From inflammation to pain: experimental gene therapy

Chronic pain is frequently associated with profound alterations of neuronal systems involved in pain processing and should be considered as a real disease state of the nervous system. Unfortunately, some forms of chronic pain remain difficult to be satisfactorily treated. In the search for new therapeutic strategies, the gene-based approaches are of potential interest as they offer the possibility to introduce a therapeutic protein into some relevant structures and to drive its continuous production in the near vicinity of targeted cells. Recently, these techniques have been experimented in several animal models of chronic pain, showing that transfer at the spinal level of some genes, in particular those of opioid precursors proopiomelanocortin or proenkephalin A, leading to the overproduction of products that they encode, attenuated persistent pain of both inflammatory and neuropathic origin. Thus, in polyarthritic rat, a model of chronic inflammatory pain, we demonstrated that herpes simplex virus vector mediated overexpression of proenkephalin A in primary sensory neurons at the lumbar level elicited both antihyperalgesic and anti-inflammatory activities. Apart from opioids, numerous other molecules involved in pain processing are of potential therapeutic interest for gene-based protocols. For instance, targeting some molecules involved in pain induction and perpetuation, such as proinflammatory cytokines, raises an interesting possibility to block the "development" of pain. The clinical application of these approaches remains to be established, and, presently, one of the main problems to be solved is the innocuity of virus-derived vectors. However, the experimental use of gene-based techniques might be particularly useful for the evaluation of the therapeutic interest of some recently identified molecules involved in pain processing and might finally lead to the development of new "classical" pharmacological tools.     

Pharmacological basis for the therapy of pain and inflammation with nonsteroidal anti-inflammatory drugs

Nonsteroidal anti-inflammatory drugs (NSAIDs) belong to the most frequently used drugs. The discovery of an inducible isoform of cyclo-oxygenase (COX-2) has led to an intensive worldwide search and the introduction of selective COX-2 inhibitors. In this review, recent advances in understanding the mechanism of action of NSAIDs and, in this context, clinical findings on NSAID-induced gastrointestinal side effects are summarized. This knowledge is important for the effective treatment of pain and inflammation, as well as for preventing serious and sometimes lethal gastrointestinal side effects.     

Viral vectors for gene therapy: Current state and clinical perspectives

Gene therapy is the straightforward approach for the application of recent advances in molecular biology into clinical practice. One of the major obstacles in the development of gene therapy is the delivery of the effector to and into the target cell. Unfortunately, most methods commonly used in laboratory practice are poorly suited for clinical use. Viral vectors are one of the most promising methods for gene therapy delivery. Millions of years of evolution of viruses have resulted in the development of various molecular mechanisms for entry into cells, long-term survival within cells, and activation, inhibition, or modification of the host defense mechanisms at all levels. The relatively simple organization of viruses, small genome size, and evolutionary plasticity allow modifying them to create effective instruments for gene therapy approaches. This review summarizes the latest trends in the development of gene therapy, in particular, various aspects and prospects of the development of clinical products based on viral delivery systems.     

Stem cell therapy applied for digestive anastomosis: Current state and future perspectives

BACKGROUND Digestive tract resections are usually followed by an anastomosis.Anastomotic leakage,normally due to failed healing,is the most feared complication in digestive surgery because it is associated with high morbidity and mortality.Despite technical and technological advances and focused research,its rates have remained almost unchanged the last decades.In the last two decades,stem cells(SCs)have been shown to enhance healing in animal and human studies;hence,SCs have emerged since 2008 as an alternative to improve anastomoses outcomes.AIM To summarise the published knowledge of SC utilisation as a preventative tool for hollow digestive viscera anastomotic or suture leaks.METHODS PubMed,Science Direct,Scopus and Cochrane searches were performed using the key words“anastomosis”,“colorectal/colonic anastomoses”,“anastomotic leak”,“stem cells”,“progenitor cells”,“cellular therapy”and“cell therapy”in order to identify relevant articles published in English and Spanish during the years of 2000 to 2021.Studies employing SCs,performing digestive anastomoses in hollow viscera or digestive perforation sutures and monitoring healing were finally included.Reference lists from the selected articles were reviewed to identify additional pertinent articles.METHODS Given the great variability in the study designs,anastomotic models,interventions(SCs,doses and vehicles)and outcome measures,performing a reliable meta-analysis was considered impossible,so we present the studies,their results and limitations.RESULTS Eighteen preclinical studies and three review papers were identified;no clinical studies have been published and there are no registered clinical trials.Experimental studies,mainly in rat and porcine models and occasionally in very adverse conditions such as ischaemia or colitis,have been demonstrated SCs as safe and have shown some encouraging morphological,functional and even clinical results.Mesenchymal SCs are mostly employed,and delivery routes are mainly local injections and cell sheets followed by biosutures(sutures coated by SCs)or purely topical.As potential weaknesses,animal models need to be improved to make them more comparable and equivalent to clinical practice,and the SC isolation processes need to be standardised.There is notable heterogeneity in the studies,making them difficult to compare.Further investigations are needed to establish the indications,the administration system,potential adjuvants,the final efficacy and to confirm safety and exclude definitively oncological concerns.CONCLUSION The future role of SC therapy to induce healing processes in digestive anastomoses/sutures still needs to be determined and seems to be currently far from clinical use.     

Current state and prospects for gene therapy of Duchenne muscular dystrophy in the world and in Russia

Failure of drug therapy of Duchenne muscular dystrophy (DMD) stimulated intense search for adequate methods of gene therapy (GT) which would ensure effective delivery of the dystrophin (D) gene, its long-term persistence in transfected cells, and its expression in muscle fibers. The main results of the experimental GT of DMD with the use of viral and nonviral delivery of the D gene into muscles of biological models are discussed. Delivery of a mini-gene of D with a specific muscle promoter using a modified adenoassociated virus is currently the most promising method, which will soon be available for clinical trials. The main results of the studies on the DMD GT in Russia are summarized. The results of experiments on genetic transfection of mdx mice with marker genes and various constructions with the D gene are outlined. The genes are delivered into muscles by means of gene gun, electroporation, viral oligopeptides, liposomes, microspheres, lactoferine, and other nonviral vehicles. It is emphasized that consolidation of funds and efforts of all Russian laboratories dealing with gene and cell therapy of DMD are necessary to complete the experiments and start clinical trials.     

Current state of Health Canada regulation for cellular and gene therapy products: potential cures on the horizon

We provide an overview of the regulatory framework, pathways and underlying regulatory authority for cell, gene and tissue-engineered therapies in Canada. Canada's regulatory approach uses three sets of regulations, namely, the Cells, Tissues and Organs Regulations, the Food and Drug Regulations and the Medical Devices Regulations. We provide an overview of each these sets of regulations as they apply to clinical investigation to post-market product lifecycle stages. Information is provided on the current sources of relevant Health Canada guidance documents. We highlight several regional success stories including Prochymal, a cell therapy product that achieved Canadian regulatory approval using the conditional marketing approval system. We also examine the perceived gaps in the Canadian regulations and how those gaps are being addressed by interactions between the government, stakeholders and international bodies. We conclude that the risk-benefit approach used by Health Canada for regulatory approval processes is sufficiently flexible to enable to development of novel cell and gene therapy products in Canada, yet stringent enough to protect patient safety.     

Current prospective of aldose reductase inhibition in the therapy of allergic airway inflammation in asthma

The prevalence of asthma and costs of its care have been continuously increasing, but novel therapeutic options to treat this inflammatory disease have not been brought to the US market. Current therapies such as inhaled steroids, long-acting beta-agonist bronchodilators, antihistamines and immunomodulators may control the symptoms of allergic asthma but fail to modify the underlying disease. Excessive use of steroids and other immunosuppresents alter the patient's quality of life, produce undesirable toxicities, and increase the risk of other pathologies such as diabetes. Hence novel therapeutic options to manage asthma are desirable. In the present review, we have discussed the role of the polyol pathway enzyme aldose reductase (AR) in the amplification of allergic airway inflammation. Recent studies have indicated that AR inhibition prevents the NF-κB-dependent generation of pro-inflammatory cytokines and chemokines in mouse models of allergic airway inflammation indicating the potential use of AR inhibition as a novel tool to control allergic responses. Since orally available AR inhibitors have already undergone phase III clinical trials for diabetic neuropathy and appear to have a manageable side effects profile, they could be readily developed as potential new drugs for the treatment of asthma and related complications.     

Current state of practice regarding testosterone supplementation therapy in men with prostate cancer

Hypogonadal men are characterized by low serum testosterone and symptoms of low energy, decreased libido, and muscle mass as well as impaired concentration and sexual functioning. Men with prostate cancer (PCa) currently on active surveillance or post-therapy, have traditionally been excluded from management paradigms given the decade-old concern that testosterone caused PCa growth. However, there appears to be little or no relationship between serum testosterone concentration and PCa. Androgen action in the prostate has long been known to be affected by the kinetics of receptor saturation and, as such, testosterone beyond a certain baseline is unable to stimulate prostatic growth due to complete intra-prostatic androgen receptor binding. Given this physiologic concept, many clinical investigators have begun to promote testosterone supplementation therapy (TST) as safe in men with PCa. This review examines the basics of testosterone physiology and summarizes the most recent findings on the use of TST in men with PCa on active surveillance and following treatment with external beam radiotherapy, brachytherapy and radical prostatectomy.     

Selective P2X7 receptor antagonists for chronic inflammation and pain

ATP, acting on P2X₇ receptors, stimulates changes in intracellular calcium concentrations, maturation, and release of interleukin-1β (IL-1β), and following prolonged agonist exposure, cell death. The functional effects of P2X₇ receptor activation facilitate several proinflammatory processes associated with arthritis. Within the nervous system, these proinflammatory processes may also contribute to the development and maintenance of chronic pain. Emerging data from genetic knockout studies have indicated specific roles for P2X₇ receptors in inflammatory and neuropathic pain states. The discovery of multiple distinct chemical series of potent and highly selective P2X₇ receptor antagonists have enhanced our understanding of P2X₇ receptor pharmacology and the diverse array of P2X₇ receptor signaling mechanisms. These antagonists have provided mechanistic insight into the role(s) P2X₇ receptors play under pathophysiological conditions. In this review, we integrate the recent discoveries of novel P2X₇ receptor-selective antagonists with a brief update on P2X₇ receptor pharmacology and its therapeutic potential.     

Role of neurogenic inflammation in pancreatitis and pancreatic pain

Pain arising from pancreatic diseases can become chronic and difficult to treat. There is a paucity of knowledge regarding the mechanisms that sensitize neural pathways that transmit noxious information from visceral organs. In this review, neurogenic inflammation is presented as a possible amplifier of the noxious signal from peripheral organs including the pancreas. The nerve pathways that transmit pancreatic pain are also reviewed as a conduit of the amplified signals. It is likely that components of these visceral pain pathways can also be sensitized after neurogenic inflammation.     

Protease signaling to G protein-coupled receptors: implications for inflammation and pain

Proteases, like thrombin, trypsin, cathepsins, or tryptase, can signal to cells by cleaving in a specific manner, a family of G protein-coupled receptors, the protease-activated receptors (PARs). Proteases cleave the extracellular N-terminal domain of PARs to reveal tethered ligand domains that bind to and activate the receptors. Recent evidence has supported the involvement of PARs in inflammation and pain. Activation of PAR(1), PAR(2), and PAR(4) either by proteinases or by selective agonists causes inflammation inducing most of the cardinal signs of inflammation: swelling, redness, and pain. Recent studies suggest a crucial role for the different PARs in innate immune response. The role of PARs in the activation of pain pathways appears to be dual. Subinflammatory doses of PAR(2) agonists induce hyperalgesia and allodynia, and PAR(2) activation has been implicated in the generation of inflammatory hyperalgesia. In contrast, subinflammatory doses of PAR(1) or PAR(4) increase nociceptive threshold, inhibiting inflammatory hyperalgesia, thereby acting as analgesic mediators. PARs have to be considered as an additional subclass of G protein-coupled receptors that are active participants to inflammation and pain responses and that could constitute potential novel therapeutic targets.     

Evidence for local inflammation in complex regional pain syndrome type 1

BACKGROUND: The pathophysiology of complex regional pain syndrome type 1 (CRPS 1) is still a matter of debate. Peripheral afferent, efferent and central mechanisms are supposed. Based on clinical signs and symptoms (e.g. oedema, local temperature changes and chronic pain) local inflammation is suspected. AIM: To determine the involvement of neuropetides, cytokines and eicosanoids as locally formed mediators of inflammation. METHODS: In this study, nine patients with proven CRPS 1 were included. Disease activity and impairment was determined by means of a Visual Analogue Scale, the McGill Pain Questionnaire, the difference in volume and temperature between involved and uninvolved extremities, and the reduction in active range of motion of the involved extremity. Venous blood was sampled from and suction blisters made on the involved and uninvolved extremities for measurement of cytokines interleukin (IL)-6, II-1beta and tumour necrosis factor-alpha (TNF-alpha), the neuropetides NPY and CRGP, and prostaglandin E2RESULTS: The patients included in this study did have a moderate to serious disease activity and impairment. In plasma, no changes of mediators of inflammation were observed. In blister fluid, however, significantly higher levels of IL-6 and TNF-alpha in the involved extremity were observed in comparison with the uninvolved extremity. CONCLUSIONS: This is the first time that involvement of mediators of inflammation in CRPS 1 has been so clearly and directly demonstrated. This observation opens new approaches for the succesful use and development of immunosuppressives in CRPS 1.     

The role of TRPA1 in visceral inflammation and pain

Despite significant progress in our understanding of the cellular and molecular mechanisms underlying sensory transduction and nociception, clinical pain management remains a considerable challenge in health care and basic research. The identification of the superfamily of transient receptor potential (TRP) cation channels, particularly TRPV1 and TRPA1, has shed light on the molecular basis of pain signaling during inflammatory conditions. TRPV1 and TRPA1 are considered as potential targets in the treatment of inflammatory pain because of their ability to be activated by nociceptive signals and sensitized by pro-inflammatory mediators. Notably, TRPA1 is expressed in visceral afferent neurons and is known to participate in inflammatory responses and the establishment of hypersensitivity. This review summarizes the current knowledge of the role of TRPA1 in sensory transduction, particularly in the context of visceral inflammation and pain in the gastrointestinal and urinary tracts.     

A data-driven acute inflammation therapy

Acute inflammation is a severe medical condition defined as an inflammatory response of the body to an infection. Its rapid progression requires quick and accurate decisions from clinicians. Inadequate and delayed decisions makes acute inflammation the 10th leading cause of death overall in United States with the estimated cost of treatment about $17 billion annually. However, despite the need, there are limited number of methods that could assist clinicians to determine optimal therapies for acute inflammation. We developed a data-driven method for suggesting optimal therapy by using machine learning model that is learned on historical patients' behaviors. To reduce both the risk of failure and the expense for clinical trials, our method is evaluated on a virtual patients generated by a mathematical model that emulates inflammatory response. In conducted experiments, acute inflammation was handled with two complimentary pro- and anti-inflammatory medications which adequate timing and doses are crucial for the successful outcome. Our experiments show that the dosage regimen assigned with our data-driven method significantly improves the percentage of healthy patients when compared to results by other methods used in clinical practice and found in literature. Our method saved 88% of patients that would otherwise die within a week, while the best method found in literature saved only 73% of patients. At the same time, our method used lower doses of medications than alternatives. In addition, our method achieved better results than alternatives when only incomplete or noisy measurements were available over time as well as it was less affected by therapy delay. The presented results provide strong evidence that models from the artificial intelligence community have a potential for development of personalized treatment strategies for acute inflammation.     

The role of TRPA1 in visceral inflammation and pain

Despite significant progress in our understanding of the cellular and molecular mechanisms underlying sensory transduction and nociception, clinical pain management remains a considerable challenge in health care and basic research. The identification of the superfamily of transient receptor potential (TRP) cation channels, particularly TRPV1 and TRPA1, has shed light on the molecular basis of pain signaling during inflammatory conditions. TRPV1 and TRPA1 are considered as potential targets in the treatment of inflammatory pain because of their ability to be activated by nociceptive signals and sensitized by pro-inflammatory mediators. Notably, TRPA1 is expressed in visceral afferent neurons and is known to participate in inflammatory responses and the establishment of hypersensitivity. This review summarizes the current knowledge of the role of TRPA1 in sensory transduction, particularly in the context of visceral inflammation and pain in the gastrointestinal and urinary tracts.