TRUSTEES OF THE SMITH COLLEGE, THE
In the developing vertebrate central nervous system, radial glial cells play critical roles in supporting brain architecture and, more recently discovered, possess self-renewing capabilities as well as gliogenic and neurogenic potential. Radial glial cells have been known since the time of Cajal, but over the last few decades the increase of available markers particularly glial fibrillary acidic protein has made their identification as astroglial cells increasingly easier. Much of our understanding of radial glial cells originates from their function as a scaffold for the migration of newly born neurons in the developing mammalian cerebral cortex. However, current knowledge of the stem cell-like potential of radial glial cells is very limited, and in particular what the surrounding radial glial niche of the embryonic ventricular zone looks like. What glial or neuronal cell types are derived from radial glia in the embryonic spinal cord? Do radial glia have a unique intrinsic regulator of cell division to carry out the mechanics of continued self-renewal? The investigator proposes to fully exploit the embryological, molecular, and genetic techniques that are in some cases uniquely amenable to zebrafish to address these questions. He proposes to (1) establish a three-dimensional map of astroglia and radial glia within the embryonic spinal cord, and (2) determine whether the eg5 kinesin motor protein is required cell autonomously for radial glial cell division. By combining both a gfap transgenic line driving the expression of GFP with elegant gastrula staged transplantations, The investigator will target clusters of scattered gfap:GFP+ cells into a non-transgenic spinal cord. Imaging of these astroglial cells with high resolution confocal microscopy will provide a full cellular morphological analysis, shedding light on the types of astroglia present in the embryonic spinal cord and how they interact with other cell types. Furthermore, the investigator identified an eg5 zebrafish mutant that exhibits cell proliferative defects in radial glial cells. By utilizing this mutant as well as testing several anti-cancer drugs targeting Eg5, he will determine how this gene regulates radial glial cell division and whether other cell types derived from radial glia are also affected by the loss of Eg5. In this revitalized field of glial biology and a model system lacking foundational data on astroglial development, these results will provide fundamental information of radial glial development that can be the springboard for many new avenues of research. Understanding the role of Eg5 in the developing embryo will also provide critical information regarding the use of anti-cancer drugs targeting Eg5 in humans especially for glial derived tumors, such as congenital gliomas.
Choose a quarter and click "Go."
| AWARD OVERVIEW |
| Award Number |
1R15HD060023-01 |
Funding Agency |
Department of Health and Human Services |
| Total Award Amount |
$199,526 |
Project Location - City |
Northampton |
| Award Date |
08/27/2009 |
Project Location - State |
MA |
| Project Status |
More than 50% Completed |
Project Location - Zip |
01063-6302
|
| Jobs Reported |
0.00 |
Congressional District |
02 |
| Project Location - Country |
US |
|
|
Recipient Information
(Grants)
| Recipient Information (Grants) |
|
Recipient Name
|
TRUSTEES OF THE SMITH COLLEGE, THE |
| Recipient DUNS Number |
066989427
|
| Recipient Address |
1 CHAPIN WAY |
| Recipient City |
NORTHAMPTON |
| Recipient State |
Massachusetts |
| Recipient Zip |
01063-6302 |
| 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 |
The Role of Eg5 in Radial Glial Development in the Zebrafish Spinal Cord |
| Project Status |
More than 50% Completed |
| Final Project Report Submitted |
No |
| Project Activities Description |
Biological & Life Sciences |
| Quarterly Activities/Project Description |
As described in previous reports, we have successfully characterized the role of Eg5/ Kif11 on neural stem cell division in the embryonic zebrafish spinal cord. Through mathematical modeling we identified several parameters involved in explaining the effects of a loss of kif11. We addressed the role of cell death and cell proliferation in the context of kif11 mutants and chemical inhibition of the encoded Kinesin motor protein. We also determined the neuronal and glial cell fates impacted by the resulting mitotic arrest of radial glial neural stem cells following Kif11 loss. I am pleased to say that we have submitted an extensive manuscript to Developmental Biology for publication. To date we have not yet heard back from this review. Meanwhile, we are continuing our analysis of cell cycle regulation in radial glial cells of kif11 mutants. Specifically, we are testing whether a radial glial cell is capable of completing mitosis at all and if so be able to divide again. To do this we are using a BrdU/IdU double S-phase labeling technique. This will provide a more stringent test of mitotic arrest as well as begin to identify any populations of cells that are unaffected by the loss of Kif11, a population that our current data suggests exists. Lastly, we are also beginning analysis of the role Wnt5b plays in regulating radial glial cell division in the spinal cord, which is a gene identified in our previous genetic screen as essential for radial glial numbers. |
| Jobs Created |
0.00 |
| Description of Jobs Created |
No jobs were created this quarter. |
Purchaser Information
(Grants)
| Purchaser Information |
| Contracting Office ID |
Not Reported |
| Contracting Office Name |
Not Available |
| Contracting Office Region |
Not Available |
| TAS Major Program |
75-0840 |
| Award Information |
| Award Date |
08/27/2009 |
| Award Number |
1R15HD060023-01 |
| 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 |
$199,526 |
| Funds Invoiced/Received |
$164,545 |
| Expenditure Amount |
$175,131 |
| 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 |
U02 |
| Activity Description |
Biological & Life Sciences |
| 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 |
208 |
| Total Amount of payments to vendors less than $25,000/award |
$57,469 |
| Location Information |
| Latitude, Longitude |
42º 19' 5",
-72º 38' 17" |
| Congressional District |
02 |
| Address 1 |
|
| Address 2 |
|
| City |
Northampton |
| County |
Hampshire |
| State |
MA |
| Zip |
01063-6302 |
|
 |