CYP4F3 in renal inflammation
Christmas, Peter   
Massachusetts General Hospital, Boston, MA, United States

Principal Investigator/Program Director (Last, first, middle): Christmas, Peter RESEARCH &RELATED Other Project Information 1. * Are Human Subjects Involved? l Yes m No 1.a. If YES to Human Subjects Is the IRB review Pending? l Yes m No IRB Approval Date: Exemption Number: 1 2 3 4 4 5 6 Human Subject Assurance Number 00003136 2. * Are Vertebrate Animals Used? l Yes m No 2.a. If YES to Vertebrate Animals Is the IACUC review Pending? m Yes l No IACUC Approval Date: 11-15-2006 Animal Welfare Assurance Number A3596-01 3. * Is proprietary/privileged information m Yes l No included in the application? 4.a.* Does this project have an actual or potential impact on m Yes l No the environment? 4.b. If yes, please explain: 4.c. If this project has an actual or potential impact on the environment, has an exemption been authorized or an environmental assessment (EA) or environmental impact statement (EIS) been performed? m Yes m No 4.d. If yes, please explain: 5.a.* Does this project involve activities outside the U.S. or m Yes l No partnership with International Collaborators? 5.b. If yes, identify countries: 5.c. Optional Explanation: 6. * Project Summary/Abstract 2275-Project_Summary.pdf Mime Type: application/pdf 7. * Project Narrative 486-Project_Narrative.pdf Mime Type: application/pdf 8. Bibliography &References Cited 5015-References_cited.pdf Mime Type: application/pdf 9. Facilities &Other Resources 5791-Facilities.pdf Mime Type: application/pdf 10. Equipment 9491-Equipment.pdf Mime Type: application/pdf Tracking Number: Other Information Page 5 OMB Number: 4040-0001 Expiration Date: 04/30/2008 Principal Investigator/Program Director (Last, first, middle): Christmas, Peter Project summary Leukotriene B4 (LTB4) is a potent inflammatory mediator, derived from arachidonic acid, which plays a prominent role in ischemia-reperfusion injury and inflammation of the kidney. The enzyme CYP4F3 has specialized properties which enable it to inactivate LTB4: it has a uniquely low Km for LTB4 as a substrate, and it has a restricted localization to leukocytes which mediate LTB4-dependent responses. The hypothesis of this proposal is that CYP4F3 negatively regulates inflammation by attenuating the activities of LTB4. To test this hypothesis, three specific aims are proposed: (1) to investigate the regulation of LTB4-dependent responses by CYP4F3 in leukocytes in vitro;(2) to investigate the mechanism by which CYP4F3 regulates inflammation;and (3) to investigate the role of the mouse homologue of CYP4F3 (CYP4F18) in renal disease in vivo.
In Specific Aim 1, CYP4F3 enzyme activity in leukocytes will be inhibited using a specific chemical inhibitor, a lentiviral- delivered siRNA approach, and a mouse genetic knockout, and the ability of LTB4 to stimulate cell chemoattraction and secretion will be measured using in vitro assays. The uniqueness of CYP4F3 function will be assessed by comparing other enzymes which metabolize LTB4 with higher Km values.
In Specific Aim 2, receptor studies will be performed to determine if the product of LTB4 inactivation (20-OH LTB4) promotes LTB4 receptor (BLT1) down-regulation, thus providing a doubly efficient attenuation mechanism. The integration of CYP4F3 and BLT1 activity will be further investigated by determining the effects of CYP4F3:BLT1 expresion ratio on LTB4 responsiveness.
In Specific Aim 3, a mouse model of renal ischemia-reperfusion injury will be used to determine if targeted deletion of the CYP4F18 gene leads to increased inflammation and cell injury in vivo. These studies are relevant to public health because ischemic injury and inflammation are primary pathophysiological mechanisms leading to disorders of the kidney, such as renal failure and transplant rejection, which are associated with a high mortality rate. The significance of the research is that CYP4F3 provides a natural (non-toxic) anti-inflammatory target that might be selectively modulated in specific tissues such as the kidney. The long-term objectives are to correlate changes in CYP4F3 activity with inflammatory disease states in humans, and to identify and manipulate the regulatory pathways that control CYP4F3 gene expression and activity. Project Description Page 6