Urinary excretion products of 17beta-hydroxy-2alpha-methyl-5alpha-androstan-3-one from rabbit dosed orally. Together with oxidation-reduction of the oxygen functions at C-3 and C-17, hydroxylation occurred at C-15, C-16, and at 2alpha-me positions of steroid nucleus.
IDENTIFICATION: Drostanolone is an anabolic steroid. Origin of the substance: Naturally occurring anabolic steroids are synthesized in the testis, ovary and adrenal gland from cholesterol via pregnenolone. Synthetic anabolic steroids are based on the principal male hormone testosterone, modified in one of three ways: alkylation of the 17-carbon; esterification of the 17-OH group; modification of the steroid nucleus. Indications: Anabolic agent for systemic use; veterinary anabolic steroid; veterinary estron derivative. Description: The only legitimate therapeutic indications for anabolic steroids are: Replacement of male sex steroids in men who have androgen deficiency, for example as a result of loss of both testes. The treatment of certain rare forms of aplastic anemia which are or may be responsive to anabolic androgens. The drugs have been used in certain countries to counteract catabolic states, for example after major trauma. HUMAN EXPOSURE: Main risks and target organs: There is no serious risk from acute poisoning, but chronic use can cause harm. The main risks are those of excessive androgens: menstrual irregularities and virilization in women and impotence, premature cardiovascular disease and prostatic hypertrophy in men. Both men and women can suffer liver damage with oral anabolic steroids containing a substituted 17-alpha-carbon. Psychiatric changes can occur during use or after cessation of these agents. Summary of clinical effects: Acute overdosage can produce nausea and gastrointestinal upset. Chronic usage is thought to cause an increase in muscle bulk, and can cause an exaggeration of male characteristics and effects related to male hormones. Anabolic steroids can influence sexual function. They can also cause cardiovascular and hepatic damage. Acne and male-pattern baldness occur in both sexes; irregular menses, atrophy of the breasts, and clitoromegaly in women; and testicular atrophy and prostatic hypertrophy in men. Contraindications: Known or suspected cancer of the prostate or (in men) breast; pregnancy or breast-feeding; known cardiovascular disease is a relative contraindication. Routes of exposure: Oral: Anabolic steroids can be absorbed from the gastrointestinal tract, but many compounds undergo such extensive first-pass metabolism in the liver that they are inactive. Those compounds in which substitution of the 17-carbon protects the compound from the rapid hepatic metabolism are active orally. There are preparations of testosterone that can be taken sublingually. Parenteral: Intramuscular or deep subcutaneous injection is the principal route of administration of all the anabolic steroids except the 17-alpha-substituted steroids which are active orally. Absorption by route of exposure: The absorption after oral dosing is rapid for testosterone and probably for other anabolic steroids, but there is extensive first-pass hepatic metabolism for all anabolic steroids except those that are substituted at the 17-alpha position. The rate of absorption from subcutaneous or intramuscular depots depends on the product and its formulation. Absorption is slow for the lipid-soluble esters such as the cypionate or enanthate, and for oily suspensions. Distribution by route of exposure: The anabolic steroids are highly protein bound, and is carried in plasma by a specific protein called sex-hormone binding globulin. Biological half-life by route of exposure: The metabolism of absorbed drug is rapid, and the elimination half-life from plasma is very short. The duration of the biological effects is therefore determined almost entirely by the rate of absorption from subcutaneous or intramuscular depots, and on the de-esterification which precedes it. Metabolism: Free (de-esterified) anabolic androgens are metabolized by hepatic mixed function oxidases. Elimination by route of exposure: After administration of radiolabelled testosterone, about 90% of the radioactivity appears in the urine, and 6% in the feces; there is some enterohepatic recirculation Pharmacodynamics: Anabolic steroids bind to specific receptors present especially in reproductive tissue, muscle and fat. The anabolic steroids reduce nitrogen excretion from tissue breakdown in androgen deficient men. They are also responsible for normal male sexual differentiation. The ratio of anabolic ("body-building") effects to androgenic (virilizing) effects may differ among the members of the class, but in practice all agents possess both properties to some degree. There is no clear evidence that anabolic steroids enhance overall athletic performance. Carcinogenicity: Anabolic steroids may be carcinogenic. They can stimulate growth of sex-hormone dependent tissue, primarily the prostate gland in men. Precocious prostatic cancer has been described after long-term anabolic steroid abuse. Cases where hepatic cancers have been associated with anabolic steroid abuse have been reported. Teratogenicity: Androgen ingestion by a pregnant mother can cause virilization of a female fetus. Main adverse effects: The adverse effects of anabolic steroids include weight gain, fluid retention, and abnormal liver function as measured by biochemical tests. Administration to children can cause premature closure of the epiphyses. Men can develop impotence and azoospermia. Women are at risk of virilization. Chronic poisoning: Ingestion: Hepatic damage, manifest as derangement of biochemical tests of liver function and sometimes severe enough to cause jaundice; prostatic hypertrophy, impotence and azoospermia in men; acne, abnormal lipids, premature cardiovascular disease (including stroke and myocardial infarction), abnormal glucose tolerance, and muscular hypertrophy in both sexes; psychiatric disturbances can occur during or after prolonged treatment. Parenteral exposure: Virilization in women; prostatic hypertrophy, impotence and azoospermia in men; acne, abnormal lipids, premature cardiovascular disease (including stroke and myocardial infarction), abnormal glucose tolerance, and muscular hypertrophy in both sexes. Psychiatric disturbances can occur during or after prolonged treatment. Hepatic damage is not expected from parenteral preparations. Systematic description of clinical effects: Cardiovascular: Chronic ingestion of high doses of anabolic steroids can cause elevations in blood pressure, left ventricular hypertrophy and premature coronary artery disease. Neurological: Central nervous system: Stroke has been described in a young anabolic steroid abuser. Mania and psychotic symptoms of hallucination and delusion has been described in anabolic steroid abusers. They also described depression after withdrawal from anabolic steroids. There is also considerable debate about the effects of anabolic steroids on aggressive behavior and on criminal behavior. Mood swings were significantly more common in normal volunteers during the active phase of a trial comparing methyltestosterone with placebo. Gastrointestinal: Acute ingestion of large doses can cause nausea and gastrointestinal upset. Hepatic: Orally active (17-alpha substituted) anabolic steroids can cause abnormalities of hepatic function, manifest as abnormally elevated hepatic enzyme activity in biochemical tests of liver function,and sometimes as overt jaundice. The histological abnormality of peliosis hepatis has been associated with anabolic steroid use. Angiosarcoma and a case of hepatocellular carcinoma in an anabolic steroid user has been reported. Urinary: Other: Men who take large doses of anabolic steroids can develop prostatic hypertrophy. Prostatic carcinoma has been described in young men who have abused anabolic steroids. Endocrine and reproductive systems: Small doses of anabolic steroids are said to increase libido, but larger doses lead to azoospermia and impotence. Testicular atrophy is a common clinical feature of long-term abuse of anabolic steroids, and gynecomastia can occur. Women develop signs of virilism, with increased facial hair, male pattern baldness, acne, deepening of the voice, irregular menses and clitoral enlargement. Dermatological: Acne occurs in both male and female anabolic steroids abusers. Women can develop signs of virilism, with increased facial hair and male pattern baldness. Eye, ear, nose, throat: local effects: Changes in the larynx in women caused by anabolic steroids can result in a hoarse, deep voice. The changes are irreversible. Hematological: Anabolic androgens stimulate erythropoiesis. Fluid and electrolyte disturbances: Sodium and water retention can occur, and result in edema; hypercalcemia is also reported. Others: Insulin resistance with a fall in glucose tolerance, and hypercholesterolemia with a fall in high density lipoprotein cholesterol, have been reported.
Dromostanolone is a synthetic androgenic anabolic steroid and is approximately 5 times as potent as natural methyltestosterone. Like testosterone and other androgenic hormones, dromostanolone binds to the androgen receptor. This causes downstream genetic transcriptional changes. This ultimately causes retention of nitrogen, potassium, and phosphorus; increases protein anabolism; and decreases amino acid catabolism. The antitumour activity of dromostanolone appears related to reduction or competitive inhibition of prolactin receptors or estrogen receptors or production.
来源:Toxin and Toxin Target Database (T3DB)
毒理性
致癌物分类
对人类不具有致癌性(未被国际癌症研究机构IARC列名)。
No indication of carcinogenicity to humans (not listed by IARC).
来源:Toxin and Toxin Target Database (T3DB)
毒理性
暴露途径
经肠道外给药后吸收良好。
Well absorbed following parenteral administration.
来源:Toxin and Toxin Target Database (T3DB)
毒理性
症状
副作用包括女性男性化(女性出现男性特征)、痤疮、液体潴留和血钙过多。
Side effects include virilization (masculine traits in women), acne, fluid retention, and hypercalcemia.
来源:Toxin and Toxin Target Database (T3DB)
吸收、分配和排泄
尚不清楚合成代谢类固醇是否分布到母乳中。/合成代谢类固醇/
It is not known whether anabolic steroids are distributed into breast milk. /Anabolic Steroids/
The present invention provides a cobalamin-drug conjugate suitable for the treatment of tumor related diseases. Cobalamin is indirectly covalently bound to an anti-tumor drug via a cleavable linker and one or more optional spacers. Cobalamin is covalently bound to a first spacer or the cleavable linker via the 5′-OH of the cobalamin ribose ring. The drug is bound to a second spacer of the cleavable linker via an existing or added functional group on the drug. After administration, the conjugate forms a complex with transcobalamin (any of its isoforms). The complex then binds to a receptor on a cell membrane and is taken up into the cell. Once in the cell, an intracellular enzyme cleaves the conjugate thereby releasing the drug. Depending upon the structure of the conjugate, a particular class or type of intracellular enzyme affects the cleavage. Due to the high demand for cobalamin in growing cells, tumor cells typically take up a higher percentage of the conjugate than do normal non-growing cells. The conjugate of the invention advantageously provides a reduced systemic toxicity and enhanced efficacy as compared to a corresponding free drug.
The present invention provides AA targeting compounds which comprise AA targeting agent-linker conjugates which are linked to a combining site of an antibody. Various uses of the compounds are provided, including methods to treat disorders connected to abnormal angiogenesis.
The present invention provides a compound of Formula (I) or the pharmaceutically acceptable salts, esters, and prodrugs thereof, which are ERK2 inhibitors. The invention also provides a pharmaceutical composition comprising an effective amount of at least one compound of Formula (I) and a pharmaceutically acceptable carrier. The invention also provides a pharmaceutical composition comprising an effective amount of at least one compound of Formula (I) and an effective amount of at least one other pharmaceutically active ingredient (such as, for example, a chemotherapeutic agent), and a pharmaceutically acceptable carrier.
[EN] TRICYCLIC INHIBITORS OF POLY(ADP-RIBOSE)POLYMERASE<br/>[FR] INHIBITEURS TRICYCLIQUES DE POLY(ADP-RIBOSE)POLYMÉRASE
申请人:NEWGEN THERAPEUTICS INC
公开号:WO2012166983A1
公开(公告)日:2012-12-06
The invention provides for compositions comprising phosphorous containing tricyclic compounds, including phthalazin-l(2H)-one derivatives. The compounds are potent inhibitors of the enzyme poly(ADP-ribose)polymerase (PARP), particularly PARP-1 and potentially PARP-2. The also show good cellular activity in inhibiting poly(ADP- ribose) oligomer formation. The compounds may be useful as mono-therapy or in combination with other therapeutic agents in the treatment conditions where PARP is implicated, such as cancer, inflammatory diseases and ischemic conditions. Thus, also provided are methods for the treatment of a condition where PARP is implicated comprising administering to an effective amount of a compound of the invention to an individual in need thereof.
[EN] PEPTIDE-BASED MULTIPLE-DRUG DELIVERY VEHICLE<br/>[FR] VÉHICULE D'ADMINISTRATION DE MÉDICAMENTS MULTIPLES À BASE DE PEPTIDES
申请人:ARIEL-UNIVERSITY RES AND DEV COMPANY LTD
公开号:WO2017068577A1
公开(公告)日:2017-04-27
A molecular structure comprising a targeting moiety, a multi-functional peptide platform and a plurality of controllably released bioactive agents attached thereto is provided herein.
