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Pathways

PathWhiz ID Pathway Meta Data

PW145352

Pw145352 View Pathway
drug action

Varenicline Drug Metabolism Action Pathway

Homo sapiens

PW144258

Pw144258 View Pathway
drug action

Vasopressin Drug Metabolism Action Pathway

Homo sapiens

PW000447

Pw000447 View Pathway
protein

Vasopressin Regulation of Water Homeostasis

Homo sapiens
The vasopressin V2 receptor is found in the kidneys. It serves a role in maintaining corporal water homeostasis. Malfunction of this receptor can lead to Nephrogenic Diabetes Insipidus. Vasopressin (aka Antidiuretic hormone) activates both follicle-stimulating hormone receptor as well as the V2 receptor G protein complex. From this complex, Guanine nucleotide binding protein G(s) protein reacts with Adenylate Cyclase Type 2, Adeonsine Triphosphate, as well as GTP and magnesium to produce cAMP and Pyrophosphate. cAMP then activates PKA (protein kinase A) which leads to changes in the concentration of water in urine.

PW109223

Pw109223 View Pathway
protein

Vasopressin Regulation of Water Homeostasis

Bos taurus
The vasopressin V2 receptor is found in the kidneys. It serves a role in maintaining corporal water homeostasis. Malfunction of this receptor can lead to Nephrogenic Diabetes Insipidus. Vasopressin (aka Antidiuretic hormone) activates both follicle-stimulating hormone receptor as well as the V2 receptor G protein complex. From this complex, Guanine nucleotide binding protein G(s) protein reacts with Adenylate Cyclase Type 2, Adeonsine Triphosphate, as well as GTP and magnesium to produce cAMP and Pyrophosphate. cAMP then activates PKA (protein kinase A) which leads to changes in the concentration of water in urine.

PW109263

Pw109263 View Pathway
protein

Vasopressin Regulation of Water Homeostasis

Rattus norvegicus
The vasopressin V2 receptor is found in the kidneys. It serves a role in maintaining corporal water homeostasis. Malfunction of this receptor can lead to Nephrogenic Diabetes Insipidus. Vasopressin (aka Antidiuretic hormone) activates both follicle-stimulating hormone receptor as well as the V2 receptor G protein complex. From this complex, Guanine nucleotide binding protein G(s) protein reacts with Adenylate Cyclase Type 2, Adeonsine Triphosphate, as well as GTP and magnesium to produce cAMP and Pyrophosphate. cAMP then activates PKA (protein kinase A) which leads to changes in the concentration of water in urine.

PW109175

Pw109175 View Pathway
protein

Vasopressin Regulation of Water Homeostasis

Mus musculus
The vasopressin V2 receptor is found in the kidneys. It serves a role in maintaining corporal water homeostasis. Malfunction of this receptor can lead to Nephrogenic Diabetes Insipidus. Vasopressin (aka Antidiuretic hormone) activates both follicle-stimulating hormone receptor as well as the V2 receptor G protein complex. From this complex, Guanine nucleotide binding protein G(s) protein reacts with Adenylate Cyclase Type 2, Adeonsine Triphosphate, as well as GTP and magnesium to produce cAMP and Pyrophosphate. cAMP then activates PKA (protein kinase A) which leads to changes in the concentration of water in urine.

PW000237

Pw000237 View Pathway
drug action

Vatalanib Action Pathway

Homo sapiens
Vatalanib is an anti-VEGFR molecule in the treatment of cancer. Cancer cells tend to overexpress VEGF, which stimulates angiogenesis, facilitating cancer growth and metastasis. The majority of VEGF’s effects are mediated through its binding to the VEGFR-2 receptor on endothelial cell surfaces. Upon binding, the receptor autophosphorylates and initiates a signalling cascade, starting with the activation of CSK. CSK phosphorylates Raf-1, which subsequently phosphorylates MAP kinase kinase, which phosphorylates MAP kinase. The activated MAP kinase enters the nucleus and stimulates the expression of angiogenic factors resulting in increased cell proliferation, migration, permeability, invasion, and survival. Binding of VEGF to VEGFR-2 also activates phospholipase C PIP2 into DAG and IP3. DAG may be involved in the activation of Raf-1 leading to angiogenesis, while IP3 activates PI3K and triggers calcium release from the endoplasmic reticulum. This ultimately leads to the activation of nitric oxide synthase and the production of nitric oxide, which stimulates vasodilation and increases vascular permeability. In cancer, VEGF has also been shown to bind to the VEGFR-1 receptor. However, its effects on angiogenesis are unclear at the moment. There are some evidence to show that VEGFR-1 may cross-talk with VEGFR-2 and initiate the signalling cascades described above. Vatalanib exerts its effect by binding to intracellular tyrosine kinase domain of VEGFR-2 and preventing receptor autophosphorylation and activation of downstream pathways, resulting in suppression of angiogenesis.

PW145385

Pw145385 View Pathway
drug action

Vecuronium Drug Metabolism Action Pathway

Homo sapiens

PW127517

Pw127517 View Pathway
drug action

Velpatasvir Action Pathway

Homo sapiens
Velpatasvir is a NS5A inhibitor used to treat chronic hepatitis C infections in patients without cirrhosis or with compensated cirrhosis, used as part of combination therapy to treat chronic Hepatitis C. Notably, velpatasvir has a significantly higher barrier to resistance than the first generation NS5A inhibitors, such as Ledipasvir and Daclatasvir, making it a highly potent and reliable alternative for treatment of chronic Hepatitis C. Hepatitis C virus lipoviroparticles enter target hepatocytes via receptor-mediated endocytosis. The lipoviroparticles attach to LDL-R and SR-B1, and then the virus binds to CD81 and subsequently claudin-1 and occludin, which mediate the late steps of viral entry. The virus is internalized by clathrin-dependent endocytosis. RNA is released from the mature Hepatitis C virion and translated at the rough endoplasmic reticulum into a single Genome polyprotein. The genome polyprotein is cleaved by host and viral proteases into 10 viral proteins. The nucleocapsid protein core and the two envelope proteins E1 and E2 form the N terminus of the polyprotein and are the structural components of HCV virions. The precursor also gives rise to the viroporin p7 and six non-structural (NS) proteins Velpatasvir is an inhibitor of the Hepatitis C Virus (HCV) Nonstructural protein 5A, which is required for viral RNA replication and assembly of HCV virions. The exact mechanism of this protein is unknown. Velpatasvir's mechanism of action is likely similar to other selective NS5A inhibitors which bind domain I of NS5A consisting of amino acids 33-202. NS5A inhibitors compete with RNA for binding at this site. It is also thought that NS5A inhibitors bind the target during its action in replication when the binding site is exposed. Viral RNA replication complexes localize to lipid raft-containing, detergent-resistant membranes created by the viral protein NS4B. For full viral replication and maturation, replication complexes need to be in close proximity to lipid droplets, which requires the protein nonstructural protein 5A. Without the lipid droplet due to inhibition of nonstructural protein 5A, full viral RNA replication is unable to occur. Envelope glycoproteins are acquired through budding into the endoplasmic reticulum lumen. The immature, non-infective virions are released via the cellular golgi apparatus.

PW146403

Pw146403 View Pathway
drug action

Velpatasvir Drug Metabolism Action Pathway

Homo sapiens