Michael Tasch, Tracy Saveria, David Doughty, Jacob Marshall, Damian Carrieri, Lauren Goetsch, Jason Dang, Nathaniel Sanjaya, David Fletcher, Anissa Martinez, Bryce Kadis, Kristjan Sigmar, Esha Afreen, Tammy Nguyen, Amanda Randolph, Alexandria Taber, Ashley Krzeszowski, Brittney Robinett, David B. Volkin, Fabio Grassi, Richard Guerrant, Ryo Takeuchi, Brian Finrow, Craig Behnke, and James Roberts

Subjects
Biomedical Engineering, Molecular Medicine, Bioengineering, Applied Microbiology and Biotechnology, Biotechnology
Published
2022

8. Survival after hepatectomy for metastatic colorectal cancer in the presence of resectable extrahepatic disease

Author

Ravi Chokshi, Ioannis Hatzaras, Ryan Neff, Carl Schmidt, Colin Brady, Lavina Malhotra, Edward Martin, and Mark Bloomston

Abstract

Background: The presence of extrahepatic disease, bilobar disease or greater than four hepatic lesions were once considered contraindications to hepatectomy for colorectal metastases but are being reconsidered. We reviewed our experience with resection of extrahepatic disease (EHD) at the time of hepatectomy for metastatic colorectal cancer to determine the impact on perioperative and long-term outcome. Methods: The medical records of 441 patients who underwent hepatectomy for colorectal cancer metastases from 1989 to 2010 were reviewed. Demographics, clinicopathologic characteristics, and outcomes were compared between those with and without extrahepatic disease. Overall survival curves were constructed using the Kaplan Meier method and compared with the log rank test. Multivariate analysis using logistic and Cox proportional hazards regression were used to determine predictors of perioperative mortality and longterm survival, respectively. Results: Fifty-nine (13%) patients presented with EHD at the time of hepatectomy. There were no significant differences between patients with and without EHD with regard to age, gender, disease free interval, or the number and distribution of hepatic metastases. Patients with EHD were as likely to undergo complete (i.e. R0) resection as those with isolated liver metastases (59% vs. 74%. p>0.05). Perioperative mortality in the 441 patients was 2.3%. Only increasing number of liver segments resected and perioperative complications were predictive of perioperative mortality by multivariate analysis. Median overall survival was 20.5 months in patients with EHD compared to 35.2 months in patients without EHD (p

Published
2014

9. Common bile duct exploration

Author

Colin Brady, Charles M. Vollmer, and Shishir K. Maithel

Subjects
Common bile duct exploration, business.industry, Medicine, Anatomy, business
Published
2015

10. Book Reviews

Author

Colin Brady, Adrian Slade, Revd Jeni Parsons, Barrie Swift, and David Boulton

Subjects
Sociology and Political Science, Religious studies
Published
1999

12. Endo-1,4-[beta]-Glucanase, Xyloglucanase, and Xyloglucan Endo-Transglycosylase Activities Versus Potential Substrates in Ripening Tomatoes

Author

Colin Brady and Gordon Maclachlan

Subjects
biology, Physiology, food and beverages, Ripening, Cell wall disassembly, Plant Science, Glucanase, biology.organism_classification, Xyloglucan, chemistry.chemical_compound, chemistry, Biochemistry, Genetics, Xyloglucan:xyloglucosyl transferase, Food science, Cellulose, Softening, Solanaceae, Research Article
Abstract

In ripening fruits of tomato (Lycopersicon esculentum L. var 83-G-38), the amounts of cellulose and xyloglucan (XG) remained constant during tissue softening, but the relative molecular weight (Mr) of XG decreased markedly and the Mr of cellulose declined slightly. These changes could have been due to activities of non-specific endo-1,4-[beta]-glucanases and/or buffer-soluble XG endo-transglycosylase, both of which increased when tissue firmness declined most rapidly. Tomato extracts also reduced the viscosity of XG solutions, especially in the presence of added XG oligosac-charides. This depolymerizing (XGase) capacity differed from [beta]-glucanase and XG transglycosylase activity (a) by being almost entirely buffer insoluble, and (b) by declining precipitously during fruit softening. Although it disappeared from ripe fruit, XGase may have functioned in promoting wall loosening at earlier stages of fruit development when its activity was highest. By contrast, during aging of fruit in the ripening-inhibited mutant rin there was no change in Mr of XG or cellulose, and activities of [beta]-glucanases and XG transglycosylase were lower than in wild-type tomato. Nevertheless, some softening of the fruit did take place over time and XG amounts declined, possibly because high XGase activity was maintained in the mutant, unlike in wild-type fruit.

Published
1994

13. Effect of dopamine transporter genotype on caudate volume in childhood ADHD and controls

Author

Colin Brady, Devon Shook, Edwin H. Cook, Laura Kenealy, Mark A. Stein, John W. VanMeter, Philip S. Lee, William D. Gaillard, Eric R. Murphy, and Chandan J. Vaidya

Subjects
Male, medicine.medical_specialty, Adolescent, Genotype, Caudate nucleus, Brain mapping, Lateralization of brain function, Article, Cellular and Molecular Neuroscience, chemistry.chemical_compound, Dopamine, Internal medicine, mental disorders, medicine, Attention deficit hyperactivity disorder, Humans, Neurotransmitter, Child, Genetics (clinical), Dopamine transporter, Demography, Brain Mapping, Dopamine Plasma Membrane Transport Proteins, biology, business.industry, Case-control study, Organ Size, medicine.disease, Psychiatry and Mental health, Endocrinology, chemistry, Attention Deficit Disorder with Hyperactivity, Case-Control Studies, biology.protein, Female, Caudate Nucleus, business, medicine.drug
Abstract

Polymorphism of the dopamine transporter genotype (DAT1) confers a small but significant susceptibility to attention deficit hyperactivity disorder (ADHD). We examined whether the volume of the head of caudate, a striatal structure with high DAT expression that is important for inhibitory function, differs by DAT1 in children diagnosed with the disorder relative to age and IQ matched controls. Volume of the head of caudate was delineated in the right and left hemisphere and compared between 7- and 13-year-old children with and without ADHD (combined type) who were carriers of two (10/10) or one (9/10) copy of the 10-repeat DAT1 allele. Caudate volumes were overall smaller in 10/10 than 9/10 children, particularly in the left than right hemisphere. While DAT1 effects did not vary by ADHD diagnosis, overall caudate volumes were smaller in ADHD relative to control children. Altered caudate development associated with 10-repeat homozygosity of DAT1 may contribute susceptibility to ADHD.

Published
2010

Catalog

Books, media, physical & digital resources
See catalog results