Modulace míšního synaptického přenosu při vzniku bolestivých stavů / Modulation of synaptic transmission in the development of painful states

Slepička, Jakub

January 2019

My thesis introduces the topic of nociceptive signalisation and processes involved in the formation and spreading of neuropathic pain. This study focuses on the mechanisms of nociceptive synaptic transmission mechanisms in the level of spinal dorsal horn and its modulation by paclitaxel, a chemotherapeutic drug inducing neuropathic changes. The attention is put especially on the possibility of glial activity participation in paclitaxel side effects. This idea stems from the existing hypothesis of the functional connection between TLR4 and TRPV1 receptor activity. TRPV1 is well known for its participation in chemical, thermal and nociceptive sensory transmission. Minocycline antibiotic is considered as an inhibitor of microglial activation therefore it was used for blocking neuroinflammation. The experimental part is comparing an impact of substances applied to the model of tachyphylaxis used for monitoring of nociceptive transmission changes according to decreasing activity of TRPV1 receptors. Electrophysiological recording of miniature excitatory postsynaptic currents from neurons in the Rexed laminae I. and II. of spinal dorsal horn was used. The results of my measurements show that minocycline is able to suppress acute effects of paclitaxel application in vitro if the spinal slice is incubated...

Studium molekulárních interakcí opioidních a TRPV1 receptorů / Studies on molecular interactions of the mu-opioid and TRPV1 receptors

Melkes, Barbora

January 2020

In this work, we investigated the behavior of the -opioid receptor (MOR) and the transient receptor potential vanilloid 1 (TRPV1) ion channel in the plasma membrane and their mutual communication. Both these receptors are implicated in pain perception and analgesia. We observed that the lateral mobility of MOR was strongly affected by different biased opioid agonists. DAMGO and endomorphin-2 display opposite bias towards MOR. According to our results, they also have the opposite effects on the mobility of MOR. Morphine induced only small changes in the mobility of MOR. Moreover, cholesterol depletion and blockage of G protein signaling by pertussis toxin (PTX) affected the ability of different MOR agonists to alter MOR mobility in a unique manner. The effects of DAMGO and endomorphin-2 were compromised under these conditions. On the other hand, we observed increased movement of MOR after the addition of morphine. PTX alone did not affect receptor movement, but it completely disrupted the effect of cholesterol depletion on morphine induced changes the mobility of MOR. Next we studied the mobility of TRPV1. The TRPV1 agonist capsaicin changed the lateral mobility of TRPV1. Surprisingly, after adding the MOR antagonist naloxone, the apparent diffusion coefficient of TRPV1 but to a lower extent than...

Význam modulace nociceptivního synaptického přenosu na míšní úrovni za různých bolestivých stavů / The role of nociceptive synaptic transmission modulation at the spinal cord level in different pain states

Adámek, Pavel

January 2019

Pain is a common symptom of many clinical syndromes and diseases. In particular, the treatment of neuropathic pain represents a serious public health issue because currently available analgesia is ineffective in many cases or it has adverse effects. Treatment of pain-related suffering requires knowledge of how pain signals are initially generated and subsequently transmitted by the nervous system. A nociceptive system plays a key role in this process of encoding and transmission of pain signals. Modulation of the nociceptive synaptic transmission in the spinal cord dorsal horn represents an important mechanism in the development and maintenance of different pathological pain states. This doctoral thesis has aimed to investigate and clarify some of the mechanisms involved in the modulation of the spinal nociceptive processing in different pain states. The main attention was paid to study the following issues: (I.) Which is the role of Transient Receptor Potential Vanilloid type 1 channels (TRPV1), Toll-Like Receptors 4 (TLR4), and phosphatidylinositol 3-kinase (PI3K) in the development of neuropathic pain induced by paclitaxel (PAC) chemotherapy in acute in vitro, and subchronic in vivo murine model of PAC-induced peripheral neuropathy (PIPN)? (II.) How is affected spinal inhibitory synaptic control...

The Effect of High Cervical Spinal Cord Stimulation on the Expression of SP, Nk-1 and TRPV1 mRNAs During Cardiac Ischemia in Rat

Ding, Xiao Hui, Mountain, Deidra J.Hopkins, Subramanian, Venkateswaran, Singh, Krishna, Williams, Carole Ann

07 September 2007

Spinal cord stimulation (SCS) is used to reduce angina that accompanies cardiac ischemia, but little is known about the molecular mechanisms mediating this effect. We studied the expression of SP, neurokinin-1 (NK-1) receptor, and transient receptor potential vanilloid type 1 (TRPV1) mRNA in the rat spinal cord at thoracic 4 (T4), cervical 2 (C2) and caudal brain stem by RT-PCR during intermittent occlusion of the left anterior descending coronary artery (CoAO), during sustained SCS by itself at the C2 spinal segment, and during sustained SCS plus intermittent CoAO. Only SP mRNA was increased significantly in T4 and brainstem during CoAO, while SCS decreased the mRNA levels of SP, NK-1 and TRPV1 significantly in T4 and the brainstem. SCS attenuated the increase of SP and TRPV1 mRNA levels at T4 level induced by intermittent CoAO when the stimulation was applied prior to the initiation of the cardiac ischemia. These results support the role for SP as a putative neurotransmitter for the myocardial ischemia-sensitive afferent neuron signal to the spinal level. They suggest that modification of the ischemic cardiac nociceptive afferent signal by SCS involves a change in SP and TRPV1 expression.

cardiac ischemia

NK-1 receptor

spinal cord stimulation (SCS)

Substance P (SP)

Biomedical Sciences

Active and Passive Biomechanical Measurements for Characterization and Stimulation of Biological Cells

Gyger, Markus

17 July 2013

From a physical perspective biological cells consist of active soft matter that exist in a thermodynamic state far from equilibrium. Not only in muscles but also during cell proliferation, wound healing, embryonic development, and many other physiological tasks, generation of forces on the scale of whole cells is required. To date, cellular contractions have been ascribed to adhesion dependent processes such as myosin driven stress fiber formation and the development of focal adhesion complexes. In this thesis it is shown for the first time that contractions can occur independently of focal adhesions in single suspended cells. To measure mechanical properties of suspended cells the Optical Stretcher – a dualbeam laser trap – was used with phase contrast video microscopy which allowed to extract the deformation of the cell for every single frame. For fluorescence imaging confocal laser scanning microscopy was employed. The ratio of the fluorescence of a temperature sensitive and a temperature insensitive rhodamine dye was utilized to determine the temperatures inside the optical trap during and after Optical Stretching. The rise in temperature at a measuring power of 0.7W turned out to be enough to open a temperature sensitive ion channel transfected into an epithelial cell line. In this way a massive Ca2+ influx was triggered during the Optical Stretcher experiment. A new setup combining Optical Stretching and confocal laser scanning microscopy allowed fluorescence imaging of these Ca2+ signals while the cells were deformed by optically induced surface forces, showing that the Ca2+ influx could be manipulated with adequate drugs. This model system was then employed to investigate the influence of Ca2+ on the observed contractions, revealing that they are partially triggered by Ca2+. A phenomenological mathematical model based on the fundamental constitutive equation for linear viscoelastic materials extended by a term accounting for active contractions allowed to quantify the activity of the measured cells. The skewness and the median of the strain distributions were shown to depend on the activity of the cells. The introduced model reveals that even in measurements, that seemingly are describable by passive viscoelasticity, active contractililty might be superimposed. Ignoring this effect will lead to erroneous material properties and misinterpretation of the data. Taken together, the findings presented in this thesis demonstrate that active processes are an essential part of cellular mechanics and cells can contract even independently of adhesions. The results provide a method that allows to quantify active contractions of suspended cells. As the proposed model is not based on specific assumptions on force generating processes, it paves the way for a thorough investigation of different influences, such as cytoskeletal structures and intra-cellular signaling processes, to cellular contractions. The results present an important contribution for better mechanical classification of cells in future research with possible implications for medical diagnosis and therapy.

info:eu-repo/classification/ddc/530

ddc:530

info:eu-repo/classification/ddc/570

ddc:570

Synthesis and evaluation of α-fluoro analogues of capsaicin and 2-(aminomethyl)piperidine derivatives

Moraux, Thomas

January 2011

Chapter 1 gives an overview of the fluorine chemistry field, from its early developments to recent applications in medicinal chemistry. The development of asymmetric electrophilic or nucleophilic installation of fluorine in organic molecules is highlighten. Chapter 2 of this thesis discusses the enantioselective synthesis of α-fluoroamides. The study is applied to the synthesis of fluoroenantiomers of the bioactive molecule capsaicin and short-chain analogues. The biological activity of these compounds is assayed with the TRPV1 receptor. Results show that enantioselective α-fluoroamides (R)-97, (R)-99 and (S)-99 can generate differentiated biological responses, from TRPV1 agonists to TRPV1 antagonists. Chapter 3 focuses on the optimisation and development of 2-(aminomethyl)piperidine (R)-251 dihydrochloride. The development of 2-(aminomethyl)piperidine (R)-251 as its ditetrafluoroborate salt proved to offer excellent reactivity and solubility for the preparation of derivatives. This tetrafluoroborate salt was used to improve the syntheses of organocatalysts 2,2,2-trifluoro-N-(piperidin-2-ylmethyl)acetamide 363 and 4-methyl-N-(piperidin-2-ylmethyl)benzenesulfonamide 364.The catalytic properties of these latter two molecules for asymmetric Mannich reaction is demonstrated. Both (R)-363 and (R)-364 show up to 86% ee, in a typical 20 mol% loading, but loading of (R)-363 as low as 5 mol% still induces the catalysis.

547.02

Cold thermal processing in the spinal cord

Wrigley, Paul John

January 2006

Doctor of Philosophy(PhD) / Two recently identified transient receptor potential (TRP) channels, TRPM8 and TRPA1, have been proposed to play an important role in mammalian cool and cold peripheral sensory transduction. When expressed in cell-lines the cloned TRPM8 and TRPA1 receptors have distinct pharmacological and temperature response characteristics. Although these receptors are also transported to the central terminals of primary afferents, little is known about their centrally mediated actions. In this thesis, I use an in vitro electrophysiological approach to investigate the dorsal horn processing of cool afferent modalities and the role of TRP ion channels. The results of this thesis provide further information on thermal processing, indicate direction for further research and suggest possible therapeutic targets for the management of abnormal cold sensory processing. Initial experiments demonstrate that the cooling agents and known TRPM8 and TRPA1 agonists, menthol and icilin, inhibit primary afferent evoked excitatory postsynaptic currents (EPSCs) in rat spinal cord dorsal horn neurons. In addition, temperature reduction, menthol and icilin increase the frequency of miniature EPSCs without affecting amplitude distribution or kinetics. Little or no direct postsynaptic effect on dorsal horn neurons, GABAergic or glycinergic transmission was found. In combination, these observations demonstrate that temperature reduction, menthol and icilin act presynaptically to increase the probability of glutamate release from primary afferent fibres. Further examination of the changes in glutamatergic synaptic transmission induced by temperature reduction, menthol and icilin reveals a subset of neurons sensitive to innocuous cool (< 29 oC) and low concentrations of icilin (3-10 µM) which closely match the temperature activation and pharmacological profile of TRPM8. In addition, the majority of lamina I and II neurons displayed characteristics partly consistent with TRPA1-activation, including a concentration-dependent response to icilin and blockade by ruthenium red. The present experiments did not allow thermal characterisation of these TRPA1-like responses. Together these observations indicate that the effects of menthol and icilin on glutamatergic synaptic transmission in the superficial dorsal horn are mediated by TRPM8 and possibly by TRPA1. Examination of the anatomical location of neurons activated by temperature reduction, menthol, icilin and capsaicin allowed the central termination pattern of thermoreceptive primary afferent fibres with specific TRP-like response characteristics to be determined. TRPM8-like presynaptic activation was confined to a subpopulation of neurons located in lamina I and outer lamina II, while the majority of neurons throughout laminae I and II received inputs sensitive to menthol, high concentrations of icilin and capsaicin. These findings suggest that innocuous cool sensation projects to a specific subpopulation of superficial dorsal horn neurons unlike other modalities (mediated by TRPV1, possibly TRPA1 and other receptors), which non-selectively engage circuits within the entire superficial dorsal horn. No morphological specificity was identified for recovered neurons after electrophysiological characterisation. Finally, mu-opioids were shown to inhibit basal glutamatergic synaptic transmission as well as menthol- and icilin-induced transmission in the superficial dorsal horn. Of particular interest, delta-opioids selectively inhibited icilin-induced synaptic transmission within the same location. The selective effect of delta-opioids suggests a possible role in modulating receptors activated by icilin (TRPM8 and TRPA1). Overall, this thesis provides further evidence that TRPM8 is responsible for the transduction of innocuous cold sensation in mammals and is a potential therapeutic target in humans with cold hyperaesthesia secondary to abnormal thermal processing. The use of delta-opioid agonists warrants further investigation in cold hypersensitivity states and potentially other forms of pain.

cold

cool

central thermal processing

spinal cord

superficial dorsal horn

synaptic transmission

whole-cell patch clamping

transient receptor potential receptors

TRPM8

TRPA1

TRPV1

menthol

icilin

capsaicin

opioid agonists

delta-opioid agonists

Cold thermal processing in the spinal cord

Wrigley, Paul John

January 2006

Doctor of Philosophy(PhD) / Two recently identified transient receptor potential (TRP) channels, TRPM8 and TRPA1, have been proposed to play an important role in mammalian cool and cold peripheral sensory transduction. When expressed in cell-lines the cloned TRPM8 and TRPA1 receptors have distinct pharmacological and temperature response characteristics. Although these receptors are also transported to the central terminals of primary afferents, little is known about their centrally mediated actions. In this thesis, I use an in vitro electrophysiological approach to investigate the dorsal horn processing of cool afferent modalities and the role of TRP ion channels. The results of this thesis provide further information on thermal processing, indicate direction for further research and suggest possible therapeutic targets for the management of abnormal cold sensory processing. Initial experiments demonstrate that the cooling agents and known TRPM8 and TRPA1 agonists, menthol and icilin, inhibit primary afferent evoked excitatory postsynaptic currents (EPSCs) in rat spinal cord dorsal horn neurons. In addition, temperature reduction, menthol and icilin increase the frequency of miniature EPSCs without affecting amplitude distribution or kinetics. Little or no direct postsynaptic effect on dorsal horn neurons, GABAergic or glycinergic transmission was found. In combination, these observations demonstrate that temperature reduction, menthol and icilin act presynaptically to increase the probability of glutamate release from primary afferent fibres. Further examination of the changes in glutamatergic synaptic transmission induced by temperature reduction, menthol and icilin reveals a subset of neurons sensitive to innocuous cool (< 29 oC) and low concentrations of icilin (3-10 µM) which closely match the temperature activation and pharmacological profile of TRPM8. In addition, the majority of lamina I and II neurons displayed characteristics partly consistent with TRPA1-activation, including a concentration-dependent response to icilin and blockade by ruthenium red. The present experiments did not allow thermal characterisation of these TRPA1-like responses. Together these observations indicate that the effects of menthol and icilin on glutamatergic synaptic transmission in the superficial dorsal horn are mediated by TRPM8 and possibly by TRPA1. Examination of the anatomical location of neurons activated by temperature reduction, menthol, icilin and capsaicin allowed the central termination pattern of thermoreceptive primary afferent fibres with specific TRP-like response characteristics to be determined. TRPM8-like presynaptic activation was confined to a subpopulation of neurons located in lamina I and outer lamina II, while the majority of neurons throughout laminae I and II received inputs sensitive to menthol, high concentrations of icilin and capsaicin. These findings suggest that innocuous cool sensation projects to a specific subpopulation of superficial dorsal horn neurons unlike other modalities (mediated by TRPV1, possibly TRPA1 and other receptors), which non-selectively engage circuits within the entire superficial dorsal horn. No morphological specificity was identified for recovered neurons after electrophysiological characterisation. Finally, mu-opioids were shown to inhibit basal glutamatergic synaptic transmission as well as menthol- and icilin-induced transmission in the superficial dorsal horn. Of particular interest, delta-opioids selectively inhibited icilin-induced synaptic transmission within the same location. The selective effect of delta-opioids suggests a possible role in modulating receptors activated by icilin (TRPM8 and TRPA1). Overall, this thesis provides further evidence that TRPM8 is responsible for the transduction of innocuous cold sensation in mammals and is a potential therapeutic target in humans with cold hyperaesthesia secondary to abnormal thermal processing. The use of delta-opioid agonists warrants further investigation in cold hypersensitivity states and potentially other forms of pain.

cold

cool

central thermal processing

spinal cord

superficial dorsal horn

synaptic transmission

whole-cell patch clamping

transient receptor potential receptors

TRPM8

TRPA1

TRPV1

menthol

icilin

capsaicin

opioid agonists

delta-opioid agonists

Mechanizmy aktivace a modulace iontových kanálů specifických pro nociceptivní neurony / Mechanisms of Activation and Modulation of Ion Channels Specific for Nociceptive Neurones

Touška, Filip

January 2019

Human body detects potentially damaging stimuli by specialized sensory nerve endings in the skin, the nociceptors. Their membranes are equipped with ion channels, molecular sensors, coding the outside stimuli into the trains of action potentials and conducting them to the higher brain centers. The most prominent group of transduction ion channels is the transient receptor potential (TRP) channel family followed by ion channels responsible for generation and conduction of action potentials from the periphery to the brain, the voltage-gated sodium channels (VGSCs). Understanding the mechanisms how particular stimulus is encoded and processed is of particular importance to find therapeutics for various types of pain conditions. We characterized the properties of VGSC subtypes NaV1.9 and NaV1.8 at high temperatures. We showed that NaV1.9 undergo large increase in current with increasing temperatures and significantly contribute to the action potential generation in dorsal root ganglion (DRG) neurons. Ciguatoxins (CTXs) are sodium channels activator toxins causing ciguatera fish poisoning, a disease manifested by sensory and neurological disturbances. We elucidated the mechanism of CTX- induced cold allodynia, a pathological phenomenon where normally innocuous cool temperatures are perceived as pain. We...

Rôle du récepteur TRPV1 dans l'induction du récepteur B1 des kinines dans un modèle de douleur neuropathique

Cernit, Veronica

04 1900

No description available.

Douleur neuropathique

Récepteurs des kinines

TRPV1

Allodynie

Hyperalgésie

Astrogliose

Cytokines pro-inflammatoires

Moelle épinière

Astrocytes

Fibres sensorielles

Neuropathic pain

Kinin receptors

Allodynia

Hyperalgesia

Astrogliosis

Pro-inflammatory cytokines

Spinal cord

Primary sensory fibers