PathWhiz ID | Pathway | Meta Data |
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PW176433View Pathway |
Acalabrutinib Predicted Metabolism PathwayHomo sapiens
Metabolites of Acalabrutinib are predicted with biotransformer.
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Creator: Omolola Created On: December 12, 2023 at 11:40 Last Updated: December 12, 2023 at 11:40 |
PW144772View Pathway |
drug action
Acamprosate Drug Metabolism Action PathwayHomo sapiens
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Creator: Ray Kruger Created On: October 07, 2023 at 14:23 Last Updated: October 07, 2023 at 14:23 |
PW175958View Pathway |
Acamprosate Predicted Metabolism Pathway newHomo sapiens
Metabolites of Acamprosate are predicted with biotransformer.
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Creator: Omolola Created On: November 29, 2023 at 12:48 Last Updated: November 29, 2023 at 12:48 |
PW144412View Pathway |
drug action
Acarbose Drug Metabolism Action PathwayHomo sapiens
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Creator: Ray Kruger Created On: October 07, 2023 at 13:35 Last Updated: October 07, 2023 at 13:35 |
PW126985View Pathway |
drug action
Acción de Fármacos sobre el Metabolismo oxidativoHomo sapiens
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Creator: Eduardo Girón Brihuega Created On: June 05, 2022 at 16:24 Last Updated: June 05, 2022 at 16:24 |
PW126986View Pathway |
drug action
Acción de fármacos sobre la Peroxidación LipidicaHomo sapiens
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Creator: Eduardo Girón Brihuega Created On: June 05, 2022 at 16:26 Last Updated: June 05, 2022 at 16:26 |
PW126984View Pathway |
drug action
Acción de los Fullerenos 2Homo sapiens
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Creator: Eduardo Girón Brihuega Created On: June 05, 2022 at 16:02 Last Updated: June 05, 2022 at 16:02 |
PW128690View Pathway |
physiological
ACERattus norvegicus
Angiotensin-converting enzyme (EC 3.4.15.1), or ACE, is a central component of the renin–angiotensin system (RAS), which controls blood pressure by regulating the volume of fluids in the body. It converts the hormone angiotensin I to the active vasoconstrictor angiotensin II. Therefore, ACE indirectly increases blood pressure by causing blood vessels to constrict. ACE inhibitors are widely used as pharmaceutical drugs for treatment of cardiovascular diseases. Other lesser known functions of ACE are degradation of bradykinin, substance P, and amyloid beta-protein. Angiotensin converting enzyme (ACE) is well known for its dual actions in converting inactive Ang I to active Ang II and degrade active bradykinin (BK), which play an important role in the control of blood pressure. Since the bottle neck step is the production of pressor Ang II, this was targeted pharmacologically in 1970s and successful ACE inhibitors such as captopril were produced to treat hypertension. ACE2 was identified as the receptor for SARS (severe acute respiratory syndrome) coronavirus, which caused the outbreak of an epidemic in 2002–2003. Two isozymes of ACE are present in mammals: somatic ACE and testis ACE. Somatic ACE possesses two catalytic domains (N- and C-domains) and a C-terminal transmembrane segment (stalk). Somatic and testis ACEs in humans contain 1,306 and 665 aa residues, respectively. Testis ACE only possesses one catalytic domain. Both catalytic domains are zinc-metallopeptidase with the active motif HEMGH where the two histidine residues coordinate the zinc ion. The stalk anchors the enzyme on the membrane and is susceptible to be cleaved by shedding enzymes, resulting in plasma ACE activity. Somatic ACE is expressed in various tissues including blood vessels, kidney, intestine, adrenal gland, liver, and uterus, and is especially abundant in highly vascular organs such as retina and lung. Testis ACE is expressed by postmeiotic male germ cells and high-level expression is found in round and elongated spermatids. ACE2 is expressed in lung, liver, intestine, brain, testis, heart, and kidney. Lung possesses the highest amount of ACE. Expression of ACE is affected by steroids and thyroid hormone, but the details of the regulation are not clear. ACE is under promoter regulation by hypoxia-inducing factor 1α (HIF-1α), which upregulates the ACE expression under hypoxic conditions, resulting in an increase in Ang II concentration. The well-known function of ACE is the conversion of Ang I to Ang II and degradation of BK, which all play an important role in controlling blood pressure. ACE also acts on other natural substrates including encephalin, neurotensin, and substance P. Besides being involved in blood pressure control, ACE possesses widespread functions including renal development, male fertility, hematopoiesis, erythropoiesis, myelopoiesis, and immune responses. ACE has been the target of hypertension control since the 1970s. ACE inhibitors are prescribed as the sole or combinational treatment of high blood pressure, for the dual effects of lowering Ang II and slowing down BK degradation. Angiotensin II binds to the type 1 angiotensin II receptor (AT1), which sets off a number of actions that result in vasoconstriction and therefore increased blood pressure. The B2 (bradykinin 2) receptor is constitutively expressed and participates in bradykinin's vasodilatory role, it is a G protein coupled receptor.
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Creator: Hayley Created On: September 12, 2023 at 09:04 Last Updated: September 12, 2023 at 09:04 |
PW128691View Pathway |
physiological
ACEBos taurus
Angiotensin-converting enzyme (EC 3.4.15.1), or ACE, is a central component of the renin–angiotensin system (RAS), which controls blood pressure by regulating the volume of fluids in the body. It converts the hormone angiotensin I to the active vasoconstrictor angiotensin II. Therefore, ACE indirectly increases blood pressure by causing blood vessels to constrict. ACE inhibitors are widely used as pharmaceutical drugs for treatment of cardiovascular diseases. Other lesser known functions of ACE are degradation of bradykinin, substance P, and amyloid beta-protein. Angiotensin converting enzyme (ACE) is well known for its dual actions in converting inactive Ang I to active Ang II and degrade active bradykinin (BK), which play an important role in the control of blood pressure. Since the bottle neck step is the production of pressor Ang II, this was targeted pharmacologically in 1970s and successful ACE inhibitors such as captopril were produced to treat hypertension. ACE2 was identified as the receptor for SARS (severe acute respiratory syndrome) coronavirus, which caused the outbreak of an epidemic in 2002–2003. Two isozymes of ACE are present in mammals: somatic ACE and testis ACE. Somatic ACE possesses two catalytic domains (N- and C-domains) and a C-terminal transmembrane segment (stalk). Somatic and testis ACEs in humans contain 1,306 and 665 aa residues, respectively. Testis ACE only possesses one catalytic domain. Both catalytic domains are zinc-metallopeptidase with the active motif HEMGH where the two histidine residues coordinate the zinc ion. The stalk anchors the enzyme on the membrane and is susceptible to be cleaved by shedding enzymes, resulting in plasma ACE activity. Somatic ACE is expressed in various tissues including blood vessels, kidney, intestine, adrenal gland, liver, and uterus, and is especially abundant in highly vascular organs such as retina and lung. Testis ACE is expressed by postmeiotic male germ cells and high-level expression is found in round and elongated spermatids. ACE2 is expressed in lung, liver, intestine, brain, testis, heart, and kidney. Lung possesses the highest amount of ACE. Expression of ACE is affected by steroids and thyroid hormone, but the details of the regulation are not clear. ACE is under promoter regulation by hypoxia-inducing factor 1α (HIF-1α), which upregulates the ACE expression under hypoxic conditions, resulting in an increase in Ang II concentration. The well-known function of ACE is the conversion of Ang I to Ang II and degradation of BK, which all play an important role in controlling blood pressure. ACE also acts on other natural substrates including encephalin, neurotensin, and substance P. Besides being involved in blood pressure control, ACE possesses widespread functions including renal development, male fertility, hematopoiesis, erythropoiesis, myelopoiesis, and immune responses. ACE has been the target of hypertension control since the 1970s. ACE inhibitors are prescribed as the sole or combinational treatment of high blood pressure, for the dual effects of lowering Ang II and slowing down BK degradation. Angiotensin II binds to the type 1 angiotensin II receptor (AT1), which sets off a number of actions that result in vasoconstriction and therefore increased blood pressure. The B2 (bradykinin 2) receptor is constitutively expressed and participates in bradykinin's vasodilatory role, it is a G protein coupled receptor.
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Creator: Hayley Created On: September 12, 2023 at 09:04 Last Updated: September 12, 2023 at 09:04 |
PW128689View Pathway |
physiological
ACEMus musculus
Angiotensin-converting enzyme (EC 3.4.15.1), or ACE, is a central component of the renin–angiotensin system (RAS), which controls blood pressure by regulating the volume of fluids in the body. It converts the hormone angiotensin I to the active vasoconstrictor angiotensin II. Therefore, ACE indirectly increases blood pressure by causing blood vessels to constrict. ACE inhibitors are widely used as pharmaceutical drugs for treatment of cardiovascular diseases. Other lesser known functions of ACE are degradation of bradykinin, substance P, and amyloid beta-protein. Angiotensin converting enzyme (ACE) is well known for its dual actions in converting inactive Ang I to active Ang II and degrade active bradykinin (BK), which play an important role in the control of blood pressure. Since the bottle neck step is the production of pressor Ang II, this was targeted pharmacologically in 1970s and successful ACE inhibitors such as captopril were produced to treat hypertension. ACE2 was identified as the receptor for SARS (severe acute respiratory syndrome) coronavirus, which caused the outbreak of an epidemic in 2002–2003. Two isozymes of ACE are present in mammals: somatic ACE and testis ACE. Somatic ACE possesses two catalytic domains (N- and C-domains) and a C-terminal transmembrane segment (stalk). Somatic and testis ACEs in humans contain 1,306 and 665 aa residues, respectively. Testis ACE only possesses one catalytic domain. Both catalytic domains are zinc-metallopeptidase with the active motif HEMGH where the two histidine residues coordinate the zinc ion. The stalk anchors the enzyme on the membrane and is susceptible to be cleaved by shedding enzymes, resulting in plasma ACE activity. Somatic ACE is expressed in various tissues including blood vessels, kidney, intestine, adrenal gland, liver, and uterus, and is especially abundant in highly vascular organs such as retina and lung. Testis ACE is expressed by postmeiotic male germ cells and high-level expression is found in round and elongated spermatids. ACE2 is expressed in lung, liver, intestine, brain, testis, heart, and kidney. Lung possesses the highest amount of ACE. Expression of ACE is affected by steroids and thyroid hormone, but the details of the regulation are not clear. ACE is under promoter regulation by hypoxia-inducing factor 1α (HIF-1α), which upregulates the ACE expression under hypoxic conditions, resulting in an increase in Ang II concentration. The well-known function of ACE is the conversion of Ang I to Ang II and degradation of BK, which all play an important role in controlling blood pressure. ACE also acts on other natural substrates including encephalin, neurotensin, and substance P. Besides being involved in blood pressure control, ACE possesses widespread functions including renal development, male fertility, hematopoiesis, erythropoiesis, myelopoiesis, and immune responses. ACE has been the target of hypertension control since the 1970s. ACE inhibitors are prescribed as the sole or combinational treatment of high blood pressure, for the dual effects of lowering Ang II and slowing down BK degradation. Angiotensin II binds to the type 1 angiotensin II receptor (AT1), which sets off a number of actions that result in vasoconstriction and therefore increased blood pressure. The B2 (bradykinin 2) receptor is constitutively expressed and participates in bradykinin's vasodilatory role, it is a G protein coupled receptor.
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Creator: Hayley Created On: September 12, 2023 at 09:04 Last Updated: September 12, 2023 at 09:04 |