JHU- Optimal regimen development on a Ribosome inhibitor backbone.

Information

  • Research Project
  • 9674886
  • ApplicationId
    9674886
  • Core Project Number
    U19AI142735
  • Full Project Number
    1U19AI142735-01
  • Serial Number
    142735
  • FOA Number
    RFA-AI-17-042
  • Sub Project Id
    7653
  • Project Start Date
    -
  • Project End Date
    -
  • Program Officer Name
  • Budget Start Date
    3/1/2019 - 5 years ago
  • Budget End Date
    2/29/2020 - 4 years ago
  • Fiscal Year
    2019
  • Support Year
    01
  • Suffix
  • Award Notice Date
    4/1/2019 - 5 years ago

JHU- Optimal regimen development on a Ribosome inhibitor backbone.

PROJECT SUMMARY Mycobacterium tuberculosis (Mtb), the etiologic agent of tuberculosis (TB), causes more deaths worldwide than any single infectious agent. The rifamycin-based standard-of-care (SOC) regimen is efficacious but requires 6 months of treatment, making it difficult to implement globally. Although high-dose rifamycin regimens that may shorten treatment to 4 months are currently being trialed, neither these regimens nor the SOC will benefit patients with rifamycin-resistant or multidrug-resistant (MDR-) TB, of which approximately 600,000 new cases occurred in 2016. Current MDR-TB treatment regimens are toxic, require 9-24 months of administration and cure only about 50% of patients. The availability of new regimens containing 3 or more novel drug classes without pre-existing resistance could be transformational, especially if the treatment-shortening effects of rifamycins could be replaced. The overall objectives of the consortium are (i) to discover and develop novel TB drug candidates targeting various aspects of bacterial proteostasis (the capacity to coordinately synthesize and degrade proteins), and (ii) to combine these candidates into novel 3- or 4-drug regimens capable of shortening the treatment of drug-susceptible or RR-TB. Projects 1-3 will focus on the identification and advancement of preclinical candidates, each targeting a component of the proteostasis machinery ([1] ClpC1, [2] ClpP1P2 protease, [3] RNA polymerase). Using a combination of an in vitro pharmacodynamics system (hollow fiber model) and 3 complementary murine TB models (?standard? BALB/c mice, C3H3B/FeJ mice with more human- like caseous [necrotic] lung lesions, immunocompromised nude mice), Project 4, which is described in this application, will (1) characterize the exposure-response relationships that govern bactericidal activity, resistance suppression and, in the case of TBI-223, toxicity of lead compounds emerging from Projects 1-3 plus TBI-223, the TB-focused oxazolidinone, which is already a pre-clinical candidate sponsored by TB Alliance, (2) evaluate the impact of caseating lung lesions on these exposure-response relationships, and (3) develop the most effective drug combinations containing the optimal doses of pre-clinical candidates emerging from Projects 1-4 and evaluate their treatment-shortening potential relative to the SOC in predictive murine models. The overarching goal is to develop one or more pharmacodynamically-optimized, universally active, treatment-shortening regimens targeting Mtb proteostasis. Because this effort will occur in the context of a robust, highly collaborative TB drug development program sponsored by TB Alliance pre-clinical candidates emerging from Projects 1-4 may also be combined with other promising pre-clinical leads/candidates and clinical candidates that target mechanisms other than proteostasis, thus amplifying the potential opportunities for discovery of transformational regimens.

IC Name
NATIONAL INSTITUTE OF ALLERGY AND INFECTIOUS DISEASES
  • Activity
    U19
  • Administering IC
    AI
  • Application Type
    1
  • Direct Cost Amount
    522282
  • Indirect Cost Amount
    2500
  • Total Cost
  • Sub Project Total Cost
    524782
  • ARRA Funded
    False
  • CFDA Code
  • Ed Inst. Type
  • Funding ICs
    NIAID:524782\
  • Funding Mechanism
    Non-SBIR/STTR RPGs
  • Study Section
    ZAI1
  • Study Section Name
    Special Emphasis Panel
  • Organization Name
    GLOBAL ALLIANCE FOR TB DRUG DEVELOPMENT
  • Organization Department
  • Organization DUNS
    103139841
  • Organization City
    NEW YORK
  • Organization State
    NY
  • Organization Country
    UNITED STATES
  • Organization Zip Code
    100051304
  • Organization District
    UNITED STATES