Form 1 TDB Project Information Template
Application for Collaboration with the NIH Center for Translational Therapeutics (NCATS)
Attach 1 - TDB Project Information Template
TDB Project Information Template
OMB: 0925-0658
Form Approved
OMB NO. 0925-0658
Exp. Date 06/30/2015
Name:
Institution:
Address:
E-mail:
Title:
This 5-page document should outline the scientific nature and rationale of the proposed project. For additional information, please refer to the Solicitation Instructions. Additional material can be uploaded as appendices described in the instructions.
Background
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Therapeutic Hypothesis
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Current State of Project
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Proposed Development Strategy
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Justification
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Timeline and Milestones
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Appendix 1:
Provide data on the proposed lead compound using the following tables:
Compound Properties Profile:
Lead Compound
Structure or Composition
Calculated Properties |
Value |
Goal |
Compound ID |
Provide data |
N/A |
MW |
Provide data |
< 500 |
Log D7.4, cLog P |
Provide data |
1-3, 1-4.5 |
TPSA |
Provide data |
< 140 (oral), < 90 (CNS) |
Ligand Efficiency (LE, LELP) |
Provide data |
> 0.29, <10 |
Rotatable Bonds |
Provide data |
≤ 10 |
N + O (HBA) |
Provide data |
≤ 10 |
NH + OH (HBD) |
Provide data |
≤ 5 |
In Vitro Properties |
Units |
Value & Class |
Goal |
Compound ID |
N/A |
Provide data |
N/A |
Solubility (pH, media ) |
(g/mL) |
Provide data |
> 60 |
Stability - Microsomes (species) |
t1/2 (min) |
Provide data |
> 30 |
CLint (mL/min/mg) |
Provide data |
< 10 |
|
Stability – Hepatocytes (species) |
t1/2 (min) |
Provide data |
> 120 |
CLint, L/min/106 cells |
Provide data |
< 5 |
|
Stability – Plasma (species) |
% Remaining at 3 hr |
Provide data |
> 80% |
Stability – Solution (media) |
% Remaining at 24 hr |
Provide data |
> 80% |
CYP450 Inhibition (isozymes) |
% Inhibition at 3 M |
Provide data |
< 15% |
IC50 (M) |
Provide data |
> 10 |
|
Cmax at MED / Ki |
Provide data |
< 0.1 |
|
Plasma Protein & Tissue Binding (species) |
Fu, plasma (%) |
Provide data |
|
Fu, tissue (%) |
Provide data |
|
|
Permeability - PAMPA |
Pe (10-6 cm/s) |
Provide data |
> 1 |
Permeability - PAMPA-BBB |
Pe (10-6 cm/s) |
Provide data |
> 4 |
Permeability - Caco-2 |
Papp (a-b, 10-6 cm/s) |
Provide data |
> 10 |
Efflux Ratio |
Provide data |
< 3 |
|
Permeability - MDR1-MDCKII |
Papp (a-b, 10-6 cm/s) |
Provide data |
> 20 |
Pgp Efflux Ratio |
Provide data |
< 2 |
|
hERG - (method) |
IC50 (M) |
Provide data |
> 10 |
IC50 / Free Cmax |
Provide data |
> 30 |
|
Free Cmax - Plasma |
Total Cmax (M) * Fu, plasma |
Provide data |
|
Free Cmax - Tissue |
Total Cmax (M) * Fu, plasma |
Provide data |
|
Screening Ames |
Positive / Negative |
Provide data |
Negative |
Compound Efficacy Profile:
In Vitro Biology |
Units |
Value & Class |
Goal |
Compound ID |
N/A |
|
N/A |
Activity |
|
|
|
(Assay 1) - IC50 |
nM |
Provide data |
< 1000 |
(Assay 1) - Ki |
nM |
Provide data |
< 1000 |
(Assay 2) - IC50 |
nM |
Provide data |
< 1000 |
(Assay 2) – Ki |
nM |
Provide data |
< 1000 |
Selectivity |
|
|
|
(Assay 1) - IC50 / Fold selectivity |
nM |
Provide data |
> 100 |
|
|
|
|
In Vivo Biology |
Units |
Value & Class |
Goal |
Compound ID |
N/A |
|
|
(Species, dose, route) – MED |
nM |
Provide data |
|
(Species, dose, route) - MED |
nM |
Provide data |
|
(Species, dose, route) - MED |
nM |
Provide data |
|
Other Biology |
Units |
Value & Class |
Goal |
|
|
|
|
|
|
|
|
PK Properties |
Units |
Dose (mpk), Route, Species |
Dose (mpk), Route, Species |
Goal |
Compound ID |
N/A |
|
|
N/A |
t1/2 |
hr |
Provide data |
Provide data |
> 3 |
AUC0-∞, total, unbound |
hr*ng/mL |
Provide data |
Provide data |
> 500 (PO) |
CL |
mL/min/kg |
Provide data |
Provide data |
< 25% HBF |
Cmax, total, unbound |
ng/mL (nM) |
Provide data |
Provide data |
|
Tmax |
hr |
Provide data |
Provide data |
|
Vd |
L/kg |
Provide data |
Provide data |
|
F |
% |
Provide data |
Provide data |
> 20% |
Appendix 2: References for In Vitro ADME Assays and In Vivo Pharmacokinetics
General References
“Drug-Like Properties: Concepts, Structure Design and Methods: from ADME to Toxicity Optimization”, E. H. Kerns, L. Di (2008), Elsevier.
“Pharmacokinetics and Metabolism in Drug Design”, Smith, D.A., et al., (2001), Wiley-VCH
“Experimental and computational approaches to estimate solubility and permeability in drug disc. and development settings.” Lipiniski, C.A., et al., (1997), Adv. Drug Delivery Rev. 23, 3-25.
“Application of pharmaceutical profiling assays for optimization of drug-like properties.” Di, Li; et al., Current Opinion in Drug Discovery & Development (2005), 8(4), 495-504.
“High Throughput Physicochemical Profiling for Drug Discovery”, E.H. Kerns; J. Pharm. Sci. (2001) 90, 1838-1858.
Solubility
“Solution Stability – Plasma, Gastrointestinal, Bioassay”, Li Di, et al., Current Drug Metabolism (2008), 9(9), 860-868.
“In Vitro Solubility Assays in Drug Discovery”, Edward H. Kerns, et al., Current Drug Metabolism (2008), 9(9), 879-885.
Stability – Microsomes, Hepatocytes, Plasma, Solution
“High Throughput Microsomal Stability Assay for Insoluble Compounds”; L. Di, et al., International Journal of Pharmaceutics (2006) 317(1), 54-60.
“Metabolic Stability: Main Enzymes Involved and Best Tools to Assess It”, R. Laine, Current Drug Metabolism (2008), 9(9), 9210-927.
“Development and Application of High Throughput Plasma Stability Assay for Drug Discovery”, L. Di, et al., International Journal of Pharmaceutics (2005) 297(1-2) 110-119.
“Development and Application of an Automated Solution Stability Assay for Drug Discovery”, L. Di, et al., Journal of Biomolecular Screening (2006) 11(1), 40-47.
CYP450 Inhibition
“Comparison of Cytochrome P450 Inhibition Assays for Drug Discovery Using Human Liver Microsomes with LC-MS, rhCYP450 Isozymes with Fluorescence, and Double Cocktail with LC-MS”; L. Di, et al., International Journal of Pharmaceutics (2007), 335(1-2), 1-11.
“In Vitro Cytochrome P450 Inhibition and Induction”, R.L. Walsky, et al., Current Drug Metabolism (2008), 9(9), 928-939.
Plasma Protein, Tissue Binding, and Free Cmax – Plasma, Tissue
“Plasma / Serum Protein Binding Determinations”, M.J. Banker, et al., Current Drug Metabolism (2008), 9(9), 854-859.
“The effect of plasma protein binding on in vivo efficacy: misconceptions in drug discovery”, Dennis A. Smith, Li Di, Edward H. Kerns, Nature Reviews Drug Discovery (2010), 9(12), 929-39.
Permeability – PAMPA
“Physicochemical high throughput screening: Parallel artificial membrane permeability assay in the desc. of passive absorp. processes”, Kansy, M., et al., (1998), J. Med. Chem. 41, 1007-1010.
“High-throughput permeability pH profile and high-throughput alkane/water log P with artificial membranes.” Wohnsland, F.; Faller, B. (2001), J. Med. Chem. 44, 923-930.
Permeability – PAMPA-BBB
“High Throughput Artificial Membrane Permeability Assay for Blood-Brain Barrier”, L. Di, et al., Eur. J. Med. Chem. (2003) 38, 223-232.
“Comparison of blood-brain barrier permeability assays: in situ brain perfusion, MDR1-MDCKII and PAMPA-BBB”, Li Di, et al., Journal of Pharmaceutical Sciences (2009) 98(6):1980-1991.
Permeability – Caco-2
“Caco-2 monolayers in experimental and theoretical predictions of drug transport”, Artursson, P., et al., (2001) Adv. Drug Deliv. Rev., 46, 27-43.
“Assessing the absorption of new pharmaceuticals”, Hidalgo, I.J., (2001), Curr. Topics Med. Chem., 1, 385-401.
Permeability – MDR1-MDCKII
“Rational use of in in vitro P-glycoprotein assays in drug discovery”, Polli JW, et al. (2001), J Pharmacol. Exper. Therapeutics 299, 620-628.
“Disruption of the mouse mdr1a P-glycoprotein gene leads to a deficiency in the blood-brain barrier and to increased sensitivity to drugs”, Schinkel, A.H., et al., (1994), Cell 77, 491-502.
hERG
“Relationship between preclinical cardiac electrophysiology, clinical QT interval prolongation and torsade de pointes for a broad range of drugs: evidence for a provisional safety margin in drug development”, Redfern, W.S. (2003), Cardiovascular Res. 58, 32-45.
“Patch clamping by the numbers”, Wood, C., et al., (2004), Drug Discovery Today, 9, 434-441.
Ames Test
“Methods for detecting carcinogens and mutagens with the salmonella/mammalian-microscope mutagenicity test”, Ames, B.N., et al., (1975), Mutation Research 31, 347-363.
“Improvement of the Ames test using human liver S9 preparation”, In: Yan, Z. and Caldwell, G.W. (eds.), Optimization in Drug Discovery: In vitro Methods”, Totowa, Humana Press, pp. 325-336.
In vivo Pharmacokinetics
“Rapid determination of pharmacokinetic properties of new chemical entities: in vivo approaches”, Cox, K.A., et al., (2002), Combinatorial Chem. and H.T.S., 5, 29-37.
The simultaneous determ. of mixtures of drug candidates by liquid chrom./APCI mass spectrum. as an in vivo drug screening procedure”, (1997), Rapid Comm. Mass Spectrom., 11, 17-23.
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