Skin regeneration and wound healing with a topical BRAF inhibitor
Grant Award Details
Grant Type:
Grant Number:
CLIN1-12946
Investigator(s):
Disease Focus:
Award Value:
$5,005,126
Status:
Active
Grant Application Details
Application Title:
Skin regeneration and wound healing with a topical BRAF inhibitor
Public Abstract:
Therapeutic Candidate or Device
LUT017 gel is a small molecule inhibitor of BRAF
Indication
Venus leg non-healing ulcerous wounds
Therapeutic Mechanism
The administration LUT017 gel will regenerate cutaneous stem cells and induce keratinocyte proliferation resulting in an improvement of VLU non-healing wounds.
Unmet Medical Need
There are no previously approved FDA drugs for this condition that affects to 1 out of 100 Californians.
Project Objective
Complete the IND-enabling studies
Major Proposed Activities
LUT017 gel is a small molecule inhibitor of BRAF
Indication
Venus leg non-healing ulcerous wounds
Therapeutic Mechanism
The administration LUT017 gel will regenerate cutaneous stem cells and induce keratinocyte proliferation resulting in an improvement of VLU non-healing wounds.
Unmet Medical Need
There are no previously approved FDA drugs for this condition that affects to 1 out of 100 Californians.
Project Objective
Complete the IND-enabling studies
Major Proposed Activities
- Manufacture study drug, LUT017, Active Pharmaceutical Ingredient and the Formulated Drug Product (TU017 gel) to supply the proposed studies
- Evaluate study drug stability, efficacy and tolerability in different preclinical models
- IND submission and UCLA phase I clinical trial start-up submission
Statement of Benefit to California:
Non-healing skin ulcers affect 1 in 100 Californians, and there is currently no FDA-approved drug treatment. Topical use of a BRAF inhibitor regenerates skin stem cells in preclinical models, accelerating the wounds closure. Proposed studies will lead to an IND filing to test the safety and potential benefit of LUT017 for the treatment of chronic non-healing skin ulcers. Clinical success would result in the development of the first drug therapy for the treatment of non-healing cutaneous wounds.