NZ712292B2 - Pyrazole-amide compound and medicinal uses therefor - Google Patents
Pyrazole-amide compound and medicinal uses therefor Download PDFInfo
- Publication number
- NZ712292B2 NZ712292B2 NZ712292A NZ71229214A NZ712292B2 NZ 712292 B2 NZ712292 B2 NZ 712292B2 NZ 712292 A NZ712292 A NZ 712292A NZ 71229214 A NZ71229214 A NZ 71229214A NZ 712292 B2 NZ712292 B2 NZ 712292B2
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- NZ
- New Zealand
- Prior art keywords
- compound
- diabetes
- cardiac failure
- disease
- diabetic
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- -1 Pyrazole-amide compound Chemical class 0.000 title abstract description 58
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- 206010019280 Heart failure Diseases 0.000 claims abstract description 74
- 150000003839 salts Chemical class 0.000 claims abstract description 69
- 230000002401 inhibitory effect Effects 0.000 claims abstract description 50
- 206010012601 Diabetes mellitus Diseases 0.000 claims abstract description 39
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- 208000001072 Type 2 Diabetes Mellitus Diseases 0.000 claims abstract description 30
- 208000002249 Diabetes Complications Diseases 0.000 claims abstract description 29
- 206010012655 Diabetic complications Diseases 0.000 claims abstract description 29
- 201000011510 cancer Diseases 0.000 claims abstract description 29
- 206010067584 Type 1 diabetes mellitus Diseases 0.000 claims abstract description 27
- 201000001421 hyperglycemia Diseases 0.000 claims abstract description 27
- 208000002815 Pulmonary Hypertension Diseases 0.000 claims abstract description 26
- 208000006545 Chronic Obstructive Pulmonary Disease Diseases 0.000 claims abstract description 25
- 208000001636 Diabetic Neuropathy Diseases 0.000 claims abstract description 25
- 206010012680 Diabetic neuropathy Diseases 0.000 claims abstract description 25
- 206010020660 Hyperlactacidaemia Diseases 0.000 claims abstract description 25
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- 208000007342 Diabetic Nephropathy Diseases 0.000 claims abstract description 24
- 206010061835 Diabetic nephropathy Diseases 0.000 claims abstract description 24
- 206010012689 Diabetic retinopathy Diseases 0.000 claims abstract description 24
- 208000010125 Myocardial Infarction Diseases 0.000 claims abstract description 24
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- 235000005985 organic acids Nutrition 0.000 description 1
- 235000006408 oxalic acid Nutrition 0.000 description 1
- NWVVVBRKAWDGAB-UHFFFAOYSA-N p-methoxyphenol Chemical compound COC1=CC=C(O)C=C1 NWVVVBRKAWDGAB-UHFFFAOYSA-N 0.000 description 1
- KDLHZDBZIXYQEI-UHFFFAOYSA-N palladium Substances [Pd] KDLHZDBZIXYQEI-UHFFFAOYSA-N 0.000 description 1
- 230000036961 partial Effects 0.000 description 1
- 230000037361 pathway Effects 0.000 description 1
- 239000000825 pharmaceutical preparation Substances 0.000 description 1
- 230000003285 pharmacodynamic Effects 0.000 description 1
- 230000036231 pharmacokinetics Effects 0.000 description 1
- 150000007925 phenylethylamine derivatives Chemical class 0.000 description 1
- 239000003757 phosphotransferase inhibitor Substances 0.000 description 1
- 229920002503 polyoxyethylene-polyoxypropylene Polymers 0.000 description 1
- 229920000523 polyvinylpolypyrrolidone Polymers 0.000 description 1
- 235000013809 polyvinylpolypyrrolidone Nutrition 0.000 description 1
- 239000004224 potassium gluconate Substances 0.000 description 1
- 235000013926 potassium gluconate Nutrition 0.000 description 1
- 229960003189 potassium gluconate Drugs 0.000 description 1
- OZAIFHULBGXAKX-UHFFFAOYSA-N precursor Substances N#CC(C)(C)N=NC(C)(C)C#N OZAIFHULBGXAKX-UHFFFAOYSA-N 0.000 description 1
- 238000002953 preparative HPLC Methods 0.000 description 1
- 230000036278 prepulse Effects 0.000 description 1
- 239000000047 product Substances 0.000 description 1
- 235000013772 propylene glycol Nutrition 0.000 description 1
- 125000006239 protecting group Chemical group 0.000 description 1
- 239000008213 purified water Substances 0.000 description 1
- LCTONWCANYUPML-UHFFFAOYSA-M pyruvate Chemical group CC(=O)C([O-])=O LCTONWCANYUPML-UHFFFAOYSA-M 0.000 description 1
- 238000001953 recrystallisation Methods 0.000 description 1
- 230000029964 regulation of glucose metabolic process Effects 0.000 description 1
- 230000002441 reversible Effects 0.000 description 1
- 230000035945 sensitivity Effects 0.000 description 1
- 239000008159 sesame oil Substances 0.000 description 1
- 235000011803 sesame oil Nutrition 0.000 description 1
- 235000012239 silicon dioxide Nutrition 0.000 description 1
- 230000026799 smooth muscle cell apoptotic process Effects 0.000 description 1
- VMHLLURERBWHNL-UHFFFAOYSA-M sodium acetate Chemical compound [Na+].CC([O-])=O VMHLLURERBWHNL-UHFFFAOYSA-M 0.000 description 1
- 239000001632 sodium acetate Substances 0.000 description 1
- 235000017281 sodium acetate Nutrition 0.000 description 1
- 229940079839 sodium dehydroacetate Drugs 0.000 description 1
- 235000019259 sodium dehydroacetate Nutrition 0.000 description 1
- AJPJDKMHJJGVTQ-UHFFFAOYSA-M sodium dihydrogen phosphate Chemical compound [Na+].OP(O)([O-])=O AJPJDKMHJJGVTQ-UHFFFAOYSA-M 0.000 description 1
- 235000010265 sodium sulphite Nutrition 0.000 description 1
- ZNJHFNUEQDVFCJ-UHFFFAOYSA-M sodium;2-[4-(2-hydroxyethyl)piperazin-1-yl]ethanesulfonic acid;hydroxide Chemical compound [OH-].[Na+].OCCN1CCN(CCS(O)(=O)=O)CC1 ZNJHFNUEQDVFCJ-UHFFFAOYSA-M 0.000 description 1
- RQVZIJIQDCGIKI-UHFFFAOYSA-M sodium;oxamate Chemical compound [Na+].NC(=O)C([O-])=O RQVZIJIQDCGIKI-UHFFFAOYSA-M 0.000 description 1
- 238000000638 solvent extraction Methods 0.000 description 1
- 239000004334 sorbic acid Substances 0.000 description 1
- 235000010199 sorbic acid Nutrition 0.000 description 1
- WSWCOQWTEOXDQX-UHFFFAOYSA-N sorbic acid Chemical compound CC=CC=CC(O)=O WSWCOQWTEOXDQX-UHFFFAOYSA-N 0.000 description 1
- 229960002920 sorbitol Drugs 0.000 description 1
- 238000001228 spectrum Methods 0.000 description 1
- 239000007858 starting material Substances 0.000 description 1
- 238000007619 statistical method Methods 0.000 description 1
- 238000007920 subcutaneous administration Methods 0.000 description 1
- 239000000126 substance Substances 0.000 description 1
- 239000001384 succinic acid Substances 0.000 description 1
- 235000011044 succinic acid Nutrition 0.000 description 1
- YROXIXLRRCOBKF-UHFFFAOYSA-N sulfonylurea Chemical compound OC(=N)N=S(=O)=O YROXIXLRRCOBKF-UHFFFAOYSA-N 0.000 description 1
- 229910052717 sulfur Inorganic materials 0.000 description 1
- 239000000829 suppository Substances 0.000 description 1
- 230000002459 sustained Effects 0.000 description 1
- 239000006188 syrup Substances 0.000 description 1
- 235000020357 syrup Nutrition 0.000 description 1
- 239000003826 tablet Substances 0.000 description 1
- 239000000454 talc Substances 0.000 description 1
- 229910052623 talc Inorganic materials 0.000 description 1
- 235000012222 talc Nutrition 0.000 description 1
- 239000011975 tartaric acid Substances 0.000 description 1
- 229960001367 tartaric acid Drugs 0.000 description 1
- 235000002906 tartaric acid Nutrition 0.000 description 1
- DPKBAXPHAYBPRL-UHFFFAOYSA-M tetrabutylazanium;iodide Chemical compound [I-].CCCC[N+](CCCC)(CCCC)CCCC DPKBAXPHAYBPRL-UHFFFAOYSA-M 0.000 description 1
- 235000008170 thiamine pyrophosphate Nutrition 0.000 description 1
- 239000011678 thiamine pyrophosphate Substances 0.000 description 1
- 150000003544 thiamines Chemical class 0.000 description 1
- 238000004809 thin layer chromatography Methods 0.000 description 1
- 230000000699 topical Effects 0.000 description 1
- 230000001702 transmitter Effects 0.000 description 1
- 238000006692 trifluoromethylation reaction Methods 0.000 description 1
- VOBHRQFELWTZFS-AWLRYRRCSA-K trisodium;(4Z)-3-oxo-4-[(4-sulfonatonaphthalen-1-yl)hydrazinylidene]naphthalene-2,7-disulfonate Chemical compound [Na+].[Na+].[Na+].C1=CC=C2C(N/N=C3/C4=CC=C(C=C4C=C(C3=O)S(=O)(=O)[O-])S([O-])(=O)=O)=CC=C(S([O-])(=O)=O)C2=C1 VOBHRQFELWTZFS-AWLRYRRCSA-K 0.000 description 1
- 238000004704 ultra performance liquid chromatography Methods 0.000 description 1
- 239000003643 water by type Substances 0.000 description 1
- OENHQHLEOONYIE-JLTXGRSLSA-N β-Carotene Chemical compound CC=1CCCC(C)(C)C=1\C=C\C(\C)=C\C=C\C(\C)=C\C=C\C=C(/C)\C=C\C=C(/C)\C=C\C1=C(C)CCCC1(C)C OENHQHLEOONYIE-JLTXGRSLSA-N 0.000 description 1
- 230000003820 β-cell dysfunction Effects 0.000 description 1
Abstract
The present invention discloses a pyrazole-amide compound or a pharmaceutically acceptable salt thereof having a pyruvate dehydrogenase kinase (PDHK) inhibitory activity, a pharmaceutical composition containing the same, a prophylactic or therapeutic agent containing the same for diabetes (type 1 diabetes, type 2 diabetes etc.), insulin resistance syndrome, metabolic syndrome, hyperglycemia, hyperlactacidemia, diabetic complications (diabetic neuropathy, diabetic retinopathy, diabetic nephropathy, cataract etc.), cardiac failure (acute cardiac failure, chronic cardiac failure), cardiomyopathy, myocardial ischemia, myocardial infarction, angina pectoris, dyslipidemia, atherosclerosis, peripheral arterial disease, intermittent claudication, chronic obstructive pulmonary disease, brain ischemia, cerebral apoplexy, mitochondrial disease, mitochondrial encephalomyopathy, cancer, pulmonary hypertension, or Alzheimer disease, and the like. abetes, type 2 diabetes etc.), insulin resistance syndrome, metabolic syndrome, hyperglycemia, hyperlactacidemia, diabetic complications (diabetic neuropathy, diabetic retinopathy, diabetic nephropathy, cataract etc.), cardiac failure (acute cardiac failure, chronic cardiac failure), cardiomyopathy, myocardial ischemia, myocardial infarction, angina pectoris, dyslipidemia, atherosclerosis, peripheral arterial disease, intermittent claudication, chronic obstructive pulmonary disease, brain ischemia, cerebral apoplexy, mitochondrial disease, mitochondrial encephalomyopathy, cancer, pulmonary hypertension, or Alzheimer disease, and the like.
Description
DESCRIPTION
Title of the Invention: PYRAZOLE-AMIDE COMPOUND AND MEDICINAL
USES THEREFOR
Technical Field
The present invention provides a pyrazole-amide compound
and a pharmaceutical use thereof. More particularly, the
present invention relates to a pyrazole-amide compound or a
pharmaceutically acceptable salt thereof having a pyruvate
dehydrogenase kinase (hereinafter to be abbreviated as PDHK)
inhibitory activity, a pharmaceutical composition containing
the same, a prophylactic or therapeutic agent containing the
same for diabetes (type 1 diabetes, type 2 diabetes etc.),
insulin resistance syndrome, metabolic syndrome, hyperglycemia,
hyperlactacidemia, diabetic complications (diabetic neuropathy,
diabetic retinopathy, diabetic nephropathy, cataract etc.),
cardiac failure (acute cardiac failure, chronic cardiac
failure), cardiomyopathy, myocardial ischemia, myocardial
infarction, angina pectoris, dyslipidemia, atherosclerosis,
peripheral arterial disease, intermittent claudication, chronic
obstructive pulmonary disease, brain ischemia, cerebral
apoplexy, mitochondrial disease, mitochondrial encephalomyopathy,
cancer, pulmonary hypertension, or Alzheimer disease, and the
like.
Background Art
In tissues, for reactions using energy such as
biosynthesis, active transport, muscle contraction and the like,
the energy is supplied by hydrolysis of adenosine triphosphate
(ATP). ATP is produced by oxidation of metabolic fuel which
yields much energy, such as glucose and free fatty acids. In
oxidative tissues such as muscle, ATP is mostly produced from
acetyl-CoA that enters citric acid cycle. Acetyl-CoA is produced
by oxidation of glucose via glycolytic pathway or oxidation of
free fatty acid. An enzyme that plays a pivotal role in
controlling acetyl-CoA production from glucose is pyruvate
dehydrogenase (hereinafter to be abbreviated as PDH). PDH
catalyzes reduction of nicotinamide adenine dinucleotide (NAD)
to NADH, simultaneously with oxidation of pyruvic acid to
acetyl-CoA and carbon dioxide (e.g., non-patent documents 1,
PDH is a multienzyme complex consisting of three enzyme
components (E1, E2 and E3) and some subunits localized in
mitochondrial matrix. E1, E2 and E3 are responsible for
decarboxylation from pyruvic acid, production of acetyl-CoA and
reduction of NAD to NADH, respectively.
Two classes of enzyme having regulatory function bind to
PDH. One is PDHK, which is a protein kinase having specificity
to PDH. The role thereof is to inactivate E1α subunit of the
complex by phosphorylation. The other is PDH phosphatase, which
is a specific protein phosphatase that activates PDH via
dephosphorylation of E1α subunit. The proportion of PDH in its
active (dephosphorylated) state is determined by the balance of
kinase activity and phosphatase activity. The kinase activity is
regulated by the relative concentration of metabolic substrates.
For example, the kinase activity is activated by an increase in
NADH/NAD, acetyl-CoA/CoA and ATP/adenosine diphosphate (ADP)
ratios, and inhibited by pyruvic acid (e.g., non-patent document
In the tissues of mammals, 4 kinds of PDHK isozymes are
identified. Particularly, PDHK2 is expressed in a wide range of
tissues including the liver, skeletal muscles and adipose
tissues involved in glucose metabolism. Furthermore, since PDHK2
shows comparatively high sensitivity to activation by increased
NADH/NAD or acetyl-CoA/CoA and inhibition by pyruvic acid,
involvement in a short-term regulation of glucose metabolism is
suggested (e.g., non-patent document 4).
In addition, PDHK1 is expressed in large amounts in
cardiac muscle, skeletal muscle, pancreatic cell and the like.
Furthermore, since expression of PDHK1 is induced via
activation of hypoxia inducible factor (HIF) 1 in ischemic
state, its involvement in ischemic diseases and cancerous
diseases is suggested (e.g., non-patent document 5).
In diseases such as insulin-dependent (type 1) diabetes,
non-insulin-dependent (type 2) diabetes and the like, oxidation
of lipids is promoted with simultaneous reduction in glucose
utilization. This reduction in glucose utilization is one of the
factors causing hyperglycemia. When the oxidative glucose
metabolism decreases in type 1 and type 2 diabetes and obesity,
PDH activity also decreases. It suggests involvement of reduced
PDH activity in the reduced glucose utilization in type 1 and
type 2 diabetes (e.g., non-patent documents 6, 7).
On the contrary, hepatic gluconeogenesis is enhanced in
type 1 and type 2 diabetes, which also forms one factor causing
hyperglycemia. The reduced PDH activity increases pyruvic acid
concentration, which in turn increases availability of lactic
acid as a substrate for hepatic gluconeogenesis. It suggests
possible involvement of reduced PDH activity in the enhanced
gluconeogenesis in type 1 and type 2 diabetes (e.g., non-patent
documents 8, 9). When PDH is activated by inhibition of PDHK,
the rate of glucose oxidation is considered to rise. As a result,
glucose utilization in the body is promoted and hepatic
gluconeogenesis is suppressed, whereby hyperglycemia in type 1
and type 2 diabetes is expected to be improved (e.g., non-patent
documents 10, 11, 12). Another factor contributing to diabetes
is impaired insulin secretion, which is known to be associated
with reduced PDH activity in pancreatic cells, and
introduction of PDHK1, 2 and 4 (e.g., non-patent documents 13,
14). In addition, sustained hyperglycemia due to diabetes is
known to cause complications such as diabetic neuropathy,
diabetic retinopathy, diabetic nephropathy and the like.
Thiamine and α-lipoic acid contribute to activation of PDH as
coenzymes. Thiamine and α-lipoic acid, or thiamine derivative
and α-lipoic acid derivative are shown to have a promising
effect on the treatment of diabetic complications. Thus,
activation of PDH is expected to improve diabetic complications
(e.g., non-patent documents 15, 16).
Under ischemic conditions, limited oxygen supply reduces
oxidation of both glucose and fatty acid and reduces the amount
of ATP produced by oxidative phosphorylation in the tissues. In
the absence of sufficient oxygen, ATP level is maintained by
promoted anaerobic glycolysis. As a result, lactic acid
increases and intracellular pH decreases. Even though the body
tries to maintain homeostasis of ion by energy consumption,
abnormally low ATP level and disrupted cellular osmolarity lead
to cell death. In addition, adenosine monophosphate-activating
kinase, activated during ischemia, phosphorylates and thus
inactivates acetyl-CoA carboxylase. The levels of total
malonyl-CoA in the tissue drop, carnitine palmitoyltransferase-I
activity is therefore increased and fatty acid oxidation is
favored over glucose oxidation by allowing the transport of
acyl-CoA into mitochondria. Oxidation of glucose is capable of
yielding more ATP per molecule of oxygen than is oxidation of
fatty acids. Under ischemic conditions, therefore, when energy
metabolism becomes glucose oxidation dominant by activation of
PDH, the ability to maintain ATP level is considered to be
enhanced (e.g., non-patent document 17).
In addition, since activation of PDH causes oxidation of
pyruvic acid produced by glycolysis, and reducing production of
lactic acid, the net proton burden is considered to be reduced
in ischemic tissues. Accordingly, PDH activation by inhibition
of PDHK is expected to protectively act in ischemic diseases
such as cardiac muscle ischemia (e.g., non-patent documents 18,
19).
A drug that activates PDH by inhibition of PDHK is considere
d to decrease lactate production since it promotes pyruvate metabo
lism. Hence, such drug is expected to be useful for the treatment
of hyperlactacidemia such as mitochondrial disease, mitochondrial
encephalomyopathy and sepsis (e.g., non-patent document 20).
In cancer cells, the expression of PDHK1 or 2 increases.
In cancer cells, moreover, ATP production by oxidative
phosphorylation in mitochondria decreases, and ATP production
via the anaerobic glycolysis in cytoplasm increases. PDH
activation by inhibition of PDHK is expected to promote
oxidative phosphorylation in mitochondria, and increase
production of active oxygen, which will induce apoptosis of
cancer cells. Therefore, the PDH activation by PDHK inhibition
is useful for the treatment of cancerous diseases (e.g., non-
patent document 21).
Pulmonary hypertension is characterized by high blood
pressure caused by partial narrowing of the pulmonary artery due
to promoted cell proliferation therein. In pulmonary
hypertension, therefore, activation of PDH in the pulmonary
artery cell is expected to promote oxidative phosphorylation in
mitochondria, increase production of active oxygen, and induce
apoptosis of the pulmonary artery cells. Therefore, the PDH
activation by PDHK inhibition is considered to be useful for the
treatment of pulmonary hypertension (e.g., non-patent document
22).
Energy production and glucose metabolism in the cerebrum
decrease in Alzheimer disease, and also, PDH activity declines.
When the PDH activity declines, production of acetyl CoA
decreases. Acetyl CoA is utilized for ATP production in the
electron transport system via the citric acid cycle. Acetyl
CoA is also a starting material for synthesizing acetylcholine,
which is one of the neurotransmitters. Therefore, reduced
brain PDH activity in Alzheimer disease is considered to cause
neuronal cell death due to the decreased ATP production.
Moreover, it is considered that synthesis of acetylcholine,
which is the transmitter for cholinergic nerve, is inhibited
to induce deterioration of memory and the like. Activation of
PDH in the brain is expected to enhance energy production and
acetylcholine synthesis in Alzheimer disease. Therefore,
activation of PDH by the inhibition of PDHK is considered to
be useful for the treatment of Alzheimer disease (e.g., non-
patent documents 23, 24).
It has been shown that dichloroacetic acid, which is a
drug having a PDH activating action, provides promising effects
for the treatment of diabetes, myocardial ischemia, myocardial
infarction, angina pectoris, cardiac failure, hyperlactacidemia,
brain ischemia, cerebral apoplexy, peripheral arterial disease,
chronic obstructive pulmonary disease, cancerous disease, and
pulmonary hypertension (e.g., non-patent documents 10, 18, 20,
22, 25, 26, 27).
From the foregoing findings, a PDHK inhibitor is
considered to be useful for the prophylaxis or treatment of
diseases relating to glucose utilization disorder, for example,
diabetes (type 1 diabetes, type 2 diabetes etc.), insulin
resistance syndrome, metabolic syndrome, hyperglycemia,
hyperlactacidemia, diabetic complications (diabetic neuropathy,
diabetic retinopathy, diabetic nephropathy, cataract etc.).
Furthermore, a PDHK inhibitor is considered to be useful for the
prophylaxis or treatment of diseases caused by limited energy
substrate supply to the tissues, for example, cardiac failure
(acute cardiac failure, chronic cardiac failure),
cardiomyopathy, myocardial ischemia, myocardial infarction,
angina pectoris, dyslipidemia, atherosclerosis, peripheral
arterial disease, intermittent claudication, chronic
obstructive pulmonary disease, brain ischemia and cerebral
apoplexy.
Therefore, a PDHK inhibitor is considered to be useful
for the treatment or prophylaxis of diabetes (type 1 diabetes,
type 2 diabetes etc.), insulin resistance syndrome, metabolic
syndrome, hyperglycemia, hyperlactacidemia, diabetic
complications (diabetic neuropathy, diabetic retinopathy,
diabetic nephropathy, cataract etc.), cardiac failure (acute
cardiac failure, chronic cardiac failure), cardiomyopathy,
myocardial ischemia, myocardial infarction, angina pectoris,
dyslipidemia, atherosclerosis, peripheral arterial disease,
intermittent claudication, chronic obstructive pulmonary
disease, brain ischemia, cerebral apoplexy, mitochondrial
disease, mitochondrial encephalomyopathy, cancer, pulmonary
hypertension or Alzheimer disease.
Document List
Non-patent documents
non-patent document 1: Reed LJ, Hackert ML. Structure-function
relationships in dihydrolipoamide acyltransferases. J Biol
Chem. 1990 Jun 5;265(16):8971-4.
non-patent document 2: Patel MS, Roche TE. Molecular biology
and biochemistry of pyruvate dehydrogenase complexes. FASEB J.
1990 Nov; 4(14):3224-33.
non-patent document 3: Sugden MC, Holness MJ. Recent advances
in mechanisms regulating glucose oxidation at the level of the
pyruvate dehydrogenase complex by PDKs. Am J Physiol
Endocrinol Metab. 2003 May; 284(5):E855-62.
non-patent document 4: Bowker-Kinley MM, Davis WI, Wu P,
Harris RA, Popov KM. Evidence for existence of tissue-specific
regulation of the mammalian pyruvate dehydrogenase complex.
Biochem J. 1998 Jan 1; 329 ( Pt 1):191-6.
non-patent document 5: Kim JW, Tchernyshyov I, Semenza GL,
Dang CV. HIFmediated expression of pyruvate dehydrogenase
kinase: a metabolic switch required for cellular adaptation to
hypoxia. Cell Metab. 2006 Mar; 3(3):177-85.
non-patent document 6: Morino K, Petersen KF, Dufour S, Befroy
D, Frattini J, Shatzkes N, et al. Reduced mitochondrial
density and increased IRS-1 serine phosphorylation in muscle
of insulin-resistant offspring of type 2 diabetic parents. J
Clin Invest. 2005 Dec; 115(12):3587-93.
non-patent document 7: Caterson ID, Fuller SJ, Randle PJ.
Effect of the fatty acid oxidation inhibitor 2-
tetradecylglycidic acid on pyruvate dehydrogenase complex
activity in starved and alloxan-diabetic rats. Biochem J. 1982
Oct 15; 208(1):53-60.
non-patent document 8: Boden G, Chen X, Stein TP.
Gluconeogenesis in moderately and severely hyperglycemic
patients with type 2 diabetes mellitus. Am J Physiol
Endocrinol Metab. 2001 Jan; 280(1):E23-30.
non-patent document 9: Shangraw RE, Fisher DM.
Pharmacokinetics and pharmacodynamics of dichloroacetate in
patients with cirrhosis.Clin Pharmacol Ther. 1999 Oct;
66(4):380-90.
non-patent document 10: Stacpoole PW, Moore GW, Kornhauser DM.
Metabolic effects of dichloroacetate in patients with diabetes
mellitus and hyperlipoproteinemia. N Engl J Med. 1978 Mar 9;
298(10):526-30.
non-patent document 11: Mayers RM, Leighton B, Kilgour E. PDH
kinase inhibitors: a novel therapy for Type II diabetes?
Biochem Soc Trans. 2005 Apr; 33(Pt 2):367-70.
non-patent document 12: Jeoung NH, Rahimi Y, Wu P, Lee WN,
Harris RA. Fasting induces ketoacidosis and hypothermia in
PDHK2/PDHK4-double-knockout mice. Biochem J. 2012 May 1;
443(3):829-39.
non-patent document 13: Zhou YP, Berggren PO, Grill V. A fatty
acid-induced decrease in pyruvate dehydrogenase activity is an
important determinant of beta-cell dysfunction in the obese
diabetic db/db mouse. Diabetes. 1996 May; 45(5):580-6.
non-patent document 14: Xu J, Han J, Epstein PN, Liu YQ.
Regulation of PDK mRNA by high fatty acid and glucose in
pancreatic islets. Biochem Biophys Res Commun. 2006 Jun 9;
344(3):827-33.
non-patent document 15: Benfotiamine. Monograph. Altern Med
Rev. 2006 Sep; 11(3):238-42.
non-patent document 16: Vallianou N, Evangelopoulos A,
Koutalas P. Alpha-lipoic Acid and diabetic neuropathy. Rev
Diabet Stud. 2009 Winter; 6(4):230-6.
non-patent document 17: Ussher JR, Lopaschuk GD. The malonyl
CoA axis as a potential target for treating ischaemic heart
disease. Cardiovasc Res. 2008 Jul 15; 79(2):259-68.
non-patent document 18: Wargovich TJ, MacDonald RG, Hill JA,
Feldman RL, Stacpoole PW, Pepine CJ. Myocardial metabolic and
hemodynamic effects of dichloroacetate in coronary artery
disease. Am J Cardiol. 1988 Jan 1; 61(1):65-70.
non-patent document 19: Taniguchi M, Wilson C, Hunter CA,
Pehowich DJ, Clanachan AS, Lopaschuk GD. Dichloroacetate
improves cardiac efficiency after ischemia independent of
changes in mitochondrial proton leak. Am J Physiol Heart Circ
Physiol. 2001 Apr; 280(4):H1762-9.
non-patent document 20: Stacpoole PW, Nagaraja NV, Hutson AD.
Efficacy of dichloroacetate as a lactate-lowering drug. J Clin
Pharmacol. 2003 Jul; 43(7):683-91.
non-patent document 21: Bonnet S, Archer SL, Allalunis-Turner
J, Haromy A, Beaulieu C, Thompson R, et al. A mitochondria-K+
channel axis is suppressed in cancer and its normalization
promotes apoptosis and inhibits cancer growth. Cancer Cell.
2007 Jan; 11(1):37-51.
non-patent document 22: McMurtry MS, Bonnet S, Wu X, Dyck JR,
Haromy A, Hashimoto K, et al. Dichloroacetate prevents and
reverses pulmonary hypertension by inducing pulmonary artery
smooth muscle cell apoptosis. Circ Res. 2004 Oct 15;
95(8):830-40.
non-patent document 23: Saxena U. Bioenergetics breakdown in
Alzheimer's disease: targets for new therapies. Int J Physiol
Pathophysiol Pharmacol. 2011; 3(2):133-9.
non-patent document 24: Stacpoole PW. The pyruvate
dehydrogenase complex as a therapeutic target for age-related
diseases. Aging Cell. 2012 Jun; 11(3):371-7.
non-patent document 25: Marangos PJ, Turkel CC, Dziewanowska
ZE, Fox AW. Dichloroacetate and cerebral ischaemia
therapeutics. Expert Opin Investig Drugs. 1999 Apr; 8(4):373-
non-patent document 26: Calvert LD, Shelley R, Singh SJ,
Greenhaff PL, Bankart J, Morgan MD, et al. Dichloroacetate
enhances performance and reduces blood lactate during maximal
cycle exercise in chronic obstructive pulmonary disease. Am J
Respir Crit Care Med. 2008 May 15; 177(10):1090-4.
non-patent document 27: Flavin DF. Non-Hodgkin’s Lymphoma
Reversal with Dichloroacetate. J Oncol. Hindawi Publishing
Corporation Journal of Oncology, Volume 2010, Article ID
414726, 4 pages doi:10.1155/2010/414726.
Summary of the Invention
[0016]
The present invention is as follow.
A compound represented by the formula [I]:
[0018]
wherein n is 1 or 2,
or a pharmaceutically acceptable salt thereof, or a solvate
thereof,
the compound of the above-mentioned [1], which is
represented by the formula:
[0019]
the compound of the above-mentioned [2], which is
represented by the formula [II]:
[0021]
the compound of the above-mentioned [2], which is
represented by the formula [IIh]:
[0023]
the compound represented by the formula [III]:
a pharmaceutical composition comprising the compound of
any of the above-mentioned [1] to [5], or a pharmaceutically
acceptable salt thereof, or a solvate thereof, and a
pharmaceutically acceptable carrier,
a PDHK inhibitor comprising the compound of any of the
above-mentioned [1] to [5], or a pharmaceutically acceptable
salt thereof, or a solvate thereof,
a PDHK1 inhibitor comprising the compound of any of the
above-mentioned [1] to [5], or a pharmaceutically acceptable
salt thereof, or a solvate thereof,
a PDHK2 inhibitor comprising the compound of any of the
above-mentioned [1] to [5], or a pharmaceutically acceptable
salt thereof, or a solvate thereof,
a hypoglycemic agent comprising the compound of any of
the above-mentioned [1] to [5], or a pharmaceutically
acceptable salt thereof, or a solvate thereof,
a lactic acid-lowering agent comprising the compound of
any of the above-mentioned [1] to [5], or a pharmaceutically
acceptable salt thereof, or a solvate thereof,
[12] an agent for the prophylaxis or treatment of diabetes,
insulin resistance syndrome, metabolic syndrome, hyperglycemia,
hyperlactacidemia, diabetic complications, cardiac failure,
cardiomyopathy, myocardial ischemia, myocardial infarction,
angina pectoris, dyslipidemia, atherosclerosis, peripheral
arterial disease, intermittent claudication, chronic
obstructive pulmonary disease, brain ischemia, cerebral
apoplexy, mitochondrial disease, mitochondrial
encephalomyopathy, cancer or pulmonary hypertension, which
comprises the compound of any of the above-mentioned [1] to
[5], or a pharmaceutically acceptable salt thereof, or a
solvate thereof,
[12’] an agent for the prophylaxis or treatment of diabetes,
insulin resistance syndrome, metabolic syndrome, hyperglycemia,
hyperlactacidemia, diabetic complications, cardiac failure,
cardiomyopathy, myocardial ischemia, myocardial infarction,
angina pectoris, dyslipidemia, atherosclerosis, peripheral
arterial disease, intermittent claudication, chronic
obstructive pulmonary disease, brain ischemia, cerebral
apoplexy, mitochondrial disease, mitochondrial
encephalomyopathy, cancer, pulmonary hypertension or Alzheimer
disease, which comprises the compound of any of the above-
mentioned [1] to [5], or a pharmaceutically acceptable salt
thereof,
the prophylactic or therapeutic agent of the above-
mentioned [12], wherein the diabetes is type 1 diabetes or
type 2 diabetes,
the prophylactic or therapeutic agent of the above-
mentioned [12], wherein the diabetic complications are
selected from the group consisting of diabetic neuropathy,
diabetic retinopathy, diabetic nephropathy and cataract,
the prophylactic or therapeutic agent of the above-
mentioned [12], wherein the cardiac failure is acute cardiac
failure or chronic cardiac failure,
a pharmaceutical composition comprising
(a) the compound of any of the above-mentioned [1] to [5], or
a pharmaceutically acceptable salt thereof, and
(b) at least one other medicament effective for the
prophylaxis or treatment of a disease selected from the group
consisting of diabetes (type 1 diabetes, type 2 diabetes),
insulin resistance syndrome, metabolic syndrome, hyperglycemia,
hyperlactacidemia, diabetic complications(diabetic neuropathy,
diabetic retinopathy, diabetic nephropathy, cataract), cardiac
failure (acute cardiac failure, chronic cardiac failure),
cardiomyopathy, myocardial ischemia, myocardial infarction,
angina pectoris, dyslipidemia, atherosclerosis, peripheral
arterial disease, intermittent claudication, chronic
obstructive pulmonary diseases, brain ischemia, cerebral
apoplexy, mitochondrial disease, mitochondrial
encephalomyopathy, cancer and pulmonary hypertension,
[16’] a pharmaceutical composition comprising
(a) the compound of any of the above-mentioned [1] to [5], or
a pharmaceutically acceptable salt thereof, and
(b) at least one other medicament effective for the
prophylaxis or treatment of a disease selected from the group
consisting of diabetes (type 1 diabetes, type 2 diabetes),
insulin resistance syndrome, metabolic syndrome, hyperglycemia,
hyperlactacidemia, diabetic complications(diabetic neuropathy,
diabetic retinopathy, diabetic nephropathy, cataract), cardiac
failure (acute cardiac failure, chronic cardiac failure),
cardiomyopathy, myocardial ischemia, myocardial infarction,
angina pectoris, dyslipidemia, atherosclerosis, peripheral
arterial disease, intermittent claudication, chronic
obstructive pulmonary diseases, brain ischemia, cerebral
apoplexy, mitochondrial disease, mitochondrial
encephalomyopathy, cancer, pulmonary hypertension and
Alzheimer disease,
a combination drug comprising
(a) the compound of any of the above-mentioned [1] to [5], or
a pharmaceutically acceptable salt thereof, and
(b) at least one other medicament effective for the
prophylaxis or treatment of a disease selected from the group
consisting of diabetes (type 1 diabetes, type 2 diabetes),
insulin resistance syndrome, metabolic syndrome, hyperglycemia,
hyperlactacidemia, diabetic complications (diabetic neuropathy,
diabetic retinopathy, diabetic nephropathy, cataract), cardiac
failure (acute cardiac failure, chronic cardiac failure),
cardiomyopathy, myocardial ischemia, myocardial infarction,
angina pectoris, dyslipidemia, atherosclerosis, peripheral
arterial disease, intermittent claudication, chronic
obstructive pulmonary disease, brain ischemia, cerebral
apoplexy, mitochondrial disease, mitochondrial
encephalomyopathy, cancer and pulmonary hypertension, which
are administered simultaneously, separately or continuously.
[17’] a combination drug comprising
(a) the compound of any of the above-mentioned [1] to [5], or
a pharmaceutically acceptable salt thereof, and
(b) at least one other medicament effective for the
prophylaxis or treatment of a disease selected from the group
consisting of diabetes (type 1 diabetes, type 2 diabetes),
insulin resistance syndrome, metabolic syndrome, hyperglycemia,
hyperlactacidemia, diabetic complications (diabetic neuropathy,
diabetic retinopathy, diabetic nephropathy, cataract), cardiac
failure (acute cardiac failure, chronic cardiac failure),
cardiomyopathy, myocardial ischemia, myocardial infarction,
angina pectoris, dyslipidemia, atherosclerosis, peripheral
arterial disease, intermittent claudication, chronic
obstructive pulmonary disease, brain ischemia, cerebral
apoplexy, mitochondrial disease, mitochondrial
encephalomyopathy, cancer, pulmonary hypertension and
Alzheimer disease, which are administered simultaneously,
separately or continuously.
a method of inhibiting PDHK in a mammal, comprising
administering a pharmaceutically effective amount of the
compound of any of the above-mentioned [1] to [5], or a
pharmaceutically acceptable salt thereof to said mammal,
a method of inhibiting PDHK1 in a mammal, comprising
administering a pharmaceutically effective amount of the
compound of any of the above-mentioned [1] to [5], or a
pharmaceutically acceptable salt thereof to said mammal,
[20] a method of inhibiting PDHK2 in a mammal, comprising
administering a pharmaceutically effective amount of the
compound of any of the above-mentioned [1] to [5], or a
pharmaceutically acceptable salt thereof to said mammal,
a method for the prophylaxis or treatment of diabetes
(type 1 diabetes, type 2 diabetes), insulin resistance
syndrome, metabolic syndrome, hyperglycemia, hyperlactacidemia,
diabetic complications (diabetic neuropathy, diabetic
retinopathy, diabetic nephropathy, cataract), cardiac failure
(acute cardiac failure, chronic cardiac failure),
cardiomyopathy, myocardial ischemia, myocardial infarction,
angina pectoris, dyslipidemia, atherosclerosis, peripheral
arterial disease, intermittent claudication, chronic
obstructive pulmonary disease, brain ischemia, cerebral
apoplexy, mitochondrial disease, mitochondrial
encephalomyopathy, cancer or pulmonary hypertension in a
mammal, comprising administering a pharmaceutically effective
amount of the compound of any of the above-mentioned [1] to
, or a pharmaceutically acceptable salt thereof to said
mammal,
[21’] a method for the prophylaxis or treatment of diabetes
(type 1 diabetes, type 2 diabetes), insulin resistance
syndrome, metabolic syndrome, hyperglycemia, hyperlactacidemia,
diabetic complications (diabetic neuropathy, diabetic
retinopathy, diabetic nephropathy, cataract), cardiac failure
(acute cardiac failure, chronic cardiac failure),
cardiomyopathy, myocardial ischemia, myocardial infarction,
angina pectoris, dyslipidemia, atherosclerosis, peripheral
arterial disease, intermittent claudication, chronic
obstructive pulmonary disease, brain ischemia, cerebral
apoplexy, mitochondrial disease, mitochondrial
encephalomyopathy, cancer, pulmonary hypertension or Alzheimer
disease in a mammal, comprising administering a
pharmaceutically effective amount of the compound of any of
the above-mentioned [1] to [5], or a pharmaceutically
acceptable salt thereof to said mammal,
a method of decreasing the blood glucose level in a mammal,
comprising administering a pharmaceutically effective amount of
the compound of any of the above-mentioned [1] to [5], or a
pharmaceutically acceptable salt thereof to said mammal,
[23] a method of decreasing the lactate level in a mammal,
comprising administering a pharmaceutically effective amount of
the compound of any of the above-mentioned [1] to [5], or a
pharmaceutically acceptable salt thereof to said mammal,
use of the compound of any of the above-mentioned [1] to
[5], or a pharmaceutically acceptable salt thereof for the
production of a PDHK inhibitor,
use of the compound of any of the above-mentioned [1] to
, or a pharmaceutically acceptable salt thereof for the
production of a PDHK1 inhibitor,
[26] use of the compound of any of the above-mentioned [1] to
, or a pharmaceutically acceptable salt thereof for the
production of a PDHK2 inhibitor,
use of the compound of any of the above-mentioned [1] to
, or a pharmaceutically acceptable salt thereof for the
production of a blood glucose level-lowering agent,
use of the compound of any of the above-mentioned [1] to
, or a pharmaceutically acceptable salt thereof for the
production of a lactate level-lowering agent,
use of the compound of any of the above-mentioned [1] to
[5], or a pharmaceutically acceptable salt thereof for the
production of a prophylactic or therapeutic agent for diabetes
(type 1 diabetes, type 2 diabetes), insulin resistance
syndrome, metabolic syndrome, hyperglycemia, hyperlactacidemia,
diabetic complications (diabetic neuropathy, diabetic
retinopathy, diabetic nephropathy, cataract), cardiac failure
(acute cardiac failure, chronic cardiac failure),
cardiomyopathy, myocardial ischemia, myocardial infarction,
angina pectoris, dyslipidemia, atherosclerosis, peripheral
arterial disease, intermittent claudication, chronic
obstructive pulmonary disease, brain ischemia, cerebral
apoplexy, mitochondrial disease, mitochondrial
encephalomyopathy, cancer or pulmonary hypertension,
[29’] use of the compound of any of the above-mentioned [1] to
, or a pharmaceutically acceptable salt thereof for the
production of a prophylactic or therapeutic agent for diabetes
(type 1 diabetes, type 2 diabetes), insulin resistance
syndrome, metabolic syndrome, hyperglycemia, hyperlactacidemia,
diabetic complications (diabetic neuropathy, diabetic
retinopathy, diabetic nephropathy, cataract), cardiac failure
(acute cardiac failure, chronic cardiac failure),
cardiomyopathy, myocardial ischemia, myocardial infarction,
angina pectoris, dyslipidemia, atherosclerosis, peripheral
arterial disease, intermittent claudication, chronic
obstructive pulmonary disease, brain ischemia, cerebral
apoplexy, mitochondrial disease, mitochondrial
encephalomyopathy, cancer, pulmonary hypertension or Alzheimer
disease,
the use of any of the above-mentioned [24] to [29], in
combination with at least one other medicament effective for
the prophylaxis or treatment of a disease selected from the
group consisting of diabetes (type 1 diabetes, type 2
diabetes), insulin resistance syndrome, metabolic syndrome,
hyperglycemia, hyperlactacidemia, diabetic complications
(diabetic neuropathy, diabetic retinopathy, diabetic
nephropathy, cataract), cardiac failure (acute cardiac failure,
chronic cardiac failure), cardiomyopathy, myocardial ischemia,
myocardial infarction, angina pectoris, dyslipidemia,
atherosclerosis, peripheral arterial disease, intermittent
claudication, chronic obstructive pulmonary disease, brain
ischemia, cerebral apoplexy, mitochondrial disease,
mitochondrial encephalomyopathy, cancer and pulmonary
hypertension, and
[30’] the use of any of the above-mentioned [24] to [29], in
combination with at least one other medicament effective for
the prophylaxis or treatment of a disease selected from the
group consisting of diabetes (type 1 diabetes, type 2
diabetes), insulin resistance syndrome, metabolic syndrome,
hyperglycemia, hyperlactacidemia, diabetic complications
(diabetic neuropathy, diabetic retinopathy, diabetic
nephropathy, cataract), cardiac failure (acute cardiac failure,
chronic cardiac failure), cardiomyopathy, myocardial ischemia,
myocardial infarction, angina pectoris, dyslipidemia,
atherosclerosis, peripheral arterial disease, intermittent
claudication, chronic obstructive pulmonary disease, brain
ischemia, cerebral apoplexy, mitochondrial disease,
mitochondrial encephalomyopathy, cancer, pulmonary
hypertension and Alzheimer disease, and the like.
Effect of the Invention
The compound of the present invention or a
pharmaceutically acceptable salt thereof inhibits a PDHK
activity, and is useful as a therapeutic or prophylactic agent
for diabetes (type 1 diabetes, type 2 diabetes), insulin
resistance syndrome, metabolic syndrome, hyperglycemia,
hyperlactacidemia, diabetic complications (diabetic neuropathy,
diabetic retinopathy, diabetic nephropathy, cataract), cardiac
failure (acute cardiac failure, chronic cardiac failure),
cardiomyopathy, myocardial ischemia, myocardial infarction,
angina pectoris, dyslipidemia, atherosclerosis, peripheral
arterial disease, intermittent claudication, chronic
obstructive pulmonary disease, brain ischemia, cerebral
apoplexy, mitochondrial disease, mitochondrial
encephalomyopathy, cancer, pulmonary hypertension or Alzheimer
disease, and the like.
Brief Description of the Drawings
Fig. 1 shows an effect of test compounds on the liver PDH
activity (percentage of active liver PDH activity to the total
liver PDH activity) in non-fasting SD(IGS) rats (mean
standard deviation (n=3)).
Fig. 2 shows an effect of test compounds on the adipose
tissue PDH activity (percentage of active adipose tissue PDH
activity to the total adipose tissue PDH activity) in non-
fasting SD(IGS) rats (mean standard deviation (n=3)).
Description of Embodiments
The present invention is explained in detail in the
following.
The compound of the present invention is a compound
represented by the formula [I]:
wherein n is 1 or 2,
(hereinafter to be also referred to as compound (1)), or a
pharmaceutically acceptable salt thereof.
The compound of the present invention is a compound
represented by the formula [II]:
(2-{4-[(9R)hydroxy(3-hydroxymethylbutyloxy)
(trifluoromethyl)-9H-fluorenyl]-1H-pyrazolyl}
methylpropanamide) (hereinafter to be also referred to as
compound (2)).
The compound of the present invention is a compound
represented by the formula [IIh]:
[0036]
(2-{4-[(9R)hydroxy(3-hydroxymethylbutyloxy)
(trifluoromethyl)-9H-fluorenyl]-1H-pyrazolyl}
methylpropanamide monohydrate) (hereinafter to be also
referred to as compound (2h)).
[0037]
The compound of the present invention is a compound
represented by the formula [III]:
[0039]
(2-{4-[(9R)hydroxy(4-hydroxymethylpentyloxy)
(trifluoromethyl)-9H-fluorenyl]-1H-pyrazolyl}
methylpropanamide) (hereinafter to be also referred to as
compound (3)).
A pharmaceutically acceptable salt of the compound of the
present invention may be any salt as long as it forms a nontoxic
salt with the compound of the present invention. Examples
thereof include salts with inorganic acids, salts with organic
acids, salts with amino acids and the like.
Examples of the salt with inorganic acid include a salt
with hydrochloric acid, nitric acid, sulfuric acid, phosphoric
acid, hydrobromic acid and the like.
Examples of the salt with organic acid include salts with
oxalic acid, maleic acid, citric acid, fumaric acid, lactic
acid, malic acid, succinic acid, tartaric acid, acetic acid,
trifluoroacetic acid, gluconic acid, ascorbic acid,
methanesulfonic acid, benzenesulfonic acid, p-toluenesulfonic
acid and the like.
Examples of the salt with amino acid include salts with
lysine, arginine, aspartic acid, glutamic acid and the like.
A pharmaceutically acceptable salt of the compound of the
present invention is preferably a salt with an inorganic acid.
In addition, the compound of the present invention or a
pharmaceutically acceptable salt thereof may be labeled with an
3 14 35
isotope (e.g., H, C, S etc.).
As the compound of the present invention or a
pharmaceutically acceptable salt thereof, compound (1) or a
pharmaceutically acceptable salt thereof, each of which is
substantially purified, is preferable. More preferred is the
compound of the present invention or a pharmaceutically
acceptable salt thereof, each of which is purified to a purity
of not less than 80%.
[0044]
The compound of the formula [I] or a pharmaceutically
acceptable salt thereof may exist as a solvate. The term
"solvate" refers to the compound of the formula [I] or a
pharmaceutically acceptable salt thereof with which a solvent
molecule is associated, and also includes hydrates. Such
solvates are preferably pharmaceutically acceptable solvates.
Such solvates include, for example, hydrate, ethanol solvate,
dimethylsulfoxide-solvate and the like of the compound of the
formula [I] or a pharmaceutically acceptable salt thereof.
Specific examples include hemihydrate, monohydrate, dihydrate
or mono(ethanol)solvate of the compound of the formula [I] or
a monohydrate of the compound of the formula [I],
2/3(ethanol)solvate of dihydrochloride of the same and the
like. Such solvates can be produced according to conventional
methods.
Examples of the “pharmaceutical composition” include oral
preparations such as tablet, capsule, granule, powder, troche,
syrup, emulsion, suspension and the like, and parenteral agents
such as external preparation, suppository, injection, eye drop,
nasal preparation, pulmonary preparation and the like.
The pharmaceutical composition of the present invention is
produced according to a method previously described in the art
of pharmaceutical preparations, by mixing the compound of the
present invention or a pharmaceutically acceptable salt
thereof with a suitable amount of at least one kind of
pharmaceutically acceptable carrier and the like as appropriate.
While the content of the compound of the present invention or a
pharmaceutically acceptable salt thereof in the pharmaceutical
composition varies depending on the dosage form, dose and the
like, it is, for example, 0.1 to 100 wt% of the whole
composition.
Examples of the “pharmaceutically acceptable carrier”
include various organic or inorganic carrier substances
conventionally used as preparation materials, for example,
excipient, disintegrant, binder, fluidizer, lubricant and the
like for solid preparations, and solvent, solubilizing agent,
suspending agent, isotonicity agent, buffering agent, soothing
agent and the like for liquid preparations. Where necessary,
moreover, additives such as preservative, antioxidant, colorant,
sweetening agent and the like are used.
Examples of the “excipient” include lactose, sucrose, D-
mannitol, D-sorbitol, cornstarch, dextrin, microcrystalline
cellulose, crystalline cellulose, carmellose, carmellose
calcium, sodium carboxymethyl starch, low-substituted
hydroxypropylcellulose, gum arabic and the like.
[0049]
Examples of the “disintegrant” include carmellose,
carmellose calcium, carmellose sodium, sodium carboxymethyl
starch, croscarmellose sodium, crospovidone, low-substituted
hydroxypropylcellulose, hydroxypropylmethylcellulose,
crystalline cellulose and the like.
Examples of the “binder” include hydroxypropylcellulose,
hydroxypropylmethylcellulose, povidone, crystalline cellulose,
sucrose, dextrin, starch, gelatin, carmellose sodium, gum arabic
and the like.
Examples of the “fluidizer” include light anhydrous
silicic acid, magnesium stearate and the like.
Examples of the “lubricant” include magnesium stearate,
calcium stearate, talc and the like.
Examples of the “solvent” include purified water, ethanol,
propylene glycol, macrogol, sesame oil, corn oil, olive oil and
the like.
Examples of the “solubilizing agents” include propylene
glycol, D-mannitol, benzyl benzoate, ethanol, triethanolamine,
sodium carbonate, sodium citrate and the like.
[0055]
Examples of the “suspending agent” include benzalkonium
chloride, carmellose, hydroxypropylcellulose, propylene glycol,
povidone, methylcellulose, glycerol monostearate and the like.
Examples of the “isotonic agent” include glucose, D-
sorbitol, sodium chloride, D-mannitol and the like.
Examples of the “buffering agent” include sodium
hydrogenphosphate, sodium acetate, sodium carbonate, sodium
citrate and the like.
Examples of the “soothing agent” include benzyl alcohol
and the like.
Examples of the “preservative” include ethyl
parahydroxybenzoate, chlorobutanol, benzyl alcohol, sodium
dehydroacetate, sorbic acid and the like.
Examples of the “antioxidant” include sodium sulfite,
ascorbic acid and the like.
Examples of the “colorant” include food colors (e.g., Food
Color Red No. 2 or 3, Food Color yellow No. 4 or 5 etc.), β-
carotene and the like.
[0062]
Examples of the “sweetening agent” include saccharin
sodium, dipotassium glycyrrhizinate, aspartame and the like.
The pharmaceutical composition of the present invention
can be administered orally or parenterally (e.g., topical,
intramuscular, subcutaneous, rectal, intravenous administration
etc.) to human as well as mammals other than human (e.g., mouse,
rat, hamster, guinea pig, rabbit, cat, dog, swine, bovine,
horse, sheep, monkey etc.). The dose varies depending on the
subject of administration, disease, symptom, dosage form,
administration route and the like. For example, the daily dose
for oral administration to an adult patient (body weight: about
60 kg) is generally within the range of about 1 mg to 1 g, based
on compound (1) as the active ingredient. This amount can be
administered in one to several portions.
Since the compound of the present invention or a
pharmaceutically acceptable salt thereof has a PDHK (PDHK1
and/or PDHK2) inhibitory activity, it is considered to be
advantageous for the treatment or prophylaxis of the diseases
relating to an impairment of glucose utilization, for example,
diabetes (type 1 diabetes, type 2 diabetes etc.), insulin
resistance syndrome, metabolic syndrome, hyperglycemia,
hyperlactacidemia, diabetic complications (diabetic neuropathy,
diabetic retinopathy, diabetic nephropathy, cataract etc.). In
addition, the PDHK inhibitor is considered to be advantageous
for the treatment or prophylaxis of diseases wherein supply of
an energy substrate to a tissue is limited, for example,
cardiac failure (acute cardiac failure, chronic cardiac
failure), cardiomyopathy, myocardial ischemia, myocardial
infarction, angina pectoris, dyslipidemia, atherosclerosis,
peripheral arterial disease, intermittent claudication, chronic
obstructive pulmonary disease, brain ischemia and cerebral
apoplexy. Furthermore, the PDHK inhibitor is considered to be
advantageous for the treatment or prophylaxis of a
mitochondrial disease, mitochondrial encephalomyopathy, cancer
pulmonary hypertension or Alzheimer disease, and the like.
Diabetes is, for example, type 1 diabetes or type 2
diabetes.
Examples of the diabetic complications include diabetic
neuropathy, diabetic retinopathy, diabetic nephropathy and
cataract.
[0067]
Cardiac failure is, for example, acute cardiac failure or
chronic cardiac failure.
To “inhibit PDHK” means to inhibit the function of PDHK
and eliminate or attenuate the activity. To “inhibit PDHK”,
human PDHK is preferably inhibited. As a “PDHK inhibitor”,
preferred is a “human PDHK inhibitor”.
To “inhibit PDHK1” means to inhibit the function of PDHK1
and eliminate or attenuate the activity. For example, it means
to inhibit the function as PDHK1 based on the conditions in the
below-mentioned Experimental Example 1. To “inhibit PDHK1”,
human PDHK1 is preferably inhibited. As a “PDHK1 inhibitor”,
preferred is a “human PDHK1 inhibitor”. More preferred is a
“PDHK1 inhibitor for human target organ”.
To “inhibit PDHK2” means to inhibit the function of PDHK2
and eliminate or attenuate the activity. For example, it means
to inhibit the function as PDHK2 based on the conditions in the
below-mentioned Experimental Example 1. To “inhibit PDHK2”,
human PDHK2 is preferably inhibited. As a “PDHK2 inhibitor”,
preferred is a “human PDHK2 inhibitor”. More preferred is a
“PDHK2 inhibitor for human target organ”.
To “activate PDH” means to activate PDH in a target organ
(e.g., liver, skeletal muscle, adipose tissue, heart, brain) and
the like, cancer or the like.
To “decrease blood glucose level” means to decrease the
glucose concentration in blood (including in serum and plasma),
preferably to decrease high blood glucose level, more
preferably, to decrease the blood glucose level to a
therapeutically effective normal level for human.
To “decrease lactic acid level” means to decrease the
lactic acid concentration in blood (including in serum and
plasma), preferably to decrease high lactic acid level, more
preferably, to decrease the lactic acid level to a
therapeutically effective normal level for human.
[0074]
The compound of the present invention or a
pharmaceutically acceptable salt thereof can be used in
combination with one or a plurality of other medicaments
(hereinafter to be also referred to as a concomitant drug)
according to a method generally employed in the medical field
(hereinafter to be referred to as combined use).
The administration period of the compound of the present
invention or a pharmaceutically acceptable salt thereof, and a
concomitant drug is not limited, and they may be administered to
an administration subject as combination preparation, or the
both preparations may be administered simultaneously or at given
intervals. In addition, the pharmaceutical composition of the
present invention and a concomitant drug may be used as a
medicament in the form of a kit. The dose of the concomitant
drug is similar to the clinically-employed dose and can be
appropriately selected according to the subject of
administration, disease, symptom, dosage form, administration
route, administration time, combination and the like. The
administration form of the concomitant drug is not particularly
limited, and it only needs to be combined with the compound of
the present invention or a pharmaceutically acceptable salt
thereof.
Examples of the combination drug include therapeutic
agents and/or prophylaxis agents for diabetes (type 1 diabetes,
type 2 diabetes etc.), insulin resistance syndrome, metabolic
syndrome, hyperglycemia, hyperlactacidemia, diabetic
complications (diabetic neuropathy, diabetic retinopathy,
diabetic nephropathy, cataract), cardiac failure (acute cardiac
failure, chronic cardiac failure), cardiomyopathy, myocardial
ischemia, myocardial infarction, angina pectoris, dyslipidemia,
atherosclerosis, peripheral arterial disease, intermittent
claudication, chronic obstructive pulmonary disease, brain
ischemia, cerebral apoplexy, mitochondrial disease,
mitochondrial encephalomyopathy, cancer, pulmonary hypertension
or Alzheimer disease, and the like, and one or more agents
therefrom and the compound of the present invention or a
pharmaceutically acceptable salt thereof can be used in
combination.
Examples of the “agent for the treatment and/or
prophylaxis of diabetes” include insulin preparation,
sulfonylurea hypoglycemic agent, metformin, DPP-4 inhibitor,
insulin resistance improving agent (for example, thiazolidine
derivative), GLP-1 receptor agonist and the like.
Examples
The production method of the compound of the present
invention or a pharmaceutically acceptable salt thereof is
specifically explained by Examples. However, the present
invention is not limited by these Examples.
Even if no description is found in the present production
method, steps may be modified for efficient production, such as
introduction of a protecting group into a functional group where
necessary with deprotection in a subsequent step, using a
functional group as a precursor in each step, followed by
conversion to a desired functional group at a suitable stage,
changing the order of production methods and steps, and the like.
The treatment after reaction in each step may be performed
by a conventional method, where isolation and purification can
be performed as necessary according to a method appropriately
selected from conventional methods such as crystallization,
recrystallization, distillation, partitioning, silica gel
chromatography, preparative HPLC and the like, or a combination
thereof. All reagents and solvents have quality of
commercially available products, and were used without
purification.
Percentage % shows wt%. Other abbreviations used in the
example section mean the following.
s: singlet
d: doublet
t: triplet
q: quartet
m: multiplet
br: broad
dd: double doublet
td: triple doublet
ddd: double double doublet
J: coupling constant
CDCl : deuterated chloroform
DMSO-D : deuterated dimethyl sulfoxide
H NMR: proton nuclear magnetic resonance
HPLC: high performance liquid chromatography
DPPA: diphenylphosphoryl azide
H-NMR spectrum was measured in CDCl or DMSO-D using
tetramethylsilane as an internal standard, and all δ values
are shown in ppm.
[0080]
(10 mM phosphate buffer (pH 2.0))
Sodium dihydrogen phosphate (3.60 g) was dissolved in
water (3000 ml), and adjusted to pH 2.0 with phosphoric acid
to give the title buffer.
[0081]
HPLC analysis conditions
Analysis condition 1
Measurement device: HPLC system SHIMADZU CORPORATION high-
performance liquid chromatograph Prominence
Column: DAICEL CHIRALCEL OD-3R 4.6 mmФ×150 mm
Column temperature: 40 C
Mobile phase: (SOLUTION A) 10 mM phosphate buffer (pH 2.0),
(SOLUTION B) acetonitrile
The composition of the mobile phase (SOLUTION A:SOLUTION B)
was linearly changed from 50:50 to 20:80 over 20 min and then
maintained at 20:80 for 5 min.
Flow rate: 0.5 ml/min
Detection: UV (220 nm)
Analysis condition 2
Measurement device: HPLC system SHIMADZU CORPORATION high-
performance liquid chromatograph Prominence
Column: DAICEL CHIRALCEL OJ-RH 4.6 mmФx150 mm
Column temperature: 40 C
Mobile phase: (SOLUTION A) 10 mM phosphate buffer (pH 2.0),
(SOLUTION B) acetonitrile
The composition of the mobile phase (SOLUTION A:SOLUTION B)
was linearly changed from 70:30 to 40:60 over 20 min and then
maintained at 40:60 for 10 min.
Flow rate: 0.5 ml/min
Detection: UV (220 nm)
Analysis condition 3
Measurement device: HPLC system SHIMADZU CORPORATION high-
performance liquid chromatograph Prominence
Column: DAICEL CHIRALPAK AD-3R 4.6 mmФ×150 mm
Column temperature: 40 C
Mobile phase: (SOLUTION A) 10 mM phosphate buffer (pH 2.0),
(SOLUTION B) acetonitrile
The composition of the mobile phase (SOLUTION A:SOLUTION B)
was linearly changed from 50:50 to 20:80 over 20 min and then
maintained at 20:80 for 5 min.
Flow rate: 0.5 ml/min
Detection: UV (220 nm)
[0084]
Example 1
Synthesis of 2-{4-[(9R)hydroxy(3-hydroxy
methylbutyloxy)(trifluoromethyl)-9H-fluorenyl]-1H-
pyrazolyl}methylpropanamide (compound (2))
[0085]
Step 1
Ethyl 2’-chloro-4’-methoxybiphenylcarboxylate
[0087]
Under an argon atmosphere, 1-bromochloro
methoxybenzene (44.3 g) was dissolved in toluene (220 ml),
ethyl 2-(4,4,5,5-tetramethyl[1,3,2]dioxaborolanyl)benzoate
(60.8 g), water (132 ml), sodium hydrogen carbonate (33.6 g)
and dichlorobis(triphenylphosphine)palladium(II) (2.8 g) were
added, and the mixture was stirred at an oil bath temperature
of 120 C for 7 hr. To the reaction mixture was added ethyl 2-
(4,4,5,5-tetramethyl[1,3,2]dioxaborolanyl)benzoate (5.2 g),
and the mixture was further stirred for 2 hr. The reaction
mixture was cooled to room temperature, toluene (100 ml) and
water (200 ml) were added, and the mixture was stirred
overnight. To the reaction mixture was added activated carbon
(3 g), and the mixture was further stirred for 1 hr. The
insoluble material was filtered off through celite, and the
insoluble material was washed with toluene (100 ml) and water
(200 ml). The obtained filtrates were combined to allow for
layer separation. The obtained organic layer was washed with
water (100 ml), and the solvent was evaporated to give the
title compound (67.7 g).
H-NMR (400MHz, DMSO-D ) δ: 7.88-7.86 (1H, m), 7.63 (1H, td, J
= 7.6, 1.4 Hz), 7.51 (1H, td, J = 7.6, 1.4 Hz), 7.27 (1H, dd,
J = 7.6, 0.9 Hz), 7.18 (1H, d, J =8.6 Hz), 7.06 (1H, d, J =
2.6 Hz), 6.95 (1H, dd, J = 8.6, 2.6 Hz), 4.01 (2H, m), 3.80
(3H, s), 0.96 (3H, t, J = 7.1 Hz).
Step 2
2’-Chloro-4’-methoxybiphenylcarboxylic acid
Ethyl 2’-chloro-4’-methoxybiphenylcarboxylate (67.7 g)
was dissolved in ethanol (100 ml), 4N aqueous sodium hydroxide
(100 ml) was added, and the mixture was stirred at an oil bath
temperature of 110 C for 4.5 hr. The reaction mixture was
cooled to room temperature, water (200 ml) and toluene (100
ml) were added, and the mixture was stirred overnight. To the
reaction mixture was added activated carbon (3.6 g), and the
mixture was further stirred for 1 hr. The insoluble material
was filtered off through celite, and the insoluble material
was washed with toluene (30 ml) and water (300 ml). The
obtained filtrates were combined to allow for layer separation.
The obtained aqueous layer was washed with toluene (100 ml),
the aqueous layer was acidified with concentrated hydrochloric
acid (40 ml), and stirred at room temperature for 1 hr. The
precipitated solid was collected by filtration. The obtained
solid was air-dried for 3 hr, and dried under reduced pressure
at 60 C overnight to give the title compound (50.2 g).
H-NMR (400MHz, DMSO-D6) δ: 12.57 (1H, s), 7.90-7.88 (1H, m),
7.60 (1H, td, J = 7.6, 1.3 Hz), 7.49 (1H, td, J = 7.6, 1.3 Hz),
7.24 (1H, dd, J = 7.6, 1.0 Hz), 7.19 (1H, d, J = 8.4 Hz), 7.06
(1H, d, J = 2.4 Hz), 6.95 (1H, dd, J = 8.5, 2.4 Hz), 3.81 (3H,
s).
Step 3
4-Chloromethoxy-9H-fluorenone
Under an argon atmosphere, to 2’-chloro-4’-
methoxybiphenylcarboxylic acid (65.4 g) was added an Eaton
reagent (phosphorus pentoxide - methanesulfonic acid (weight
ratio 1:10) solution, 330 ml), and the mixture was stirred at
an oil bath temperature of 100 C for 1 hr. The reaction
mixture was ice-cooled, water (650 ml) was slowly added
dropwise, and the mixture was stirred at room temperature for
1 hr. The precipitated solid was collected by filtration, and
washed with water (500 ml). The obtained solid was air-dried
overnight to give the title compound (92.0 g).
H-NMR (400MHz, DMSO-D ) δ: 8.01 (1H, d, J = 7.4 Hz), 7.64-7.60
(2H, m), 7.36 (1H, td, J = 7.4, 0.9 Hz), 7.17 (2H, dd, J = 8.4,
2.3 Hz), 3.85 (3H, s).
[0094]
Step 4
4-Chlorohydroxy-9H-fluorenone
Under an argon atmosphere, to 4-chloromethoxy-9H-
fluorenone (92.0 g) were added N-methylpyrrolidone (120 ml)
and pyridine hydrochloride (144 g). The reaction mixture was
stirred at an oil bath temperature of 200 C for 3 hr with
removing water by a Dean-Stark apparatus. The reaction mixture
was cooled to 90 C, water (600 ml) was added dropwise, and the
mixture was stirred at room temperature for 2 hr. The
precipitated solid was collected by filtration, and washed
with water (400 ml). The obtained solid was air-dried for 3
days, a mixed solvent of hexane and ethyl acetate (hexane:
ethyl acetate 1:1, 300 ml) was added, and the mixture was
stirred at room temperature for 1 hr. The solid was collected
by filtration, and washed with a mixed solvent of hexane and
ethyl acetate (hexane: ethyl acetate=1:1, 500 ml). The
obtained solid was dried under reduced pressure at 50 C for 3
hr to give the title compound (48.6 g).
H-NMR (400MHz, DMSO-D ) δ: 10.56 (1H, s), 7.96 (1H, d, J = 8.4
Hz), 7.61-7.57 (2H, m), 7.32 (1H, td, J = 7.4, 0.9 Hz), 6.97
(1H, d, J = 2.2 Hz), 6.94 (1H, d, J = 2.2 Hz).
Step 5
Ethyl 4-(4-chlorooxo-9H-fluorenyloxy)butyrate
[0098]
4-Chlorohydroxy-9H-fluorenone (48.6 g) was
dissolved in N,N-dimethylformamide (150 ml), potassium
carbonate (58.3 g) and ethyl 4-bromobutyrate (33.5 ml) were
added, and the mixture was stirred at 60 C for 2 hr. The
reaction mixture was cooled to 40 C, and toluene (300 ml) and
water (300 ml) were added to allow for layer separation. The
obtained aqueous layer was extracted again with toluene (100
ml). The obtained organic layers were combined, washed twice
with water (100 ml), anhydrous sodium sulfate and activated
carbon (2.5 g) were added, and the mixture was stirred at room
temperature for 5 min. The insoluble material was filtered off
through celite, and the solvent in the filtrate was evaporated.
To the obtained residue was added hexane (220 ml), and the
mixture was stirred at 50 C for 10 min and at room temperature
for 1 hr. The precipitated solid was collected by filtration,
and washed with hexane. The obtained solid was dried under
reduced pressure to give the title compound (66.9 g). In
addition, the solvent in the obtained filtrate was evaporated,
to the residue were added ethyl acetate (5 ml) and hexane (20
ml), and the mixture was stirred at room temperature for 1 hr.
The precipitated solid was collected by filtration, and washed
with hexane. The obtained solid was dried under reduced
pressure to further give the title compound (2.5 g).
H-NMR (400MHz, DMSO-D ) δ: 8.01 (1H, d, J = 7.6 Hz), 7.65-7.61
(2H, m), 7.37 (1H, t, J = 7.6 Hz), 7.17-7.14 (2H, m), 4.13-
4.05 (4H, m), 2.47 (2H, t, J = 7.3 Hz), 2.02-1.95 (2H, m),
1.19 (3H, td, J = 7.2, 0.7 Hz).
Step 6
Ethyl 4-[(9R)chlorohydroxy(trifluoromethyl)-9H-
fluorenyloxy]butyrate
Under an argon atmosphere, ethyl 4-(4-chlorooxo-9H-
fluoreneyloxy)butyrate (69.4 g) was dissolved in THF (700
ml), and N-(4-tert-butylbenzyl)cinchonidium 4-methoxyphenoxide
(6.4 g) was added. To the reaction mixture was added dropwise
a solution of trimethyl(trifluoromethyl)silane (52.0 ml) in
THF (140 ml) at -16 C, and the mixture was stirred at the same
temperature for 15 min. To the reaction mixture were
successively added acetic acid (23.0 ml) and 1M
tetrabutylammonium fluoride/THF solution (222 ml), and the
mixture was stirred at room temperature for 1 hr. The solvent
in the reaction mixture was evaporated, and to the obtained
residue were added toluene (500 ml) and saturated aqueous
sodium hydrogen carbonate (200 ml) to allow for layer
separation. The obtained organic layer was washed successively
with saturated aqueous sodium hydrogen carbonate (150 ml,
twice), 1N aqueous sodium hydroxide (100 ml), water (100 ml),
1N hydrochloric acid (100 ml), water (100 ml) and saturated
brine (100 ml). To the obtained organic layer were added
anhydrous magnesium sulfate and silica gel (150 g), and the
mixture was stirred for 10 min. The insoluble material was
filtered off, and the insoluble material was washed
successively with toluene (300 ml) and ethyl acetate (800 ml).
The obtained filtrate and the toluene washing were combined
and the solvent was evaporated to give the title compound
(72.1 g). Also, the solvent in the ethyl acetate washing was
evaporated, to the obtained residue were added silica gel (40
g) and a mixed solvent of hexane and ethyl acetate (ethyl
acetate:hexane 2:1, 300 ml), and the mixture was stirred at
room temperature. The insoluble material was filtered off, and
the insoluble material was washed with a mixed solvent of
hexane and ethyl acetate (ethyl acetate:hexane=2:1, 300 ml).
The solvent in the obtained filtrate was evaporated to further
give the title compound (20.3 g).
H-NMR (400MHz, DMSO-D ) δ: 8.14 (1H, d, J = 7.7 Hz), 7.66 (1H,
d, J = 7.5 Hz),7.53 (1H, t, J = 7.6 Hz), 7.42-7.38 (2H, m),
7.14 (2H, s), 4.11-4.05 (4H, m), 2.47 (2H, t, J = 7.5 Hz),
2.03-1.96 (2H, m), 1.19 (3H, td, J = 7.1, 0.8 Hz).
(Absolute configuration)
Identification of the absolute configuration of 4-chloro-
2-methyl(trifluoromethyl)-9H-fluorenol in the after-
mentioned step 10 confirmed that the title compound obtained
in this step is an (R) form. The optical purity was 52.9%e.e.
The optical purity was determined under the HPLC analysis
condition 1. Retention time of (S) form 19.6 min, retention
time of (R) form 23.0 min.
Step 7
4-[(9R)Chlorohydroxy(trifluoromethyl)-9H-fluoren
yloxy]butyric acid
Ethyl 4-[(9R)chlorohydroxy(trifluoromethyl)-9H-
fluorenyloxy]butyrate (92.2 g) was dissolved in ethanol
(100 ml), 4N aqueous sodium hydroxide (100 ml) was added, and
the mixture was stirred at 80 C overnight. The reaction
mixture was cooled to room temperature, water (200 ml) was
added, and the mixture was washed twice with toluene (100 ml).
The obtained aqueous layer was neutralized with concentrated
hydrochloric acid (40 ml), and extracted twice with ethyl
acetate (300 ml). The obtained ethyl acetate extract was
washed successively with water (100 ml, twice), and saturated
brine (100 ml), anhydrous magnesium sulfate and activated
carbon (4.2 g) were added, and the mixture was stirred at room
temperature for 10 min. The insoluble material was filtered
off, and the solvent in the filtrate was evaporated. To the
obtained residue was added chloroform (80 ml), and the mixture
was heated to 50 C. Hexane (400 ml) was added dropwise, and
the mixture was stirred at the same temperature for 30 min,
and at room temperature for 2 hr. The precipitated solid was
collected by filtration, washed with a mixed solvent of hexane
and chloroform (hexane:chloroform =9:1, 50 ml), and dried
under reduced pressure at 80 C for 2 hr to give the title
compound (72.5 g).
H-NMR (400MHz, DMSO-D ) δ: 12.17 (1H, br s), 8.14 (1H, d, J =
7.7 Hz), 7.66 (1H, d, J = 7.5 Hz), 7.54 (1H, td, J = 7.7, 1.2
Hz), 7.42-7.30 (2H, m), 7.18-7.15 (2H, m), 4.09 (2H, t, J =
6.4 Hz), 2.41 (2H, t, J = 7.3 Hz), 2.00-1.93 (2H, m).
[0107]
Step 8
(1S)(4-Methylphenyl)ethylamine salt of 4-[(9R)chloro
hydroxy(trifluoromethyl)-9H-fluorenyloxy]butyric acid
Under a nitrogen atmosphere, (1S)(4-
methylphenyl)ethylamine (19.5 g) was dissolved in ethyl
acetate (720 ml), and 4-[(9R)chlorohydroxy
(trifluoromethyl)-9H-fluorenyloxy]butyric acid (72.5 g) was
added. The reaction mixture was stirred at 60 C for 2 hr, and
at room temperature overnight. The precipitated solid was
collected by filtration, and washed with ethyl acetate (100
ml). The obtained solid was dried under reduced pressure at
60 C for 5 hr to give the title compound (68.6 g). In addition,
4-[(9S)chlorohydroxy(trifluoromethyl)-9H-fluoren
yloxy]butyric acid could be obtained from the filtrate.
(Optical purity)
The optical purity of 4-[(9R)chlorohydroxy
(trifluoromethyl)-9H-fluorenyloxy]butyric acid was
determined under the HPLC analysis condition 1 (optical purity
90.2%e.e.). Retention time of (R) form 12.9 min, retention
time of (S) form 10.4 min.
H-NMR (400MHz, DMSO-D6) δ: 8.14 (1H, d, J = 7.7 Hz), 7.66 (1H,
d, J = 7.7 Hz), 7.53 (1H, td, J = 7.6, 1.1 Hz), 7.40 (1H, td,
J = 7.6, 1.0 Hz), 7.26 (2H, d, J = 7.9 Hz), 7.16-7.10 (4H, m),
4.08 (2H, t, J = 6.5 Hz), 4.01 (1H, q, J = 6.7 Hz), 2.32 (2H,
t, J = 7.3 Hz), 2.26 (3H, s), 1.98-1.91 (2H, m), 1.26 (3H, d,
J = 6.7 Hz).
Step 9
4-[(9R)Chlorohydroxy(trifluoromethyl)-9H-fluoren
yloxy]butyric acid
To (1S)(4-methylphenyl)ethylamine salt of 4-[(9R)
chlorohydroxy(trifluoromethyl)-9H-fluoren
yloxy]butyric acid (68.6 g) were added ethyl acetate (500 ml)
and 2N hydrochloric acid (300 ml), and the mixture was stirred
at room temperature for 10 min. The mixture was allowed for
layer separation. The obtained organic layer was washed
successively with water (250 ml) and saturated brine (200 ml).
The obtained organic layer was dried over anhydrous magnesium
sulfate, the insoluble material was filtered off, and the
solvent in the filtrate was evaporated to give the title
compound (60.0 g).
H-NMR (400MHz, DMSO-D ) δ: 12.17 (1H, br s), 8.14 (1H, d, J =
7.7 Hz), 7.66 (1H, d, J = 7.5 Hz), 7.54 (1H, td, J = 7.7, 1.2
Hz), 7.42-7.30 (2H, m), 7.18-7.15 (2H, m), 4.09 (2H, t, J =
6.4 Hz), 2.41 (2H, t, J = 7.3 Hz), 2.00-1.93 (2H, m).
Step 10
(9R)Chloro(trifluoromethyl)-9H-fluorene-2,9-diol
To 4-[(9R)chlorohydroxy(trifluoromethyl)-9H-
fluorenyloxy]butyric acid (50 g) were added N-
methylpyrrolidone (200 ml) and pyridine hydrochloride (298 g),
and the mixture was stirred at an oil bath temperature of 200 C
for 2 days. The reaction mixture was cooled to room
temperature, diluted with ethyl acetate (500 ml), and washed
twice with water. The obtained aqueous layer was extracted
again with ethyl acetate (300 ml). The combined organic layer
was washed successively with water, 1N hydrochloric acid and
saturated brine. To the obtained organic layer were added
anhydrous magnesium sulfate and activated carbon (10 g), and
the mixture was stirred at room temperature. The insoluble
material was filtered off through celite. The solvent in the
obtained organic layer was evaporated, hexane was added to the
residue, and the mixture was stirred at room temperature. The
precipitated solid was collected by filtration, and dried
under reduced pressure at room temperature. The obtained crude
product was dissolved in ethyl acetate (500 ml), washed 3
times with water, dried over anhydrous magnesium sulfate. The
insoluble material was filtered off, and the solvent in the
filtrate was evaporated. To the residue was added hexane, and
the mixture was stirred at room temperature. The precipitated
solid was collected by filtration, dried under reduced
pressure at room temperature to give the title compound (22.4
H-NMR (400MHz, DMSO-D ) δ: 10.37 (1H, br s), 8.09 (1H, d, J =
7.5 Hz), 7.63 (1H, d, J = 7.5 Hz), 7.50 (1H, td, J = 7.6, 1.0
Hz), 7.36 (1H, td, J = 7.6, 1.0 Hz), 7.32 (1H, br s), 7.06 (1H,
s), 6.91 (1H, br d, J = 2.0 Hz).
(Absolute configuration)
The absolute configuration of the title compound was
determined by HPLC analysis using the optically active column
of compound (100A) and compound (100B) prepared in the
following steps (Step A-1 to Step A-2 and Step B-1).
Step A-1
1) BrCH CO Et
1) TMSCF
2) NaOH
2) TBAF
F OH
compound (100)
racemic
NH 3
compound (100AA)
single crystal X-ray
structural analysis
4-Chloromethyl-9H-fluorenone was subjected to
trifluoromethylation, reaction with ethyl bromoacetate, and
hydrolysis to give [4-chloromethyl(trifluoromethyl)-9H-
fluoreneyloxy]acetic acid. This compound was optically
resolved using (1R)phenylethylamine, and the absolute
configuration was determined to be (R) by single crystal X-ray
structural analysis of the obtained (1R)phenylethylamine
salt (100AA).
Step A-2
compound (100AA) compound (100A)
(9R)Chloromethyl(trifluoromethyl)-9H-fluoren
ol (compound (100A)) was synthesized from compound 100AA by an
acid treatment and the like.
Step B-1
1) Tf O / iPr NEt
2) Pd(PPh )
Cl Cl
H C O CH
OH CH
F OH F OH
optically active compound (100B)
optically active
The hydroxyl group at the 2-position of 4-chloro
(trifluoromethyl)-9H-fluorene-2,9-diol obtained in step 10 was
converted to a methyl group by the above-mentioned method to
give 4-chloromethyl(trifluoromethyl)-9H-fluorenol
(compound (100B)).
(HPLC analysis using optically active column)
Both enantiomers of compound (100) were separated by HPLC
using an optically active column (HPLC analysis condition 3).
HPLC analysis of compound (100A) confirmed that the retention
time of (R) form was 18.4 min, and the retention time of (S)
form was 17.0 min. Compound (100A) and compound (100B) were
analyzed under the HPLC condition to find that the retention
time matches.
It is considered that the absolute configuration of the
asymmetric carbon does not convert during the production of
the above-mentioned compound (100A) and compound (100B). The
results have confirmed that 4-chloro(trifluoromethyl)-9H-
fluorene-2,9-diol obtained in step 10 has an absolute
configuration of (R).
Step 11
(9R)Chloro(3-hydroxymethylbutyloxy)
(trifluoromethyl)-9H-fluorenol
[0129]
Under a nitrogen atmosphere, (9R)chloro
(trifluoromethyl)-9H-fluorene-2,9-diol (55.5 g) was dissolved
in N,N-dimethylformamide (550 ml), 3-hydroxymethylbutyl
toluenesulfonate (49.6 g) and potassium carbonate (39.5 g)
were added, and the mixture was stirred at an oil bath
temperature of 70 C overnight. To the reaction mixture was
added a solution of 3-hydroxymethylbutyl toluene
sulfonate (4.0 g) in N,N-dimethylformamide (5 ml), and the
mixture was further stirred at the same temperature for 9.5 hr.
The reaction mixture was ice-cooled, water (800 ml) was added,
and the mixture was extracted with ethyl acetate (900 ml). The
obtained organic layer was washed with water (500 ml, 3 times)
and saturated brine (500 ml). The obtained organic layer was
dried over anhydrous sodium sulfate, the insoluble material
was filtered off, and the solvent in the filtrate was
evaporated. The obtained residue was purified by silica gel
column chromatography (a mixture of hexane and ethyl acetate
was used as an elution solvent, first eluted with a mixture of
(hexane:ethyl acetate) at a mixing ratio 3:1, and then with
the mixture at a mixing ratio 2:1, and further with the
mixture at a mixing ratio 3:2) to give the title compound
(49.5 g).
H-NMR (400MHz, DMSO-D ) δ: 8.12 (1H, d, J = 7.6 Hz), 7.64 (1H,
d, J = 7.4 Hz), 7.52 (1H, td, J = 7.6, 0.9 Hz), 7.40-7.36 (2H,
m), 7.15-7.13 (2H, m), 4.41 (1H,s), 4.16 (2H, t, J = 7.1 Hz),
1.85 (2H, t, J = 7.1 Hz), 1.17 (6H, s).
Step 12
Ethyl 2-{4-[(9R)hydroxy(3-hydroxymethylbutyloxy)
(trifluoromethyl)-9H-fluorenyl]-1H-pyrazolyl}
methylpropionate
Under an argon atmosphere, (9R)chloro(3-hydroxy
methylbutyloxy)(trifluoromethyl)-9H-fluorenol (49.5 g)
was dissolved in toluene (445 ml), ethyl 2-methyl[4-
(4,4,5,5-tetramethyl[1,3,2]dioxaborolanyl)-1H-pyrazol
yl]propionate (59.2 g), water (149 ml), tripotassium phosphate
(54.3 g), palladium acetate (2.9 g) and 2-
dicyclohexylphosphino-2’,6’-dimethoxybiphenyl (SPhos) (10.5 g)
were added, and the mixture was stirred at an oil bath
temperature of 100 C for 3.5 hr. The reaction mixture was
cooled to room temperature, and water (300 ml) was added. The
insoluble material was filtered off through celite, and the
insoluble material was washed with toluene (150 ml) and water
(50 ml). The obtained filtrates were combined to allow for
layer separation. The obtained organic layer was washed
successively with water (500 ml) and saturated brine (500 ml).
The obtained organic layer was dried over anhydrous sodium
sulfate, the insoluble material was filtered off, and the
solvent in the filtrate was evaporated. The obtained residue
was purified by silica gel column chromatography (a mixture of
hexane and ethyl acetate was used as an elution solvent, first
eluted with a mixture of (hexane:ethyl acetate) at a mixing
ratio 2:1, and then with the mixture at a mixing ratio 1:1,
and further with the mixture at a mixing ratio 1:2), and
further purified by silica gel column chromatography (a
mixture of hexane and acetone was used as an elution solvent,
first eluted with a mixture of (hexane:acetone) at a mixing
ratio 2:1, and then with the mixture at mixing ratios 4:1, 3:1,
2:1, 1:1, 2:3, and further with the mixture at a mixing ratio
1:2) to give the title compound (68.4 g).
H-NMR (400MHz, DMSO-D ) δ: 8.18 (1H, s), 7.65 (1H, s), 7.59-
7.57 (1H, m), 7.25-7.21 (4H, m), 7.13 (1H, br d, J = 1.6 Hz),
6.84 (1H, d, J = 2.3 Hz), 4.38 (1H, s), 4.16-4.11 (4H, m),
1.86 (2H, t, J = 7.1 Hz), 1.84 (6H, s), 1.16 (6H, s), 1.13 (3H,
t, J = 7.0 Hz).
[0134]
Step 13
2-{4-[(9R)Hydroxy(3-hydroxymethylbutyloxy)
(trifluoromethyl)-9H-fluorenyl]-1H-pyrazolyl}
methylpropionic acid
[0135]
Ethyl 2-{4-[(9R)hydroxy(3-hydroxy
methylbutyloxy)(trifluoromethyl)-9H-fluorenyl]-1H-
pyrazolyl}methylpropionate (68.4 g) was dissolved in
ethanol (256 ml), 4N aqueous sodium hydroxide (128 ml) was
added, and the mixture was stirred at room temperature for 2.5
hr. The reaction mixture was ice-cooled, 2N hydrochloric acid
(333 ml) was added dropwise, and the mixture was extracted
with ethyl acetate (500 ml). The obtained organic layer was
washed successively with water (400 ml, twice) and saturated
brine (400 ml). The obtained organic layer was dried over
anhydrous sodium sulfate, the insoluble material was filtered
off, and the solvent in the filtrate was evaporated to give
the title compound (70.0 g).
H-NMR (400MHz, DMSO-D ) δ:13.06 (1H, br s), 8.14 (1H, s), 7.62
(1H, s), 7.57 (1H, dd, J = 6.4, 0.6 Hz), 7.27-7.19 (4H, m),
7.12 (1H, s), 6.84 (1H, d, J = 2.3 Hz), 4.38 (1H, s), 4.14 (2H,
t, J = 7.2 Hz), 1.85 (2H, t, J = 7.2 Hz), 1.82 (3H,s), 1.81
(3H, s), 1.16 (6H, s).
Step 14
2-{4-[(9R)Hydroxy(3-hydroxymethylbutyloxy)
(trifluoromethyl)-9H-fluorenyl]-1H-pyrazolyl}
methylpropanamide (compound (2))
Under a nitrogen atmosphere, 2-{4-[(9R)hydroxy(3-
hydroxymethylbutyloxy)(trifluoromethyl)-9H-fluoren
yl]-1H-pyrazolyl}methylpropionic acid (66.7 g) was
dissolved in N,N-dimethylformamide (480 ml), 1-
hydroxybenzotriazole (HOBt) 1 hydrate (27.6 g), 1-ethyl(3’-
dimethylaminopropyl)carbodiimide (WSC) hydrochloride (34.6 g)
and 28% aqueous ammonia (24.5 ml) were added, and the mixture
was stirred at room temperature overnight. The reaction
mixture was ice-cooled, water (630 ml) and 2N hydrochloric
acid (330 ml) were added dropwise, and the mixture was
extracted with ethyl acetate (800 ml). The obtained aqueous
layer was extracted again with ethyl acetate (500 ml). The
obtained organic layers were combined, and washed successively
with water (500 ml, twice), saturated aqueous sodium hydrogen
carbonate (500 ml), and saturated brine (500 ml). The obtained
organic layer was dried over anhydrous sodium sulfate, the
insoluble material was filtered off, and the solvent in the
filtrate was evaporated to give the title compound (60.0 g).
H-NMR (400MHz, DMSO-D ) δ: 8.08 (1H, s), 7.66 (1H, s), 7.58-
7.56 (1H, m), 7.32-7.30 (1H, m), 7.25-7.22 (4H, m), 7.12 (1H,
br s), 6.96 (1H, br s), 6.87 (1H, d, J = 2.3 Hz), 4.38 (1H, s),
4.14 (2H, t, J = 7.2 Hz), 1.85 (2H, t, J = 7.2 Hz), 1.78 (3H,
s), 1.78 (3H, s), 1.17 (6H, s).
Step 15
2-{4-[(9R)Hydroxy(3-hydroxymethylbutyloxy)
(trifluoromethyl)-9H-fluorenyl]-1H-pyrazolyl}
methylpropanamide monohydrate (compound (2h))
[0142]
2-{4-[(9R)Hydroxy(3-hydroxymethylbutyloxy)
(trifluoromethyl)-9H-fluorenyl]-1H-pyrazolyl}
methylpropanamide (compound (2)) (60.0 g) obtained in the
previous step was dissolved in ethyl acetate (109 ml), water
(2 ml) was added, and the mixture was heated to 50 C. To this
mixture were successively added dropwise hexane (226 ml), and
a mixed solvent of hexane and ethyl acetate (hexane:ethyl
acetate 2:1, 150 ml), and the mixture was allowed to cool to
room temperature and stirred overnight. The precipitated solid
was collected by filtration, and washed with a mixed solvent
of hexane and ethyl acetate (hexane:ethyl acetate=2:1, 180 ml).
The obtained solid was dried under reduced pressure at room
temperature overnight to give the title compound (52.2 g,
optical purity 98.6%e.e.). The optical purity was determined
under the HPLC analysis condition 2. Retention time of (R)
form 11.3 min, retention time of (S) form 13.9 min.
Specific optical rotation [α] +37.9°(c=1.01 MeOH 25 C).
H-NMR (400MHz, DMSO-D ) δ: 8.08 (1H, s), 7.66 (1H, s), 7.58-
7.56 (1H, m), 7.32-7.30 (1H, m), 7.25-7.22 (4H, m), 7.12 (1H,
br s), 6.96 (1H, br s), 6.87 (1H, d,J = 2.3 Hz), 4.38 (1H, s),
4.14 (2H, t, J = 7.2 Hz), 1.85 (2H, t, J = 7.2 Hz), 1.78 (3H,
s), 1.78 (3H, s), 1.17 (6H, s).
(Elemental analysis measurement)
The results of the elemental analysis matched well with
the theoretical value of compound (2h) calculated.
Calculated: C,59.88;H,5.80;N,8.06 (Calculated as monohydrate)
Found: C,59.86;H,5.74;N,8.00.
[0143]
Step 16
2-{4-[(9R)Hydroxy(3-hydroxymethylbutyloxy)
(trifluoromethyl)-9H-fluorenyl]-1H-pyrazolyl}
methylpropanamide (compound (2))
[0144]
To 2-{4-[(9R)hydroxy(3-hydroxymethylbutyloxy)
(trifluoromethyl)-9H-fluorenyl]-1H-pyrazolyl}
methylpropanamide monohydrate (compound (2h)) (22.63 g)
obtained in the previous step was added toluene (340 ml). The
reaction mixture was stirred at an oil bath temperature of
130 C for 2 hr under a nitrogen atmosphere with removing water
by a Dean-Stark apparatus. The reaction mixture was further
stirred at an oil bath temperature of 70 C for 1.5 hr, allowed
to cool to room temperature, and stirred overnight. The
precipitated solid was collected by filtration, and washed
with toluene (100 ml). The obtained solid was dried under
reduced pressure at room temperature for 3 days, and further
dried under reduced pressure at 60 C for 1 day to give the
title compound (21.5 g).
H-NMR (400MHz, DMSO-D ) δ: 8.08 (1H, s), 7.66 (1H, s), 7.58-
7.56 (1H, m), 7.32-7.30 (1H, m), 7.25-7.22 (4H, m), 7.12 (1H,
br s), 6.96 (1H, br s), 6.87 (1H, d, J = 2.3 Hz), 4.38 (1H, s),
4.14 (2H, t, J = 7.2 Hz), 1.85 (2H, t, J = 7.2 Hz), 1.78 (3H,
s), 1.78 (3H, s), 1.17 (6H, s).
(Elemental analysis measurement)
The results of the elemental analysis matched well with
the theoretical value of compound (2) calculated.
Calculated: C,62.02;H,5.61;N,8.35 (Calculated as anhydrous)
Found: C,62.17;H,5.60;N,8.47.
Step C-1
Preparation of N-(4-tert-butylbenzyl)cinchonidium bromide
Cinchonidine (10.6 g) was dissolved in tetrahydrofuran
(200 ml), 4-tert-butylbenzylbromide (10.1 g) and
tetrabutylammonium iodide (0.66 g) were added, and the mixture
was stirred at 70 C overnight. The reaction mixture was cooled
to room temperature, the solid was collected by filtration,
and washed with ethyl acetate (50 ml). The obtained solid was
dried under reduced pressure overnight to give the title
compound (18.5 g).
H-NMR (400MHz, DMSO-D ) δ: 8.99 (1H, d, J = 4.4 Hz), 8.27 (1H,
d, J = 8.2 Hz), 8.11 (1H, dd, J = 8.5, 1.0 Hz), 7.89-7.79 (2H,
m), 7.78-7.71 (1H, m), 7.63 (2H,d, J = 8.4 Hz), 7.59 (2H, t, J
= 8.4 Hz), 6.72 (1H, d, J = 4.2 Hz), 6.57-6.51 (1H, br s),
.67 (1H, ddd, J = 17.0, 10.4, 6.4 Hz), 5.14 (1H, d, J = 17.2
Hz), 5.08 (1H, d, J = 12.6 Hz), 5.00-4.90 (2H, m), 4.30-4.18
(1H, m), 3.91 (1H, t, J = 8.7 Hz), 3.74-3.64 (1H, m), 3.35-
3.18 (2H, m), 2.76-2.65 (1H, m), 2.18-1.94 (3H,m), 1.90-1.78
(1H, m), 1.40-1.22 (1H, m), 1.34 (9H, s).
Step C-2
Preparation of N-(4-tert-butylbenzyl)cinchonidium 4-
methoxyphenoxide
N-(4-tert-Butylbenzyl)cinchonidium bromide (18.5 g),
AMBERLYST(registered trademark) A26 (strong basic ion exchange
resin of styrene, divinylbenzene matrix) (18.5 g) and methanol
(280 ml) were added, and the mixture was stirred at room
temperature overnight. The insoluble material was filtered off
through celite, and washed with methanol (100 ml). To the
filtrate was added 4-methoxyphenol (4.8 g), and the solvent
was evaporated. The residue was azeotropically evaporated 3
times with toluene (100 ml), and toluene (20 ml) was added.
Then, diisopropyl ether (200 ml) was added dropwise, and the
mixture was stirred at room temperature for 3 hr. The
precipitated solid was collected by filtration, washed with
diisopropyl ether (50 ml) and the mixture was dried under
reduced pressure at room temperature overnight to give the
title compound (21.8 g).
H-NMR (400MHz, DMSO-D ) δ: 8.91 (1H, d, J = 4.4 Hz), 8.17 (1H,
d, J = 8.2 Hz), 8.07 (1H, d, J = 8.4 Hz), 7.89 (1H, d, J = 4.4
Hz), 7.79 (1H, t, J = 7.6 Hz), 7.64 (1H, t, J = 7.5 Hz), 7.57-
7.52 (5H, m), 6.56-6.55 (2H, m), 6.43-6.42 (3H, m), 5.67-5.59
(1H, m), 5.28 (1H, d, J = 12.1 Hz), 5.12 (1H, d, J = 17.2 Hz),
4.92 (1H, d, J = 10.6 Hz), 4.84 (1H, d, J = 12.1 Hz), 4.65-
4.53 (1H, m), 3.80 (1H, t, J = 8.8 Hz), 3.65-3.63 (1H, m),
3.57 (3H, s), 3.25 (1H, t, J = 11.6 Hz), 3.10-3.07 (1H, m),
2.67 (1H, br s), 2.07-2.02 (2H, m), 1.95 (1H, br s), 1.79-1.76
(1H, br m), 1.33 (9H, s), 1.16-1.11 (1H, m).
Step D
Preparation of 3-hydroxymethylbutyl toluenesulfonate
Under a nitrogen atmosphere, 3-methylbutane-1,3-diol (300
g) was dissolved in pyridine (900 ml), and a solution of 4-
methylbenzenesulfonyl chloride (500 g) in toluene (900 ml) and
acetonitrile (125 ml) was added dropwise over 2 hr. The
reaction mixture was stirred at room temperature for 4 hr, and
toluene (500 ml) and water (1800 ml) were added to allow for
layer separation. The obtained organic layer was washed
successively with aqueous sulfuric acid and water (twice). The
solvent in the obtained organic layer was evaporated, and the
residue was azeotropically evaporated with toluene (500 ml) to
give the title compound (535 g).
H-NMR (CDCl ) δ: 7.81-7.76 (2H, m), 7.36-7.31 (2H, m), 4.20
(2H, td, J = 6.8, 1.6 Hz), 2.44 (3H, s), 1.85 (2H, td, J = 6.8,
1.6 Hz), 1.33 (1H, s), 1.21 (6H, s).
Example 2
Synthesis of 2-{4-[(9R)hydroxy(4-hydroxy
methylpentyloxy)(trifluoromethyl)-9H-fluorenyl]-1H-
pyrazolyl}methylpropanamide (compound (3))
Step 1
Ethyl 4-[(9R)chlorohydroxy(trifluoromethyl)-9H-
fluorenyloxy]butyrate
(9R)Chloro(trifluoromethyl)-9H-fluorene-2,9-diol
(200 mg) obtained in step 10 of example 1 was dissolved in
N,N-dimethylformamide (2 ml), potassium carbonate (185 mg) and
ethyl 4-bromobutyrate (105 μl) were added, and the mixture was
stirred at room temperature for 7 hr. To the reaction mixture
was added water, and the mixture was extracted twice with
ethyl acetate. The obtained organic layer was washed
successively with water (twice) and saturated brine. The
obtained organic layer was dried over anhydrous magnesium
sulfate, the insoluble material was filtered off, and the
solvent in the filtrate was evaporated. The obtained residue
was purified by silica gel column chromatography (a mixture of
hexane and ethyl acetate was used as an elution solvent, first
eluted with a mixture at a mixing ratio 5:1 (hexane:ethyl
acetate), then successively with a mixture at a mixing ratio
3:1, and further with a mixture at a mixing ratio 2:1) to give
the title compound (197 mg).
H-NMR (400MHz, CDCl ) δ: 8.19 (1H, d, J = 7.7 Hz), 7.66 (1H, d,
J = 7.7 Hz), 7.46 (1H, td, J = 7.6, 1.0 Hz), 7.32 (1H, td, J =
7.6, 1.0 Hz), 7.16 (1H, br s), 6.93 (1H, d, J = 2.1 Hz), 4.14
(2H, q, J = 7.1 Hz), 4.05 (2H, t, J = 7.1 Hz), 2.82 (1H, s),
2.50 (2H, t, J = 7.1 Hz), 2.15-2.06 (2H, m), 1.25 (3H, t, J =
7.1 Hz).
Step 2
(9R)Chloro(4-hydroxymethylpentyloxy)
(trifluoromethyl)-9H-fluorenol
[0160]
Under a nitrogen atmosphere, ethyl 4-[(9R)chloro
hydroxy(trifluoromethyl)-9H-fluorenyloxy]butyrate (197
mg) was dissolved in THF (2 ml), and methyllithium/diethyl
ether solution (1.07 M, 2.2 ml) was added dropwise at 0 C. The
reaction mixture was stirred at the same temperature for 2 hr,
water was added, and the mixture was extracted with ethyl
acetate (twice). The obtained organic layer was washed
successively with water (twice) and saturated brine. The
obtained organic layer was dried over anhydrous magnesium
sulfate, the insoluble material was filtered off, and the
solvent in the filtrate was evaporated. The obtained residue
was purified by silica gel column chromatography (a mixture of
hexane and ethyl acetate was used as an elution solvent, first
eluted with a mixture at a mixing ratio 3:1 (hexane:ethyl
acetate), then with a mixture at a mixing ratio 2:1) to give
the title compound (169 mg).
H-NMR (400MHz, CDCl ) δ: 8.19 (1H, d, J = 7.7 Hz), 7.66 (1H, d,
J = 7.7 Hz), 7.47 (1H, td, J = 7.7, 1.0 Hz), 7.32 (1H, td, J =
7.7, 1.0 Hz), 7.17 (1H, br s), 6.93 (1H, d, J = 2.3 Hz), 4.02
(2H, t, J = 6.4 Hz), 2.82 (1H, s), 1.92-1.85 (2H, m), 1.65-
1.62 (2H, m), 1.26 (3H, s), 1.25 (3H, s).
Step 3
Ethyl 2-{4-[(9R)hydroxy(4-hydroxymethylpentyloxy)
(trifluoromethyl)-9H-fluorenyl]-1H-pyrazolyl}
methylpropionate
Under an argon atmosphere, (9R)chloro(4-hydroxy
methylpentyloxy)(trifluoromethyl)-9H-fluorenol (169 mg)
was dissolved in 1,4-dioxane (1.5 ml), ethyl 2-methyl[4-
(4,4,5,5-tetramethyl[1,3,2]dioxaborolanyl)-1H-pyrazol
yl]propionate (194 mg), water (0.5 ml), tripotassium phosphate
(178 mg), palladium acetate (9 mg), and SPhos (33 mg) were
added, and the mixture was stirred at 100 C for 4.5 hr. The
reaction mixture was cooled to room temperature, water was
added, and the mixture was extracted with ethyl acetate
(twice). The obtained organic layer was washed successively
with water (twice) and saturated brine. The obtained organic
layer was dried over anhydrous magnesium sulfate, the
insoluble material was filtered off, and the solvent in the
filtrate was evaporated. The obtained residue was purified by
silica gel column chromatography (a mixture of hexane and
ethyl acetate at a mixing ratio 1:1 (hexane:ethyl acetate) was
used as an elution solvent) to give the title compound (218
mg).
H-NMR (400MHz, CDCl ) δ: 7.69 (1H, s), 7.63-7.62 (2H, m),
7.21-7.19 (4H, m), 6.81 (1H, d, J = 2.3 Hz), 4.21 (2H, q, J =
7.1 Hz), 4.04 (2H, t, J = 6.3 Hz), 2.82 (1H, s), 1.92 (3H, s),
1.91 (3H, s), 1.89-1.88 (2H, m), 1.66-1.64 (2H, m), 1.26 (6H,
s), 1.26-1.23 (3H, m).
Step 4
2-{4-[(9R)Hydroxy(4-hydroxymethylpentyloxy)
(trifluoromethyl)-9H-fluorenyl]-1H-pyrazolyl}
methylpropionic acid
Ethyl 2-{4-[(9R)hydroxy(4-hydroxy
methylpentyloxy)(trifluoromethyl)-9H-fluorenyl]-1H-
pyrazolyl}methylpropionate (218 mg) was dissolved in
ethanol (2.2 ml), 4N aqueous sodium hydroxide (320 μl) was
added, and the mixture was stirred at room temperature
overnight. The reaction mixture was neutralized with 1N
hydrochloric acid, and extracted with ethyl acetate (twice).
The obtained organic layer was washed successively with water
(twice) and saturated brine. The obtained organic layer was
dried over anhydrous magnesium sulfate, the insoluble material
was filtered off, and the solvent in the filtrate was
evaporated to give the title compound (179 mg).
H-NMR (400MHz, CDCl ) δ: 7.73 (1H, s), 7.68 (1H, s), 7.63-7.62
(1H, m), 7.23-7.09 (4H, m), 6.78 (1H, d, J = 2.6 Hz), 4.02 (2H,
t, J = 6.3 Hz), 1.93 (6H, s), 1.89-1.86 (2H, m), 1.65-1.61 (2H,
m), 1.25 (6H, s).
[0168]
Step 5
2-{4-[(9R)Hydroxy(4-hydroxymethylpentyloxy)
(trifluoromethyl)-9H-fluorenyl]-1H-pyrazolyl}
methylpropanamide (compound (3))
[0169]
Under a nitrogen atmosphere, 2-{4-[(9R)hydroxy(4-
hydroxymethylpentyloxy)(trifluoromethyl)-9H-fluoren
yl]-1H-pyrazolyl}methylpropionic acid (89 mg) was
dissolved in N,N-dimethylformamide (1 ml), ammonium chloride
(28 mg), N,N-diisopropylethylamine (148 μl) and 1-
[bis(dimethylamino)methylene]-1H-1,2,3-triazolo[4,5-b]pyridin-
1-ium 3-oxide hexafluorophosphate (HATU) (99 mg) were added,
and the mixture was stirred at room temperature overnight. To
the reaction mixture was added water, and the mixture was
extracted with ethyl acetate (twice). The obtained organic
layer was washed successively with diluted brine (twice) and
saturated brine. The obtained organic layer was dried over
anhydrous magnesium sulfate, the insoluble material was
filtered off, and the solvent in the filtrate was evaporated.
The obtained residue was purified by silica gel thin layer
chromatography (a mixture of chloroform and methanol at a
mixing ratio 9:1 (chloroform:methanol) was used as an elution
solvent) to give the title compound (48 mg, optical purity
96.9%e.e.). The optical purity was determined under the HPLC
analysis condition 2. Retention time of (R) form 13.0 min,
retention time of (S) form 14.4 min.
Specific optical rotation [α] +37.5°(c=1.04 MeOH 25 C).
H-NMR (400MHz, DMSO-D ) δ: 8.07 (1H, s), 7.66 (1H, s), 7.57-
7.55 (1H, m), 7.34-7.31 (1H, m), 7.24-7.23 (3H, m), 7.18 (1H,
s), 7.11 (1H, br s), 6.94 (1H, br s), 6.86 (1H, d, J = 2.3 Hz),
4.16 (1H, s), 4.03 (2H, t, J = 6.5 Hz), 1.80 (3H, s), 1.79 (3H,
s), 1.80-1.75 (2H, m), 1.51-1.47 (2H, m), 1.11 (6H, s).
(Preparation Example of crystal of compound (3))
To compound (3) (40 mg) synthesized by the above-
mentioned example steps was added a mixture of MeOH and water
(volume ratio 1:3 (0.5 mL)). Then, to this solution was added
a crystal (0.5 mg) of compound (2h) and the mixture was
stirred at room temperature for 3 days. The precipitated solid
was collected by filtration to give a crystal (41 mg) of
compound (3).
(Preparation of compounds (A), (B), (C) and (D))
Compound (A), compound (B), compound (C) and compound (D),
which are represented by the following formulas, were each
obtained as an optically active form according to the
production method described in .
Compound (A)
2-(4-{(9R)Hydroxy[2-(3-hydroxyadamantanyl)ethoxy]
(trifluoromethyl)-9H-fluorenyl}-1H-pyrazolyl)acetamide
Compound (B)
(9R)(2-Hydroxymethylpropoxy)(1-methyl-1H-pyrazoly
l)(trifluoromethyl)-9H-fluorenol
Compound (C)
(9R)[1-(2-Hydroxyethyl)-1H-pyrazolyl](2-hydroxy
methylpropoxy)(trifluoromethyl)-9H-fluorenol
[0179]
Compound (D)
2-{4-[(9R)Fluorohydroxy(trifluoromethyl)-9H-fluoren-
4-yl]-1H-pyrazolyl}methylpropanamide
As a Formulation Example of the present invention, the
following preparation can be mentioned. However, the present
invention is not limited by these Formulation Examples.
Formulation Example 1 (production of capsule)
1) compound of Example 1 (compound (2)) 30 mg
2) microcrystalline cellulose 10 mg
3) lactose 19 mg
4) magnesium stearate 1 mg
1), 2), 3) and 4) are mixed and filled in a gelatin
capsule.
[0183]
Formulation Example 2 (production of tablet)
1) compound of Example 1 (compound (2)) 10 g
2) lactose 50 g
3) cornstarch 15 g
4) carmellose calcium 44 g
) magnesium stearate 1 g
The total amount of 1), 2), 3) and 30 g of 4) are kneaded
with water, vacuum dried, and sieved. The sieved powder is
mixed with 14 g of 4) and 1 g of 5), and the mixture is
punched by a tableting machine. In this way, 1000 tablets each
containing 10 mg of the compound of Example 1 (compound (2))
per tablet are obtained.
Experimental Example 1: Inhibitory action of PDHK activity in
vitro
The inhibitory action of PDHK activity was assessed
indirectly by measuring the residual PDH activity after kinase
reaction in the presence of a test compound.
(Inhibitory action of PDHK1 activity)
In the case of human PDHK1 (hPDHK1, Genbank Accession No.
L42450.1), a 1.3 kbp fragment encoding this protein was
isolated from human liver cDNA by polymerase chain reaction
(PCR). Modified hPDHK1 cDNA wherein FLAG-Tag sequence was
added to the N terminus was prepared by PCR and cloned into a
vector (pET17b-Novagen). The recombinant construct was
transformed into Escherichia coli (DH5α-TOYOBO). The
recombinant clones were identified, and plasmid DNA was
isolated and subjected to the DNA sequence analysis. One clone
which had the expected nucleic acid sequence was selected for
expression work.
For expression of hPDHK1 activity, Escherichia coli
strain BL21(DE3) cells (Novagen) were transformed with the
pET17b vector containing modified hPDHK1 cDNA. The Escherichia
coli were grown to an optical density 0.6 (600 nmol/L) at 30 C.
Protein expression was induced by the addition of 500 μmol/L
isopropyl- -thiogalactopyranoside. The Escherichia coli were
cultured at 30 C for 5 hr and harvested by centrifugation.
Resuspension of the Escherichia coli paste was disrupted by a
microfluidizer. FLAG-Tagged protein was purified using FLAG
affinity gel (Sigma).
The gel was washed with 20 mmol/L N-(2-
hydroxyethyl)piperazine-N’ethanesulfonic acid-sodium
hydroxide (HEPES-NaOH), 500 mmol/L sodium chloride, 1%
ethylene glycol, and 0.1% polyoxyethylene-polyoxypropylene
block copolymer (Pluronic F-68, pH 8.0), and the binding
protein was eluted with 20 mmol/L HEPES-NaOH, 100 μg/mL FLAG
peptide, 500 mmol/L sodium chloride, 1% ethylene glycol, and
0.1% Pluronic F-68 (pH 8.0).
The eluted fractions containing FLAG-Tagged protein were
pooled, dialyzed against 20 mmol/L HEPES-NaOH, 150 mmol/L
sodium chloride, 0.5 mmol/L ethylenediamine tetraacetic acid
(EDTA), 1% ethylene glycol, and 0.1% Pluronic F-68 (pH 8.0),
and preserved at -80 C. Upon the assay, the hPDHK1 enzyme
concentration was set at a minimum concentration giving over
90% inhibition of PDH activity.
[0189]
0.05 U/mL PDH (porcine heart PDH complex, Sigma P7032)
and 1.0 μg/mL hPDHK1 were mixed in a buffer (50 mmol/L 3-
morpholinopropane sulfonic acid (pH 7.0), 20 mmol/L
dipotassium hydrogen phosphate, 60 mmol/L potassium chloride,
2 mmol/L magnesium chloride, 0.4 mmol/L EDTA, 0.2% Pluronic F-
68, 2 mmol/L dithiothreitol), and the mixture was incubated at
4 C overnight to obtain a PDH/hPDHK1 complex.
The test compounds were diluted with dimethyl sulfoxide
(DMSO). The PDH/hPDHK1 complex (20 μL), test compound (1.5 μL)
and 3.53 μmol/L ATP (diluted with buffer, 8.5 μL) were added
to a half area 96 well UV-transparent microplate (Corning 3679),
and PDHK reaction was performed at room temperature for 45 min.
DMSO (1.5 μL) was added to control wells instead of test
compound. In order to determine maximum rate of the PDH
reaction, DMSO (1.5 μL) was added to blank wells instead of
test compound in absence of hPDHK1.
Then, 10 μL of substrates (5 mmol/L sodium pyruvate, 5
mmol/L Coenzyme A, 12 mmol/L NAD, 5 mmol/L thiamin
pyrophosphate, diluted with buffer) were added. The mixture
was incubated at room temperature for 90 min, and the residual
PDH activity was measured.
The absorbance at 340 nm before and after PDH reaction
was measured using a microplate reader to detect NADH produced
by the PDH reaction. The hPDHK1 inhibition rate (%) of the
test compound was calculated from the formula [{(PDH activity
of the test compound – PDH activity of control) / PDH activity
of blank - PDH activity of control)} × 100]. The IC value was
calculated from the concentrations of the test compound at two
points enclosing 50% inhibition of the hPDHK1 activity.
The results obtained using compound (2), compound (2h)
and compound (3) as test compounds are shown in the following
Table 1.
(Inhibitory action of PDHK2 activity)
In the case of human PDHK2 (hPDHK2, Genbank Accession No.
BC040478.1), modified hPDHK2 cDNA wherein FLAG-Tag sequence was
added to the N terminus of hPDHK2 cDNA clone (pReceiver-
M01/PDK2-GeneCopoeia) was prepared by PCR and cloned into a
vector (pET17b-Novagen). The recombinant construct was
transformed into Escherichia coli (DH5α-TOYOBO). The recombinant
clones were identified, and plasmid DNA was isolated and
subjected to the DNA sequence analysis. One clone which had the
expected nucleic acid sequence was selected for expression work.
For expression of hPDHK2 activity, Escherichia coli strain
BL21(DE3) cells (Novagen) were transformed with the pET17b
vector containing modified hPDHK2 cDNA. The Escherichia coli
were grown to an optical density 0.6 (600 nmol/L) at 30 C.
Protein expression was induced by the addition of 500 μmol/L
isopropyl- -thiogalactopyranoside. The Escherichia coli were
cultured at 30 C for 5 hr and harvested by centrifugation.
Resuspension of the Escherichia coli paste was disrupted by a
microfluidizer. FLAG-Tagged protein was purified using FLAG
affinity gel. The gel was washed with 20 mmol/L HEPES-NaOH, 500
mmol/L sodium chloride, 1% ethylene glycol, and 0.1% Pluronic F-
68 (pH 8.0), and the binding protein was eluted with 20 mmol/L
HEPES-NaOH, 100 μg/mL FLAG peptide, 500 mmol/L sodium chloride,
1% ethylene glycol, and 0.1% Pluronic F-68 (pH 8.0). The eluted
fractions containing FLAG-Tagged protein were pooled, dialyzed
against 20 mmol/L HEPES-NaOH, 150 mmol/L sodium chloride, 0.5
mmol/L EDTA, 1% ethylene glycol, and 0.1% Pluronic F-68 (pH 8.0),
and preserved at -80 C. Upon the assay, the hPDHK2 enzyme
concentration was set to a minimum concentration giving over
90% inhibition of PDH activity.
0.05 U/mL PDH and 0.8 μg/mL hPDHK2 were mixed in a buffer
(50 mmol/L 3-morpholinopropanesulfonic acid (pH 7.0), 20 mmol/L
dipotassium hydrogen phosphate, 60 mmol/L potassium chloride, 2
mmol/L magnesium chloride, 0.4 mmol/L EDTA, and 0.2% Pluronic F-
68, 2 mmol/L dithiothreitol), and the mixture was incubated at
4 C overnight to obtain a PDH/hPDHK2 complex. The test compounds
were diluted with DMSO. The PDH/hPDHK2 complex (20 μL), test
compound (1.5 μL) and 3.53 μmol/L ATP (diluted with buffer, 8.5
μL) were added to a half area 96 well UV-transparent microplate,
and PDHK reaction was performed at room temperature for 45 min.
DMSO (1.5 μL) was added to control wells instead of the test
compound. In order to determine maximum rate of the PDH reaction,
DMSO (1.5 μL) was added to blank wells instead of compound in
absence of hPDHK2. Then, 10 μL of substrate (5 mmol/L sodium
pyruvate, 5 mmol/L Coenzyme A, 12 mmol/L NAD, and 5 mmol/L
thiamine pyrophosphate, diluted with buffer) were added. The
mixture was incubated at room temperature for 90 min, and the
residual PDH activity was measured. The absorbance at 340 nm
before and after PDH reaction was measured using a microplate
reader to detect NADH produced by the PDH reaction. The hPDHK2
inhibition rate (%) of the test compound was calculated from the
formula [{(PDH activity of test compound - PDH activity of
control) / PDH activity of blank - PDH activity of control)} ×
100]. The IC value was calculated from the concentrations of
the test compound at two points enclosing 50% inhibition of the
hPDHK2 activity.
The results obtained using compound (2), compound (2h),
compound (3), compound (A), compound (B), compound (C) and
compound (D) as test compounds are shown in the following
Table 1.
[Table 1]
hPDHK1 IC hPDHK2 IC
50 50
Compound
( mol/L) ( mol/L)
Compound (2) 0.0047 0.0046
Compound (2h) 0.0066 0.0049
Compound (3) 0.0035 0.0042
Compound (A) - (not tested) 0.0051
Compound (B) - (not tested) 0.0074
Compound (C) - (not tested) 0.0067
Compound (D) - (not tested) 0.0051
Experimental Example 2: Ex vivo PDH activation assay
(Experimental method)
The action of test compound on tissue PDH activity was
evaluated. NADH production was detected via p-
iodonitrotetrazolium violet (INT)-coupled system to measure
PDH activity.
Normal male Sprague-Dawley rats were randomly allocated
to the vehicle group and the test compound groups. The vehicle
(0.5% aqueous methylcellulose solution, 5 mL/kg) or the test
compound was orally administered to the rats. At 5 or 20 hr
after administration, the rats were anesthetized with an
intraperitoneal injection of sodium pentobarbital (60 mg/kg),
and liver slices and epididymal adipose tissues were collected.
To the liver slices were rapidly added 9 volumes of ice-
cold homogenization buffer (0.25 mol/L sucrose, 5 mmol/L
tris(hydroxymethyl)aminomethane hydrochloride (pH 7.5), 2
mmol/L EDTA), and the mixtures were homogenized using a
Polytron homogenizer. The homogenates were centrifuged at
600×g, 4 C for 10 min to obtain the supernatant. The
supernatants (1 mL) were centrifuged at 16,000×g, 4 C for 10
min to collect the precipitates. The precipitates were washed
by resuspension in the homogenization buffer (1 mL) and
centrifuged in the same manner. The precipitates were frozen
with liquid nitrogen and stored at -80 C as the liver
mitochondrial fraction.
To the adipose tissues were rapidly added 3 volumes of an
ice-cold homogenization buffer, and the mixtures were
homogenized using a Polytron homogenizer. The homogenates were
centrifuged at 600×g, 4 C for 10 min to obtain the supernatant.
The supernatants were centrifuged at 16,000×g, 4 C for 10 min
to collect the precipitates. The precipitates were washed by
resuspension in the homogenization buffer (1 mL) and
centrifuged in the same manner. The precipitates were frozen
with liquid nitrogen and stored at -80 C as the adipose tissue
mitochondrial fraction.
The mitochondrial fractions were thawed and suspended
with the sample buffer (0.25 mol/L sucrose, 20 mmol/L
tris(hydroxymethyl)aminomethane hydrochloride (pH 7.5), 50
mmol/L potassium chloride, and 1 mL/L 4-(1,1,3,3-
tetramethylbutyl)phenyl-polyethylene glycol (Triton X-100)).
Active PDH activity (PDHa activity) and total PDH activity
(PDHt activity) were measured to evaluate the PDH activity.
For the measurement of the PDHt activity, equal amounts of the
mitochondrial suspension and the activation buffer (0.25 mol/L
sucrose, 20 mmol/L tris(hydroxymethyl)aminomethane
hydrochloride (pH 7.5), 50 mmol/L potassium chloride, 1 mL/L
Triton X-100, 4 mmol/L calcium chloride, 40 mmol/L magnesium
chloride, 10 mmol/L sodium dichloroacetate) were mixed, and
the mixtures were incubated at 37 C for 10 min. Forty
microliters of the mitochondrial suspensions diluted with a
sample buffer were added to a 96-well microplate for activity
measurement and blank measurement. Then 180 μL of the reaction
mixture (0.056 mmol/L potassium phosphate buffer (pH 7.5), 5.6
mmol/L DL-carnitine, 2.8 mmol/L NAD, 0.22 mmol/L thiamin
pyrophosphate, 0.11 mmol/L Coenzyme A, 1.1 mL/L Triton X-100,
1.1 mmol/L magnesium chloride, 1.1 g/L bovine serum albumin,
0.67 mmol/L INT, 7.2 μmol/L phenazine methosulfate, 28 mmol/L
sodium oxamate) was added to each well, and then 20 μL of 50
mmol/L sodium pyruvate for activity measurement or water for
blank measurement were added. The mixtures were incubated at
room temperature under shading. The absorbances at 500-750 nm,
which were attributable to reduction of INT, the final
electron acceptor, were measured using a microplate reader
over time and the changes in the absorbance were calculated.
The PDH activity was calculated by subtraction of the change in
absorbance of the blank well from that of the activity
measurement well. The percentage of the PDHa activity to the
PDHt activity was calculated and taken as an index of the PDH
activation.
The results obtained using compound (2h), compound (3),
compound (A), compound (B), compound (C) and compound (D) as
test compounds are shown in the following Table 2, Fig. 1
(Liver) and Fig. 2 (Adipose tissue). In addition, the results
obtained using compound (2) are shown in the following Table 3.
[Table 2]
PDHa activity (% of PDHt activity)
Liver Adipose tissue
Compound
hr 20 hr 5 hr 20 hr
3 3 3 3
Vehicle Vehicle Vehicle Vehicle
mg/kg mg/kg mg/kg mg/kg
Compound
13 3 59 6 13 3 31 5 31 10 59 2 31 10 44 12
(2h)
Compound
13 3 56 8 13 3 32 9 31 10 70 9 31 10 42 3
Compound
13 ±3 35 ±6 13 ±3 16 ±10 31 ±10 32 ±14 31 ±10 24 ±7
Compound
13 ±3 43 ±7 13 ±3 10 ±3 31 ±10 59 ±5 31 ±10 30 ±4
Compound
13 ±3 44 ±5 13 ±3 13 ±3 31 ±10 53 ±4 31 ±10 28 ±7
Compound
13 ±3 41 ±15 13 ±3 20 ±1 31 ±10 43 ±7 31 ±10 24 ±3
mean S.D. (n=3)
[Table 3]
PDHa activity (% of PDHt activity)
Liver Adipose tissue
Compound 5 hr 20 hr 5 hr 20 hr
3 3 3 3
Vehicle Vehicle Vehicle Vehicle
mg/kg mg/kg mg/kg mg/kg
Compound
28 6 74 12 28 6 50 16 42 4 88 11 42 4 61 15
mean S.D. (n=3)
Experimental Example 3: Effect of repeated administration of
test compound on HbA1c in ZDF rats
(Experimental method)
Zucker Diabetic Fatty rats (male, 7-week-old, CHARLES
RIVER LABORATORIES JAPAN INC.), an animal model for type 2
diabetes, given a purified diet (5.9% fat diet, Oriental Yeast
Co., Ltd.) were allocated to the vehicle group and the test
compound groups so that no bias occured in the plasma glucose
and insulin levels, HbA1c levels and body weights. Repeated
oral doses of the test compound (1 mg/kg/5 mL) were
administered to the rats once daily at 3 hr before the dark
period. A 0.5% aqueous methylcellulose solution was orally
administered in the same manner to the rats of the vehicle
group. On day 14 of administration, blood samples were
collected from the tail vein and HbA1c level (%) was measured.
Statistical analysis was performed by Dunnett’s test. Values
of p<0.05 were cosidered statistically significant.
The results obtained using compound (2) and compound (3)
as test compounds are shown in the following Table 4.
[Table 4]
HbA1c (%)
Compound
Vehicle 1 mg/kg
Compound (2) 3.6 0.3 3.2 0.1*
Compound (3) 3.7 0.2 3.4 0.1*
day 14 of administration
mean S.D. (n = 10)
*p<0.05 vs. vehicle group (Dunnett’s test)
Experimental Example 4: hERG (human Ether-a-go-go Related
Gene) whole cell patch clamp test
(Experimental method)
Using human ether-a-go-go related gene (hERG)-transfected
HEK293 cells (Cytomyx Limited), an influence on hERG current
was examined according to the whole cell patch clamp technique.
The hERG-transfected HEK293 cells were passaged using a CO
incubator (BNA-111, TABAI ESPEC CORP.) under the set
conditions of 37 C, 5% CO , saturated humidity. Culture
containers used were Collagen Type I Coated 75 cm flask (4123-
010, AGC TECHNO GLASS CO., Ltd.) and Collagen Type I Coated 35
mm culture dish (4000-010, AGC TECHNO GLASS CO., Ltd.). The
culture medium used was E-MEM (Eagle Minimum Essential Medium
(Earle’s Salts, Nikken biomedical laboratory) added with 10%
FCS (Fetal calf serum, BioWest, L.L.C.) and 1% MEM Non-
Essential Amino Acids Solution (NEAA, Invitrogen Corporation).
Geneticin for the selection of hERG gene expressing cells was
added thereto to a concentration of 400 μg/mL. As the cells
for the measurement, 3×10 hERG-transfected HEK293 cells were
plated on a 35 mm culture dish 4 to 7 days before measurement
of the hERG current. The culture dish produced for the
measurement contained the above-mentioned culture medium
without geneticin (Invitrogen Corporation).
The highest evaluation concentration of each compound was
determined from the highest concentration at which
precipitation was not found in the standard extracellular
fluid (NaCl: 140 mmol/L, KCl: 2.5 mmol/L, MgCl : 2 mmol/L,
CaCl : 2 mmol/L, HEPES: 10 mmol/L, glucose: 10 mmol/L (adjusted
to pH 7.4 with Tris-base)). As the application method, each
solution to be applied was ejected from a Y-tube having a tip
diameter of about 0.25 mm, which was adjacent (about 2 mm) to
the cells, and applied to the cells. The ejection rate was
about 0.4 mL/min.
The experiment was performed at room temperature under a
phase contrast microscope. The 35 mm culture dish plated with
the cells was set on a measurement apparatus, and the standard
extracellular fluid was continuously applied to the cells from
the Y-tube. A glass electrode for the measurement was filled
with an intracellular fluid (Potassium Gluconate: 130 mmol/L,
KCl: 20 mmol/L, MgCl2: 1 mmol/L, ATP-Mg: 5 mmol/L, EGTA: 3.5
mmol/L, HEPES: 10 mmol/L (adjusted to pH 7.2 with Tris-base)).
A conventional whole cell patch clamp method was applied to
the cells, and the maintenance electric potential was set to -
80 mV. Under a fixed electric potential, the whole cell
current was amplified by an amplifier for patch clamp
(AXOPATCH-200B, Axon Instruments, Inc.), and the data was
loaded into a computer (IMC-P642400, Intermedical Co., Ltd.)
using a data acquisition analysis software (pCLAMP 9.2, Axon
Instruments, Inc.).
The measurement of the hERG current was performed in the
following two steps. In both cases, the hERG current was
initiated by giving a command potential (maintenance electric
potential -80 mV, prepulse +20mV, 1.5 sec, test-pulse -50 mV,
1.5 sec).
Step (1): The above-mentioned command potential was given
at 0.1 Hz for 2 min.
Step (2): The above-mentioned command potential was
subjected to P/3 subtraction of pCLAMP 9.2 to remove leak
current. This was repeated three times and an average thereof
was taken as hERG current.
Subsequent to step (1), Step (2) was performed (about 3
min), and the maximum tail current obtained by applying a
test-pulse to the hERG current obtained by the method of step
(2) was taken as hERG current value. Hereafter, the operations
of (1) and (2) were alternately repeated until completion of
the experiment and the hERG current value was measured.
Stable hERG current value was recorded three times (about
10 min), and the standard extracellular fluid was
instantaneously exchanged with each application fluid. The
hERG current value was measured three times (about 10 min) in
the same manner during perfusion of the application fluid, and
the current value obtained by the 3rd measurement was taken as
hERG current value after perfusion of the application fluid.
The data for each cell was converted to a relative value
with an average of the three hERG current values recorded in
about 10 min before perfusion of the application fluid (Before
value) as 100%. This was measured for two cells, and an
average thereof was calculated as Relative current (%).
Relative current (%)=100×A÷B
A: hERG current value after perfusion of application
fluid
B: average of three hERG current values recorded in
about 10 min before perfusion of application fluid (Before
value)
In addition, a suppression rate on the DMSO group was
calculated according to the following formula.
Suppression rate (%)=100-(C÷D)×100
C: average of Relative current (%) of respective test
compound groups
D: average of Relative current (%) of DMSO group
The results obtained using compound (2), compound (3),
compound (A), compound (B), compound (C) and compound (D) as
test compounds are shown in the following Table 5.
[Table 5]
Concentration Inhibition IC value
Test compound
( mol/L) rate (%) ( mol/L)
Compound (2) 30 24.4 >30
Compound (3) 30 27.3 >30
Compound (A) 10 11.8 >10
Compound (B) 1 17.4
72.9
Compound (C) 3 11.5
13.2
69.0
Compound (D) 3 9.4
14.2
67.5
a): The highest evaluation concentration of each compound was
set from the highest concentration at which precipitation in
the standard extracellular fluid was not found.
Experimental Example 5: Metabolic stability test in liver
microsome
(Experimental method)
Human liver microsome (manufactured by Xenotech, H0620,
final concentration (after dilution), 0.2 mg protein/mL) was
suspended in 100 mM potassium phosphate buffer (pH 7.4,
containing β-nicotinamide adenine dinucleotide phosphate: 1.3
mM, D-glucosephosphate: 3.3 mM, magnesium chloride: 3.3 mM,
glucosephosphate dehydrogenase: 0.45 U/mL), and further
mixed with a test compound dissolved in MeCN/DMSO (95/5)
(final concentration 5 μM). The mixture was incubated at 37 C
for 10 min and 60 min, acetonitrile containing formic acid
(final concentration 0.1%) was added, and the mixture was
centrifuged. The test compound (unmodified) in the supernatant
was measured by high performance liquid chromatography/mass
spectrometry (LC/MS) (manufactured by Waters, LC: Acquity UPLC,
MS:SQ Detector or TQ Detector). The residual ratio (%) was
calculated from the obtained measurement value.
The results obtained using compound (2), compound (3),
compound (A), compound (B), compound (C) and compound (D) as
test compounds are shown in the following Table 6.
[Table 6]
Stability in liver microsome (residual ratio %)
Test
human rat
compound
min 60 min 10 min 60 min
Compound (2) 98.8 96.5 98.8 100.0
Compound (3) 98.4 85.9 102.7 95.8
Compound (A) 34.8 0.0 24.8 0.0
Compound (B) 98.0 88.2 101.1 92.1
Compound (C) 94.0 75.1 94.2 85.3
Compound (D) 105.4 101.5 105.2 105.1
Industrial Applicability
Since the compound of the present invention or a
pharmaceutically acceptable salt thereof has a PDHK inhibitory
activity, it is useful as an active ingredient of a medicament
for the prophylaxis or treatment of diabetes (type 1 diabetes,
type 2 diabetes etc.), insulin resistance syndrome, metabolic
syndrome, hyperglycemia, hyperlactacidemia, diabetic
complications (diabetic neuropathy, diabetic retinopathy,
diabetic nephropathy, cataract etc.), cardiac failure (acute
cardiac failure, chronic cardiac failure), cardiomyopathy,
myocardial ischemia, myocardial infarction, angina pectoris,
dyslipidemia, atherosclerosis, peripheral arterial disease,
intermittent claudication, chronic obstructive pulmonary
disease, brain ischemia, cerebral apoplexy, mitochondrial
disease, mitochondrial encephalomyopathy, cancer, pulmonary
hypertension or Alzheimer disease.
Claims (20)
1. A compound represented by the formula [I]: 5 wherein n is 1 or 2, or a pharmaceutically acceptable salt thereof, or a solvate thereof.
2. The compound according to claim 1, which is represented by 10 the formula:
3. The compound according to claim 2, which is represented by the formula [II]:
4. The compound according to claim 2, which is represented by the formula [IIh]:
5. The compound according to claim 1, which is represented by the formula [III]:
6. A pharmaceutical composition comprising the compound according to any one of claims 1 to 5, or a pharmaceutically 5 acceptable salt thereof, or a solvate thereof, and a pharmaceutically acceptable carrier.
7. A PDHK inhibitor comprising the compound according to any one of claims 1 to 5 or a pharmaceutically acceptable salt 10 thereof, or a solvate thereof.
8. A PDHK1 inhibitor comprising the compound according to any one of claims 1 to 5, or a pharmaceutically acceptable salt thereof, or a solvate thereof.
9. A PDHK2 inhibitor comprising the compound according to any one of claims 1 to 5, or a pharmaceutically acceptable salt thereof, or a solvate thereof. 20
10. A hypoglycemic agent comprising the compound according to any one of claims 1 to 5, or a pharmaceutically acceptable salt thereof, or a solvate thereof.
11. A lactic acid-lowering agent comprising the compound according to any one of claims 1 to 5, or a pharmaceutically acceptable salt thereof, or a solvate thereof. 5
12. An agent for the prophylaxis or treatment of diabetes, insulin resistance syndrome, metabolic syndrome, hyperglycemia, hyperlactacidemia, diabetic complications, cardiac failure, cardiomyopathy, myocardial ischemia, myocardial infarction, angina pectoris, dyslipidemia, atherosclerosis, peripheral 10 arterial disease, intermittent claudication, chronic obstructive pulmonary disease, brain ischemia, cerebral apoplexy, mitochondrial disease, mitochondrial encephalomyopathy, cancer or pulmonary hypertension, which comprises the compound according to any one of claims 1 to 5, 15 or a pharmaceutically acceptable salt thereof, or a solvate thereof.
13. The prophylactic or therapeutic agent according to claim 12, wherein the diabetes is type 1 diabetes or type 2 diabetes.
14. The prophylactic or therapeutic agent according to claim 12, wherein the diabetic complications are selected from the group consisting of diabetic neuropathy, diabetic retinopathy, diabetic nephropathy and cataract.
15. The prophylactic or therapeutic agent according to claim 12, wherein the cardiac failure is acute cardiac failure or chronic cardiac failure. 30
16. Use of a compound according to any one of claims 1 to 5 in the preparation of a medicament for the prophylaxis or treatment of diabetes, insulin resistance syndrome, metabolic syndrome, hyperglycemia, hyperlactacidemia, diabetic complications, cardiac failure, cardiomyopathy, myocardial 35 ischemia, myocardial infarction, angina pectoris, dyslipidemia, atherosclerosis, peripheral arterial disease, intermittent claudication, chronic obstructive pulmonary disease, brain ischemia, cerebral apoplexy, mitochondrial disease, mitochondrial encephalomyopathy, cancer or pulmonary 5 hypertension.
17. The use according to claim 16, wherein the diabetes is type 1 diabetes or type 2 diabetes. 10
18. The use according to claim 16, wherein the diabetic complications are selected from the group consisting of diabetic neuropathy, diabetic retinopathy, diabetic nephropathy and cataract. 15
19. The use according to claim 16, wherein the cardiac failure is acute cardiac failure or chronic cardiac failure.
20. A compound according to any one of claims 1, 2 or 5, substantially as herein described with reference to any one of 20 the Examples and/or
Applications Claiming Priority (7)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US201361791164P | 2013-03-15 | 2013-03-15 | |
JP2013053195 | 2013-03-15 | ||
US61/791,164 | 2013-03-15 | ||
JP2013-053195 | 2013-03-15 | ||
JP2013-127318 | 2013-06-18 | ||
JP2013127318 | 2013-06-18 | ||
PCT/JP2014/056825 WO2014142290A1 (en) | 2013-03-15 | 2014-03-14 | Pyrazole-amide compound and medicinal uses therefor |
Publications (2)
Publication Number | Publication Date |
---|---|
NZ712292A NZ712292A (en) | 2020-10-30 |
NZ712292B2 true NZ712292B2 (en) | 2021-02-02 |
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