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Physiological functions of muscarinic receptor M3
Urbánková, Anna ; Randáková, Alena (advisor) ; Rudajev, Vladimír (referee)
Muscarinic receptors belong to the family of G-protein coupled receptors. G-proteins are heterotrimeric GTP-binding proteins that transfer signals from receptors to effectors. Effectors change levels of second messengers in the cell. Individual subtypes of muscarinic receptors bind to various classes of G-proteins. According to the G-protein coupling, muscarinic receptors change levels of various second messengers. Individual subtypes of the muscarinic receptor also differ in location and function. The M3 muscarinic receptor subtype is located primarily on the periphery where it mediates smooth muscle contraction and endocrine and exocrine secretion. The goal of this bachelor thesis was to describe the tissue-specific signalling pathways of the M3 receptor and their physiological roles in the periphery as well as in the central nervous system. Further, the role of M3 receptors in several pathologies is described. Finally, the M3 receptors as a possible pharmacological target will be discussed. Key words: muscarinic receptors M3, cell signaling, G-proteins
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Physiological functions of muscarinic receptor M3
Urbánková, Anna ; Randáková, Alena (advisor) ; Rudajev, Vladimír (referee)
Muscarinic receptors belong to the family of G-protein coupled receptors. G-proteins are heterotrimeric GTP-binding proteins that transfer signals from receptors to effectors. Effectors change levels of second messengers in the cell. Individual subtypes of muscarinic receptors bind to various classes of G-proteins.According to the G-protein coupling, muscarinic receptors change levels of various second messengers. Individual subtypes of the muscarinic receptor also differ in location and function. The M3 muscarinic receptor subtype is located primarily on the periphery where it mediates smooth muscle contraction and endocrine secretion. The goal of this bachelor thesis was to describe the tissue-specific signalling pathways of the M3 receptor and their physiological roles in the periphery as well as in the central nervous system. Further, the role of M3 receptors in several pathologies is described. Finally, the M3 receptors as a possible pharmacological target will be discussed. Key words: muscarinic receptors M3, cell signaling, G-proteins
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Clinical importance and mechanisms of action of morphine and methadone
Slušná, Michaela ; Novotný, Jiří (advisor) ; Hejnová, Lucie (referee)
This bachelor thesis deals with gathering the information regarding the clinical importance of opioid drugs, particularly morphine and methadone, and their mechanism of action. Awareness of health professionals and the general public on opioid is inadequate. This evokes unnecessary anxiety of uninformed patients by the treatment of this kind of drugs. This thesis contains information that should know each worker in the health sector. It deals with pharmacodynamics, which is important for understanding the effects of drugs, both biochemical and physiological as well as pharmacokinetics, which describes how the body compensates for the delivered drug. Usage of morphine and methadone is currently irreplaceable. Morphine is a strong analgesic effective control of pain of different origin. Methadone is used for the substitutive treatment of people addicted to opioids. The side effects occurring during the treatment with opioids are acceptable with regard to severe pain, which is attenuated by opioids.
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Opioids as model drugs for exploring the mechanism underlying the development of drug dependence
Trojánková, Nikola ; Novotný, Jiří (advisor) ; Hejnová, Lucie (referee)
The aim of this bachelor thesis was to gather knowledge about the mechanisms of addiction, where opioids served as model compounds. Opioids are substances commonly used to treat acute and severe pain as in cancer treatment. However, long-term administration of these drugs killing, after a time reaches the ceiling, which is caused by rapid onset of analgesic tolerance and the slow development of tolerance to the secondary side effects. To achieve the same effect has to be constantly increasing dose, leading to the emergence and development of dependence. Mechanisms of drug addiction are still not fully elucidated, but recent studies agree that a very significant role in these events are membrane-bound opioid receptors and adenylyl cyclase signaling system that regulates intracellular levels of cAMP and CREB and FosB as transcription factors. Very important are the so-called epigenetic mechanisms, such as post-translational modification of histones and DNA or gene expression.
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Clinical importance and mechanisms of action of morphine and methadone
Slušná, Michaela ; Hejnová, Lucie (referee) ; Novotný, Jiří (advisor)
This bachelor thesis deals with gathering the information regarding the clinical importance of opioid drugs, particularly morphine and methadone, and their mechanism of action. Awareness of health professionals and the general public on opioid is inadequate. This evokes unnecessary anxiety of uninformed patients by the treatment of this kind of drugs. This thesis contains information that should know each worker in the health sector. It deals with pharmacodynamics, which is important for understanding the effects of drugs, both biochemical and physiological as well as pharmacokinetics, which describes how the body compensates for the delivered drug. Usage of morphine and methadone is currently irreplaceable. Morphine is a strong analgesic effective control of pain of different origin. Methadone is used for the substitutive treatment of people addicted to opioids. The side effects occurring during the treatment with opioids are acceptable with regard to severe pain, which is attenuated by opioids.
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