| Identification | More | [Name]
Thalidomide | [CAS]
50-35-1 | [Synonyms]
(+/-)-2-(2,6-DIOXO-3-PIPERIDINYL)-1H-ISOINDOLE-1,3(2H)-DIONE
2-(2,6-DIOXO-3-PIPERIDINYL)-1H-ISO-INDOLE-1,3(2H)-DIONE
3-PHTHALIMIDOGLUTARIMIDE
ALPHA-PHTHALIMIDOGLUTARIMIDE
(+/-)-N-(2,6-DIOXO-3-PIPERIDINYL)PHTHALIMIDE
N-(2,6-DIOXO-3-PIPERIDINYL)PHTHALIMIDE
N-(2,6-DIOXOPIPERIDIN-3-YL)PHTHALIMIDE
(+/-)-THALIDOMIDE
THALIDOMIDE
1H-Isoindole-1,3(2H)-dione, 2-(2,6-dioxo-3-piperidinyl)-
2-(2,6-dioxo-3-piperidinyl)-1h-isoindole-3(2h)-dione
2,6-Dioxo-3-phthalimidopiperidine
2-phthalimido-glutarimid
Algosediv
alpha-(N-Phthalimido)glutarimide
alpha-N-Phthalylglutaramide
Asidon 3
asidon3
Asmadion
Asmaval | [EINECS(EC#)]
200-031-1 | [Molecular Formula]
C13H10N2O4 | [MDL Number]
MFCD00153873 | [Molecular Weight]
258.23 | [MOL File]
50-35-1.mol |
| Chemical Properties | Back Directory | [Appearance]
White Powder | [Melting point ]
269-271°C | [Boiling point ]
401.48°C (rough estimate) | [density ]
1.2944 (rough estimate) | [refractive index ]
1.5300 (estimate) | [storage temp. ]
Keep in dark place,Sealed in dry,Room Temperature | [solubility ]
45% (w/v) aq 2-hydroxypropyl-β-cyclodextrin: 0.6 mg/mL
| [form ]
White solid | [pka]
10.70±0.40(Predicted) | [color ]
white | [Stability:]
Stable. Combustible. Incompatible with strong oxidizing agents. | [Water Solubility ]
<0.1 g/100 mL at 22 ºC | [Usage]
Inhibits FGF-induced angiogenesis. Inhibits replication of human immunodeficiency virus type 1. Teratogenic sedative | [λmax]
300nm(lit.) | [Merck ]
14,9255 | [InChIKey]
UEJJHQNACJXSKW-UHFFFAOYSA-N | [CAS DataBase Reference]
50-35-1(CAS DataBase Reference) | [NIST Chemistry Reference]
Phthalimide, n-(2,6-dioxo-3-piperidyl)-(50-35-1) | [EPA Substance Registry System]
50-35-1(EPA Substance) |
| Safety Data | Back Directory | [Hazard Codes ]
T | [Risk Statements ]
R61:May cause harm to the unborn child.
R21:Harmful in contact with skin.
R25:Toxic if swallowed.
R62:Possible risk of impaired fertility. | [Safety Statements ]
S53:Avoid exposure-obtain special instruction before use .
S22:Do not breathe dust .
S26:In case of contact with eyes, rinse immediately with plenty of water and seek medical advice .
S36/37/39:Wear suitable protective clothing, gloves and eye/face protection .
S45:In case of accident or if you feel unwell, seek medical advice immediately (show label where possible) . | [RIDADR ]
UN 2811 6.1/PG 3
| [WGK Germany ]
3
| [RTECS ]
TI4375000
| [HazardClass ]
6.1(b) | [PackingGroup ]
III | [HS Code ]
29337900 | [Safety Profile]
Poison by ingestion. Moderately toxic by skin contact and intraperitoneal routes. Human teratogenic effects by ingestion: developmental abnormalities of the musculoskeletal and cardiovascular systems. Experimental reproductive effects. Questionable carcinogen with experimental tumorigenic and teratogenic data. Human mutation data reported. It was commonly used as a prescription drug in Europe in the late 1950s and early 1960s. Its use was dscontinued because it was lscovered to cause serious congenital abnormalities in the fetus, notably amelia and phocomelia (absence or deformity of the limbs, including hands and feet) when taken by a woman during early pregnancy. When heated to decomposition it emits toxic fumes of NOx. Used as a sedative and hypnotic. | [Hazardous Substances Data]
50-35-1(Hazardous Substances Data) | [Toxicity]
LD50 oral in mouse: 2gm/kg |
| Hazard Information | Back Directory | [General Description]
Needles or white powder. | [Reactivity Profile]
Organic amides/imides, such as THALIDOMIDE(50-35-1), react with azo and diazo compounds to generate toxic gases. Flammable gases are formed by the reaction of organic amides/imides with strong reducing agents. Amides are very weak bases (weaker than water). Imides are less basic yet and in fact react with strong bases to form salts. That is, they can react as acids. Mixing amides with dehydrating agents such as P2O5 or SOCl2 generates the corresponding nitrile. The combustion of these compounds generates mixed oxides of nitrogen (NOx). | [Air & Water Reactions]
Insoluble in water. | [Fire Hazard]
Flash point data for this chemical are not available; however, THALIDOMIDE is probably combustible. | [Description]
Thalidomide is a glutamic acid derivative first synthesized in
1953 by Swiss Pharmaceuticals; however, due to lack of pharmacological
effects, the development was discontinued. In
1954, Chemie Grünenthal, a German company, undertook the
development of thalidomide and, in 1957, thalidomide was
marketed as an anticonvulsant for the treatment of epilepsy.
Since the drug caused drowsiness, it was also marketed as
a sedative. Thalidomide was considered a safe and effective
drug that caused deep sleep with no hangover, and by the end
of the 1950s, 14 pharmaceutical firms were marketing the drug
in countries of Europe, Asia, Australia, the Americas, and Africa.
However, the drug was never approved for use in the United
States due to concerns about the safety of the drug raised by
Frances Kelsey, MD, a drug reviewer at Food and Drug
Administration (FDA). The approval process was delayed due
to her repeated requests for additional safety information from
William S. Merrell Company, the licensee of Chemie Grünenthal
that applied to market thalidomide in the United States.
Dr Kelsey’s concerns were mostly related to thalidomideinduced
neuropathy. Previous research had shown that drugs
that irritated nerves in adult rabbits could have adverse effects
on growth and cause deformities in fetal rabbits. During this
time, the use of the drug became widespread and, because it
was effective in alleviating morning sickness, it became popular
among pregnant women. In 1961, two physicians, William G.
McBride, MD of Australia and Widulind Lenz, MD of Germany,
associated the increase in malformation of the limbs (phocomelia)
and other congenital abnormalities with the use of
thalidomide by pregnant women. By late 1961, birth defects in
more than 12 000 children were associated with thalidomide
use, which forced companies to withdraw the drug worldwide.
The birth defects were due to thalidomide teratogenecity:
mainly phocomelia and malformation of ears, often accompanied
by malformation of the internal organ. In 1965, an
experimental use of thalidomide in patients with lepromatous
leprosy proved to be effective in treating painful skin lesions
that resulted from the inflammatory complications of leprosy.
In fact, experimental use of thalidomide had been extended to
a variety of diseases with various degrees of success, including
refractory rheumatoid arthritis, Crohn’s disease, human
immunodeficiency virus (HIV)-1 associated Kaposi’s sarcoma,
cutaneous lupus, prostate cancer, and colorectal cancer. In
1998, the FDA approved Thalomid as a therapy for erythema
nodosum leprosum (ENL), or leprosy. Subsequently in 2006,
Thalomid in combination with dexamethasone was approved
for treatment of multiple myeloma. | [Originator]
Contergan,Grunenthal,Germany | [Definition]
ChEBI: A dicarboximide that is isoindole-1,3(2H)-dione in which the hydrogen attached to the nitrogen is substituted by a 2,6-dioxopiperidin-3-yl group. | [Indications]
Thalidomide (Thalomid) is a derivative of glutamic acid
that is chemically related to glutethimide. It exerts a
number of biological effects as an immunosuppressive,
antiinflammatory, and antiangiogenic agent, yet its
mechanisms of action have not been fully elucidated.
Thalidomide potently inhibits production of tumor
necrosis factor (TNF) and interleukin (IL) 12, and its
effect on these and other cytokines may account for
some of its clinical effects. | [Manufacturing Process]
26 g of N-phthalyl glutaminic acid anhydride are melted with 12 g of urea in
an oil bath at 170-180°C until the reaction is completed, which takes about 20
min. The reaction takes place with violent evolution of carbon dioxide and
ammonia. After cooling, the reaction product is recrystallised by fractionation
from 95% alcohol, and the first fraction may contain phthalic acid derivatives.
The required product N-(2,6-dioxo-3-piperidyl)-phthalimide melts at 269-
271°C. The yield is about 65-70% of the theoretical. | [Brand name]
Algosediv;Asidon;Bonbrain;Contergan;Distaval;Funed;Glutanon;Hippuzon;Imidan;Isomin;Kevadone;Nerufatin;Neurosedyn;Pantosedive;Pro-ban;Quetimid;Sanodormin;Sedalis;Sedoval;Shinaito;Shinnibrol;Sleepan;Softenil;Softenon;Talimol;Tlargan;Yodomin. | [Therapeutic Function]
Sedative, Hypnotic, Antiarthritic | [World Health Organization (WHO)]
Notwithstanding the highly potent teratogenic action of
thalidomide, this drug retains a place in the treatment of reactional lepromatous
leprosy and several serious dermatological conditions refractory to other
treatment. In many countries, the competent authorities have granted exemption
from licensing requirements to enable doctors to obtain limited supplies of
thalidomide under strictly controlled circumstances for use in named patients.
Arrangements have also been made by some national drug regulatory authorities
for thalidomide to be used in institutions concerned with the treatment of leprosy. | [Synthesis Reference(s)]
Synthetic Communications, 33, p. 1375, 2003 DOI: 10.1081/SCC-120018698 | [Health Hazard]
Thalidomide is a strong teratogen. Exposureto this compound during the first trimesterof pregnancy resulted in deformities inbabies. Infants born suffered from ameliaor phocomelia, the absence or severe shortening of limbs. Administration of thalidomide in experimental animals caused fetaldeaths, postimplantation mortality, and specific developmental abnormalities in theeyes, ear, central nervous system, musculoskeletal system, and cardiovascular system. Several thousand children were affected.The drug has been withdrawn from themarket.Thalidomide is usually administeredorally. Its toxicity is dose dependent. Someother effects are drowsiness, constipation andrash and nerve damage in the arms and legs.Interest in thalidomide resurged in recentyears because of its antitumor activity in thetreatment of multiple myeloma (Oxberry andJohnson 2006). The compound is an inhibitorof angiogenesis, that is, it prevents formationof new blood vessels in tumors. Also, it hasbeen found to be effective in treating AIDS-related Kaposis sarcoma. | [Biological Activity]
Teratogen, sedative-hypnotic with inherent anti-inflammatory properties. A selective inhibitor of tumor necrosis factor α (TNF- α ) synthesis. | [Biochem/physiol Actions]
(±)-Thalidomide selectively inhibits biosynthesis of tumor necrosis factor α (TNF-α). It also functions as an inhibitor of angiogenesis, an immunosuppressive agent, a sedative and a teratogen. Furthermore, thalidomide is known to exhibit antitumor functions in refractory multiple myeloma. | [Mechanism of action]
Its absorption from the gastrointestinal tract is slow,
with peak plasma levels being reached after 3 to 6
hours. It appears to undergo nonenzymatic hydrolysis in
the plasma to a large number of metabolites.The elimination
half-life is approximately 9 hours. | [Clinical Use]
Thalidomide is approved for use in the United
States for the treatment of cutaneous manifestations
of erythema nodosum leprosum, a potentially lifethreatening
systemic vasculitis that occurs in some patients
with leprosy.Although not approved for other indications,
thalidomide has also been shown to be very
effective in the management of Beh?et’s disease, HIVrelated
mucosal ulceration (aphthosis), and select cases
of lupus erythematosus. | [Drug interactions]
Potentially hazardous interactions with other drugs
Thalidomide enhances the effects of barbiturates,
alcohol, chlorpromazine and reserpine.
Use with caution with other drugs that can cause
peripheral neuropathy. | [Metabolism]
Thalidomide is metabolised almost exclusively by nonenzymatic hydrolysis. In plasma, unchanged thalidomide
represents 80
% of the circulatory components.
Unchanged thalidomide was a minor component
(<3
% of the dose) in urine. In addition to thalidomide,
hydrolytic products N-(o-carboxybenzoyl) glutarimide
and phthaloyl isoglutamine formed via non-enzymatic
processes are also present in plasma and in urine. | [storage]
Store at -20°C | [Toxicity evaluation]
The mechanism of teratogenecity of the thalidomide is not
clearly understood; however, recent studies have shed some light
on the potential mechanism. CRBN has been identified as
a thalidomide-binding protein. The teratogenic effects start with
binding of thalidomide to CRBN and inhibiting the associated
ubiquitin ligase activity.Many E3 ubiquitin ligases are important
for various physiological processes such as cell cycle regulation,
carcinogenesis, immune response, and development. It has been
shown that CRBN forms an E3 ubiquitin ligase complex with
damaged DNA binding protein 1 (DDB1) and Cullin-4A
(Cul4A), which are important factors for expression of the
fibroblast growth factor Fgf8 in zebra fish and chicks as well as
the limb outgrowth. In thalidomide-treated zebra fish embryos,
formation of proximal endoskeletal disc of the pectoral fin was
severely inhibited and the otic vesicle size was significantly
reduced. Pectoral fins and otic vesicles in fish share common
molecular pathways with tetrapod limbs and ears development.
Down-regulation of the CRBN complex causes similar developmental
defects in zebra fish. Thalidomide does not cause limb
malformations in rodents but does in rabbits, monkeys. In
pregnant rats, thalidomide can cause other types of developmental
defects such as vertebral column, rib, and eye malformation.
There is very strong conservation of the amino acid
sequence of CRBN between rat, rabbit, monkey, mouse and
human and has been shown that they can bind to thalidomide.
The role and importance of CRBN in different species have not
been identified; therefore, the degree of teratogenecity could
depend in part on the nature of the protein substrates that are
modified by CRBN activity during embryonic development.
There are some species differences in teratogenecity between
thalidomide and its close analogs. | [References]
1) Ito et al. (2010), Identification of a primary target of thalidomide teratogenicity; Science, 327 1345
2) Weglicki et al. (1993), Inhibition of tumor necrosis factor-alpha by thalidomide in magnesium deficiency; Mol. Cell. Biochem., 129 195
3) D’Amato et al. (1994), Thalidomide is an inhibitor of angiogenesis ; Proc. Natl. Acad. Sci. USA, 91 4082 |
| Questions And Answer | Back Directory | [Glutamic acid derivatives]
Thalidomide is a kind of synthetic glutamic acid derivatives. At room temperature, it is a kind of white crystalline powder, and is odorless, tasteless, and slightly soluble in water, methanol, ethanol or acetone, highly soluble in dimethylformamide or pyridine, but insoluble in ether, chloroform or benzene.
At 1950s, Germany developed the drug mainly for treating epilepsy. However, due to the lack of efficacy, then it is further used as an adjunct for sleeping while also widely used as antiemetic drug for pregnant women during their pregnancy.
At early 1960s, thalidomide incident---there had been a lot of reports about birth defect caused by thalidomide (such as: short limb malformations, bone defect, ear missing, cleft lip, heart and gastrointestinal tract abnormalities, etc.). Thereby, it was further prohibited by many countries, and subjected to withdrawal from the pharmaceutical market; but scientists did not totally negate thalidomide and continued to carry out in-depth research; there has been much encouraging and promising progress on the pharmacologic mechanisms of immunity, anti-inflammatory, and anti-angiogenic as well as the clinical treatment of various kinds of difficult disease, making people gain new understanding of the functions of thalidomide.
Since the 1970s, with the emergence of the various research progresses of leprosy, rheumatism and various types of cancer, Israel dermatologists had applied thalidomide as a sedative for patients of erythema nodosum leprosy and obtain rapid alleviation of symptoms. After that many patients of erythema nodosum leprosy had received good therapeutic effects. In1998, the FDA approved thalidomide for the treatment of erythema nodosum leprosy.
In 2004, during the American Society of Hematology annual meeting, RaJkumar from the US Mayo Clinic reported the progress of two studies about using thalidomide and its analogs (lenalidomide) in first-line treatment of multiple myeloma. Both thalidomide and its analogs, lenalidomide are effective in the treatment of multiple myeloma with lenalidomide having a better effect than thalidomide.
In May 2006, the US FDA approved it for the treatment of multiple myeloma.
The above information is edited by the chemicalbook of Dai Xiongfeng.
| [Treatment of rheumatism]
Foreign scholars have reported that when using thalidomide for treatment of 7 rheumatoid patients who can’t be cured by various kinds of anti-inflammatory drugs and immune inhibition, the symptoms were alleviated in most cases within a few weeks at the dose in 400~600mg/d. All patients have their erythrocyte sedimentation rate and rheumatoid factor titers either be normalized or be decreased, wherein 1 case of rheumatoid nodules disappeared at 12 weeks. Someone have ever combined thalidomide with methotrexate for treating 7 cases of refractory rheumatoid arthritis, wherein in 5 cases of patient who persists in treatment, 4 cases obtained alleviated joints tenderness and reduced joints swelling feeling within 3 to 9 months.
Thalidomide to treat rheumatism diseases as follows:
1. Behcet's disease.
2. Systemic lupus erythematosus.
3. Rheumatoid arthritis.
4. Erythema nodosum, Crohn's disease.
5. Scleroderma: at 12 weeks after the start of treatment, it can significantly alleviate the symptoms of gastroesophageal reflux, heal duodenal ulcer and lead to hypopigmentation.
6. Adult Still's disease.
7. Refractory ankylosing spondylitis, multiple myeloma (MM).
Clinical treatment of rheumatism should start from small dose at 25--50mg/day per night, gradually increase the amount to 100--200mg/day with the maximum not exceeding 400mg/day.
| [Side effects]
Adverse reactions during the treatment using thalidomide include: drowsiness, dizziness, drowsiness, headache, constipation, nausea, vomiting, dry mouth, dry skin, erythema and papules and vesicular transient rash; but they usually are not serious and can disappear after termination of administration.
The adverse reactions that should be noted is multiple neuritis with the main symptom being a surface or deep sensory loss and muscle weakness; the occurrence of symptoms is not proportional to the dose and duration; the time when the symptoms began to appear also varies greatly; for the cases without treatment termination, such symptoms are irreversible. In addition, leukopenia, abnormal liver function as well as the well-known teratogenic effects also should be taken care. Other rare side effects include bradycardia, edema, abnormal blood clotting, kidney failure, pneumonia, paresthesia, and hypothyroidism.
| [Chemical Properties]
White powder.
| [Uses]
It is used as sedative and has certain efficacy in treating various types of leprosy reactions such as fever, erythema nodosum, neuralgia, joint pain, and swollen lymph nodes but has no treatment effect on leprosy.
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