REGENTS OF THE UNIVERSITY OF COLORADO, THE
Therapeutic proteins provide unique and critical treatments for many human diseases and conditions However, if a protein product cannot be stabilized adequately, its benefit to human health will never be realized. Proteins are highly susceptible to the formation of non-native aggregates and precipitates, which can cause adverse reactions in patients, ranging from immune response to anaphylactic shock and even death. Unfortunately, the mechanisms that control aggregation of therapeutic proteins are poorly understood. We have developed a tightly interwoven set of experiments, theories, and molecular level simulations to address our central hypothesis that the kinetics and thermodynamics of aggregation of therapeutic proteins are controlled by three main factors: conformational stability, colloidal stability, and interactions with interfaces. Each of these factors can be manipulated by changing solution conditions, protein structure, or both. To test our central hypothesis, we will manipulate protein conformational stability, protein-protein intermolecular interactions, and protein-surface interactions by employing innovative, state-of-the-art experimental methods. We have chosen a large set of model proteins in order to encompass a broad range of protein structural classes, molecular weights, and functionalities. These experiments, and their interpretation, will be complemented by innovative computer simulations and theoretical frameworks aimed at understanding the mechanisms that control protein aggregation at a molecular level. The Biotechnology Research Partnership team will be led by Prof. Ted Randolph, director of the Center for Pharmaceutical Biotechnology at the University of Colorado. Key scientific personnel on the team include Prof. Kristi Anseth (U. Colorado) an expert in biological applications of polymers, Prof. John Carpenter (U. Colorado Health Sciences Center), an expert in formulation of therapeutic proteins, Prof. Carol Hall, a leader in the field of computer simulations of protein aggregation, Prof. Kristi Kiick (U. Delaware), an expert in production of artificial proteins, Prof. Christopher Roberts (U. Delaware), an expert in modeling an analysis of protein aggregation, and Prof. Daniel Schwartz, a leader in studying protein behavior at interfaces. Relevance: To improve the safety of protein-based drugs, the problem of aggregation must be solved. The proposed research will discover how aggregation occurs, and develop strategies to prevent it.
| AWARD OVERVIEW |
| Award Number |
3R01EB006006-03S1 |
Funding Agency |
Department of Health and Human Services |
| Total Award Amount |
$126,713 |
Project Location - City |
Boulder |
| Award Date |
07/16/2009 |
Project Location - State |
CO |
| Project Status |
Completed |
Project Location - Zip |
80309-0572
|
| Jobs Reported |
0.50 |
Congressional District |
02 |
| Project Location - Country |
US |
|
|
Recipient Information
(Grants)
| Recipient Information (Grants) |
|
Recipient Name
|
REGENTS OF THE UNIVERSITY OF COLORADO, THE |
| Recipient DUNS Number |
007431505
|
| Recipient Address |
3100 MARINE ST 572 UCB |
| Recipient City |
BOULDER |
| Recipient State |
Colorado |
| Recipient Zip |
80303-1058 |
| Recipient Congressional District |
02 |
| Recipient Country |
USA |
Required to Report Top 5
Highly Compensated Officials |
No |
Projects and Jobs Information
| Projects and Jobs Information |
| Project Title |
Aggregation of Protein Therapeutics: Mechanisms, Stability, and Interdiction |
| Project Status |
Completed |
| Final Project Report Submitted |
Yes |
| Project Activities Description |
Research & Public Policy Analysis |
| Quarterly Activities/Project Description |
A concern in the biopharma industry is the effect of silicone oil and stainless steel microparticles on immunogenicity, a common adverse reaction noted for protein drug formulations. Immunbogenicity of a therapeutic protein may compromise its efficacy and potential endanger human health.
Prefillable syringes, which are commonly used to administer therapeutic protein products, use silicone oil lubricants to facilitate plunger movement. Silicone oil droplets are expelled into the drug formulation during storage and handling, allowing therapeutic proteins to adsorb to the droplets. Also, stainless steel microparticles are shed from filler pumps into drug formulations during the final stages of the manufacturing process. Such foreign microparticles present in therapeutic protein formulations may behave like adjuvants. Adjuvants are commonly used in vaccines to enhance immune responses. Therapeutic proteins that adsorb to foreign microparticles are hypothesized to mimic antigens adsorbed to adjuvants, and, therefore, are more likely to be immunogenic.
To test this hypothesis, we used suspensions of well characterized micrpoparticles of stainless steel and silicone oil to explore whether adsorption to these particles confers immunogenicity in mice against mouse growth hormone, a self-protein that is normally non-immunogenic.
We have conducted characterization by microflow imaging, high performance liquid chromatography, Fourier-transform infrared spectroscopy, endotoxin assays, etc. of recombinant mouse growth hormone. The mouse growth hormone, which we have produced in E. coli, was administered subcutaneously to mice in immunogenicity experiments. These experiments are now finished , and the reuslts from them are being processed for submission as a publication in J. Pharm. Sci.
|
| Jobs Created |
0.50 |
| Description of Jobs Created |
Graduate StudentPost Doctorate |
Purchaser Information
(Grants)
| Purchaser Information |
| Contracting Office ID |
Not Reported |
| Contracting Office Name |
Not Available |
| Contracting Office Region |
Not Available |
| TAS Major Program |
75-0899 |
| Award Information |
| Award Date |
07/16/2009 |
| Award Number |
3R01EB006006-03S1 |
| Order Number |
|
| Award Type |
Grants |
| Funding Agency ID |
75 |
| Funding Agency Name |
Department of Health and Human Services |
| Funding Office Name |
Not Available |
| Awarding Agency ID |
75 |
| Awarding Agency Name |
Department of Health and Human Services |
| Amount of Award |
$126,713 |
| Funds Invoiced/Received |
$126,713 |
| Expenditure Amount |
$126,713 |
| Infrastructure Expenditure Amount |
$0 |
| Infrastructure Purpose and Rationale |
Not Reported |
| Infrastructure Point of Contact Name |
Not Reported |
| Infrastructure Point of Contact Email |
Not Reported |
| Infrastructure Point of Contact Phone |
Not Reported |
| Infrastructure Point of Contact Address |
Not Reported |
| Infrastructure Point of Contact City |
Not Reported |
| Infrastructure Point of Contact State |
Not Reported |
| Infrastructure Point of Contact Zip |
Not Reported |
Product or Service Information
(Grants)
| Product or Service Information |
| Primary Activity Code |
**K |
| Activity Description |
Research & Public Policy Analysis |
| Sub-Awards Information |
| Sub-awards to Organizations |
0 |
| Sub-award Amounts to Organizations |
$0 |
| Sub-Awards to Individuals |
0 |
| Sub-Award Amounts to Individuals |
$0 |
| Number of Sub-awards less than $25,000/award |
0 |
| Amount of Sub-awards less than $25,000/award |
$0 |
| Number of payments to vendors greater than $25,000 |
0 |
| Total Amount of payments to vendors greater than $25,000/award |
$0 |
| Number of payments to vendors less than $25,000/award |
31 |
| Total Amount of payments to vendors less than $25,000/award |
$42,194 |
| Location Information |
| Latitude, Longitude |
40º 0' 22",
-105º 15' 55" |
| Congressional District |
02 |
| Address 1 |
3100 Marine St - Room 479 |
| Address 2 |
572 UCB |
| City |
Boulder |
| County |
Boulder |
| State |
CO |
| Zip |
80309-0572 |
|
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