Information 2
compound that circulates in our organism. Both the THC that anandamide act through cannabinoid receptors located on the cells of our body and have a similar effect on pain, appetite and memory. The receptors are simply proteins of surveillance that are found in cells that direct the chemical signals from the outside of the molecules to the cells, telling them what to do, as a sort of air traffic controllers of our cells, but these communications occur only after that a molecule or a compound binds to them. A molecule that binds to a receptor is called ligand and the receptors are very specific at the level of what can bind to them and only certain compounds will bind to each type of receptor. It is like a padlock and key: only certain keys open specific ports and when the door is open, there is a passage. In the case of receivers, it is a passage for a directional signal. Only one cell can have various types of receptors attached to it that have the purpose of communicating with various compounds.
Cannabinoids influence on our body because it contains the above receptors, made to bind to specific molecules of cannabinoids. The human brain in fact contains more cannabinoid receptors of any other receptor coupled to G proteins!Our cells that contain so many receptors that bind specifically to the THC and the fact that our body produces its form of "natural THC" (anandamide), as in very low concentrations, has the sense in explaining why humans are so attracted by this plant. There is nothing that does not occur naturally in the way in which our body uses the cannabinoids and marijuana is proving very effective as a natural remedy and should be available for patients who need it.
So far there are only two cannabinoid receptors known in our organism that bind with the THC: CB1 receptors that are located in the brain and central nervous system and the CB2 receptors that are located throughout the body, particularly in the immune system. Apart from cannabinoids that are found in cannabis (which of course are more powerful) and those which naturally produces our organism, there are many other substances that act slightly on our system endocannabinoid inside as: Echinacea, turmerico, black pepper, cocoa, etc. It was discovered that these and other substances bind with the same cannabinoid receptors.
THE HUMAN ENDOCANNABINOID SYSTEM
Human endocannabinoid systemTHC and CBN are known for "fit" like lock and key into nework of existing receptors. The Endocannabinoid system exists to receive cannabinoids produced inside the body called "Anadnamide" and "2-Arachidonylgycerol". Stimulating the ECS with plant-based cannabinoids restores balance and helps maintain symptoms.
The cannabinoid receptors are further divided into 2 main subtypes, known as CB1 and CB2:
CB1
CB1 is found mostly in the brain and are concentrated in the brain and central nervous system, but also populates sparely other parts of the human body.
CB2
CB2 receptors are mostly found in the peripheral organs especially cells associated with the immune system.
Cannabidol
The CBD does not directly "fit" CB1 or CB2 receptors, but it has powerful indirect effects still being studied.
2# Unlike THC most of the Cannabidiol is found in the leaves and stems of the plant and make up only only
The Cannabidiol or CBD, however, has not a lot of binding affinity with none of the two cannabinoid receptors known. Instead has a suppressive effect on the FAAH enzyme (or the fatty acid amide Hydroxylase'), which is responsible for the cleavage and destruction of the anandamide.This suppressive reaction with the CBD means that will remain more anandamide in the system and for a longer time. The anandamide favors the receptor CB1, as THC, thus leaving less possibility of action for the THC that you should bind to these receptors and in turn less effect.
While the CBD does not affect binding with the CB1 or CB2, it has been demonstrated that interacts with other receptors to activate its medicinal effects. There are a couple of receptors coupled with G proteins that are located in the central and peripheral nervous system that interact with the CBD. Then there is the TRPV-1(Technical abbreviation of 'TransientReceptorPotentialCation Channel Subfamily V') that reacts to this. The Receptor TRPV-1 which is also activated by capsaicin, the compound 'hot' that is located in the chili pepper, you know that the average perception of pain, inflammation and the body temperature, as you probably have heard eating a chili very very hot.
An important function in the context of anxiety in our body is coated by the family 5-HTIA receptors activated by the neurotransmitter serotonin. These receptors trigger reactions via chemical messages that excite or inhibit depending on the chemical environment of the bond. The Receptor serotonin 5-HT1A is part of the family of receptors that bind to the CBD and when activated, exerts strong antidepressant effects of cannabinoids, which then lead to other functions of the officinal CBD, because this receptor also acts in a wide range of processes such as anxiety, dependence, appetite, sleep, perception of pain, nausea, vomiting, etc. The ago by activating a inhibitory response, slowing down its signals with respect to other drugs such as LSD, the mushrooms and hallucinogens that trigger a receptor 5-HT different that produces a response of excitation.
The CBD produces part of the anxiolytic effects by activating receptors called receptors of the adenosine. These regulate the cardiovascular functions, myocardial oxygen consumption and blood
compound that circulates in our organism. Both the THC that anandamide act through cannabinoid receptors located on the cells of our body and have a similar effect on pain, appetite and memory. The receptors are simply proteins of surveillance that are found in cells that direct the chemical signals from the outside of the molecules to the cells, telling them what to do, as a sort of air traffic controllers of our cells, but these communications occur only after that a molecule or a compound binds to them. A molecule that binds to a receptor is called ligand and the receptors are very specific at the level of what can bind to them and only certain compounds will bind to each type of receptor. It is like a padlock and key: only certain keys open specific ports and when the door is open, there is a passage. In the case of receivers, it is a passage for a directional signal. Only one cell can have various types of receptors attached to it that have the purpose of communicating with various compounds.
Cannabinoids influence on our body because it contains the above receptors, made to bind to specific molecules of cannabinoids. The human brain in fact contains more cannabinoid receptors of any other receptor coupled to G proteins!Our cells that contain so many receptors that bind specifically to the THC and the fact that our body produces its form of "natural THC" (anandamide), as in very low concentrations, has the sense in explaining why humans are so attracted by this plant. There is nothing that does not occur naturally in the way in which our body uses the cannabinoids and marijuana is proving very effective as a natural remedy and should be available for patients who need it.
So far there are only two cannabinoid receptors known in our organism that bind with the THC: CB1 receptors that are located in the brain and central nervous system and the CB2 receptors that are located throughout the body, particularly in the immune system. Apart from cannabinoids that are found in cannabis (which of course are more powerful) and those which naturally produces our organism, there are many other substances that act slightly on our system endocannabinoid inside as: Echinacea, turmerico, black pepper, cocoa, etc. It was discovered that these and other substances bind with the same cannabinoid receptors.
THE HUMAN ENDOCANNABINOID SYSTEM
Human endocannabinoid systemTHC and CBN are known for "fit" like lock and key into nework of existing receptors. The Endocannabinoid system exists to receive cannabinoids produced inside the body called "Anadnamide" and "2-Arachidonylgycerol". Stimulating the ECS with plant-based cannabinoids restores balance and helps maintain symptoms.
The cannabinoid receptors are further divided into 2 main subtypes, known as CB1 and CB2:CB1
CB1 is found mostly in the brain and are concentrated in the brain and central nervous system, but also populates sparely other parts of the human body.
CB2
CB2 receptors are mostly found in the peripheral organs especially cells associated with the immune system.
Cannabidol
The CBD does not directly "fit" CB1 or CB2 receptors, but it has powerful indirect effects still being studied.
2# Unlike THC most of the Cannabidiol is found in the leaves and stems of the plant and make up only only
The Cannabidiol or CBD, however, has not a lot of binding affinity with none of the two cannabinoid receptors known. Instead has a suppressive effect on the FAAH enzyme (or the fatty acid amide Hydroxylase'), which is responsible for the cleavage and destruction of the anandamide.This suppressive reaction with the CBD means that will remain more anandamide in the system and for a longer time. The anandamide favors the receptor CB1, as THC, thus leaving less possibility of action for the THC that you should bind to these receptors and in turn less effect.
While the CBD does not affect binding with the CB1 or CB2, it has been demonstrated that interacts with other receptors to activate its medicinal effects. There are a couple of receptors coupled with G proteins that are located in the central and peripheral nervous system that interact with the CBD. Then there is the TRPV-1(Technical abbreviation of 'TransientReceptorPotentialCation Channel Subfamily V') that reacts to this. The Receptor TRPV-1 which is also activated by capsaicin, the compound 'hot' that is located in the chili pepper, you know that the average perception of pain, inflammation and the body temperature, as you probably have heard eating a chili very very hot.
An important function in the context of anxiety in our body is coated by the family 5-HTIA receptors activated by the neurotransmitter serotonin. These receptors trigger reactions via chemical messages that excite or inhibit depending on the chemical environment of the bond. The Receptor serotonin 5-HT1A is part of the family of receptors that bind to the CBD and when activated, exerts strong antidepressant effects of cannabinoids, which then lead to other functions of the officinal CBD, because this receptor also acts in a wide range of processes such as anxiety, dependence, appetite, sleep, perception of pain, nausea, vomiting, etc. The ago by activating a inhibitory response, slowing down its signals with respect to other drugs such as LSD, the mushrooms and hallucinogens that trigger a receptor 5-HT different that
Publié le samedi, juillet 29 2017 par anotin anotin