Your search keyword '"neurotrophins"' showing total 10,688 results

201. In silico identification of novel stilbenes analogs for potential multi-targeted drugs against Alzheimer's disease.

Author

Firdoos, Sundas, Dai, Rongji, Tahir, Rana Adnan, Khan, Zahid Younas, Li, Hui, Zhang, Jun, Ni, Junjun, Quan, Zhenzhen, and Qing, Hong

Subjects

*ALZHEIMER'S disease, *ACETYLCHOLINESTERASE, *BRAIN-derived neurotrophic factor, *NERVE growth factor, *STILBENE derivatives, *NEUROTROPHINS, *ROOT-mean-squares, *STILBENE, *CHOLINESTERASES

Abstract

Context: Alzheimer's disease (AD) is a chronic progressive neurodegenerative syndrome, which adversely disturbs cognitive abilities as well as intellectual processes and frequently occurs in the elderly. Inhibition of cholinesterase is a valuable approach to upsurge acetylcholine concentrations in the brain and persuades the development of multi-targeted ligands against cholinesterases. Methods: The current study aims to determine the binding potential accompanied by antioxidant and anti-inflammatory activities of stilbenes-designed analogs against both cholinesterases (Acetylcholinesterase and butyrylcholinesterase) and neurotrophin targets for effective AD therapeutics. Docking results have shown that the WS6 compound exhibited the least binding energy − 10.1 kcal/mol with Acetylcholinesterase and − 7.8 kcal/mol with butyrylcholinesterase. The WS6 also showed a better binding potential with neurotrophin targets that are Brain-derived Neurotrophic Factor, Neurotrophin 4, Nerve Growth Factor, and Neurotrophin 3. The tested compounds particularly WS6 revealed significant antioxidant and anti-inflammatory activities through the comparative docking analysis with Fluorouracil and Melatonin as control drugs of antioxidants while Celecoxib and Anakinra as anti-inflammatory. The bioinformatics approaches including molecular docking calculations followed by the pharmacokinetics analysis and molecular dynamic simulations were accomplished to explore the capabilities of designed stilbenes as effective and potential leads. Root mean square deviation, root mean square fluctuations, and MM-GBSA calculations were performed through molecular dynamic simulations to extract the structural and residual variations and binding free energies through the 50-ns time scale. [ABSTRACT FROM AUTHOR]

Published

2023

202. The Neurobiological Role of Lithium Salts.

Author

Gogoleva, I. V., Gromova, O. A., Torshin, I. Yu., Grishina, T. R., and Pronin, A. V.

Subjects

NEUROTROPHINS, BRAIN-derived neurotrophic factor, ALZHEIMER'S disease, SALTS, NEUROBIOLOGY, LITHIUM carbonate, TAU proteins, CALMODULIN

Abstract

Lithium salts have been the mainstay of treatment for bipolar disorder for more than 50 years, since approval by the FDA in 1970 for the treatment of this pathology. A variety of the molecular mechanisms of action of lithium have been well studied, primarily inhibition of the enzymes glycogen synthase 3β and inositol monophosphatase, with subsequent activation of cascades of cellular reactions, including induction of brain-derived neurotrophic factor and antiapoptotic proteins and suppression of calcium-dependent activation of apoptosis. Research over the last decade has focused on the effects of lithium on the regulation of autophagy and the accumulation of pathological proteins such as amyloid β and tau protein in neurons. Lithium is also thought to induce telomere elongation and to increase telomerase activity. Clinical studies of lithium have addressed the potential for its use for the prevention and treatment of neurodegenerative diseases, primarily Alzheimer's disease, with increasing emphasis on the use of lithium microdoses. A separate scientific problem is the search for safe and effective lithium salts using methods including chemoreactome analysis. [ABSTRACT FROM AUTHOR]

Published

2023

203. Knockdown of Neurotrophin Receptor-Interacting Melanoma-Associated Antigen Homolog Inhibits Acute Myeloid Leukemia Cell Growth via the ERK Pathway.

Author

Hongxia Zhang, Guangsheng Wu, and Beili Chen

Subjects

ACUTE myeloid leukemia, NEUROTROPHINS, CELL growth, MYELOID cells, CARCINOGENS, CELL cycle

Abstract

Neurotrophin receptor-interacting melanoma-associated antigen homolog (NRAGE), a type II melanoma-associated antigen, plays a critical role in cell processes that are involved in the tumorigenesis of various cancers. However, the effect of NRAGE on acute myeloid leukemia (AML) is rarely reported. The expression of NRAGE in AML tissues and the survival rates between different AML groups were obtained from the GEPIA tool. Human AML cell lines were cultured and transfected with siRNA targeting NRAGE. The ability of AML cells to proliferate and cell cycle were examined. Western blotting was performed to detect the activity of the extracellular signal-regulated kinase (ERK) signaling pathway in AML cells. NRAGE expression was enhanced in AML tissues relative to control tissues, and the high NRAGE expression in AML patients is associated with a poor prognosis. The capacity of AML cells to survive and proliferate was significantly decreased and its cell cycle was arrested at the G1 phase after NRAGE was silenced. Furthermore, silencing NRAGE induced the inactivation of the ERK signaling pathway. Furthermore, supplement of tert-Butylhydroquinone, an ERK activator, improved the reduced ability of AML cell survival and proliferation as well as cell cycle arrest induced by NRAGE knockdown. In this study, NRAGE was identified as a tumor promoter in AML, which had an effect on cell proliferation, cell survival, and cell cycle through the ERK signaling pathway in AML cells. [ABSTRACT FROM AUTHOR]

Published

2023

204. Szlak mTOR i zwierzęta transgeniczne z delecją genu TSC w procesie regeneracji układu nerwowego i wybranych modelach uszkodzeń nerwu kulszowego.

Author

Białoń, Natalia, Suszyński, Krzysztof, Górka, Mikołaj, Trzęsicki, Michał, Górka, Dariusz, Zając, Kacper, and Kupczak, Agata

Subjects

NEURONS, NERVOUS system, NERVE fibers, SCIATIC nerve, NERVOUS system regeneration, WNT signal transduction

Abstract

Copyright of Advances in Biochemistry / Postepy Biochemii is the property of Polish Biochemical Society / Acta Biochimica Polonica and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

205. Role of Mesencephalic Astrocyte-Derived Neurotrophic Factor Levels in Pathogenesis of Non-Alcoholic Fatty Liver.

Author

Gazi, Ibtihal Hameed, Al-Tu'ma, Fadhil Jawad, Odda, Atheer Hameid, and Al-Tu'ma, Jawad Fadhil

Subjects

FATTY liver, NON-alcoholic fatty liver disease, NEUROTROPHINS, PATHOGENESIS, HEAT shock proteins, LIVER function tests

Abstract

Background: Non-alcoholic fatty liver disease (NAFLD) has a global prevalence of 25% and is one of the main causes of cirrhosis and hepatocellular carcinoma. Recently, the stress response protein mesencephalon-astrocyte-derived neurotrophic factor (MANF) has been shown to regulate hepatic and systemic metabolic homeostasis. Objectives: The main purpose of this study is to investigate the relationship between mesencephalon-astrocyte-derived neurotrophic factor levels with other anthropometric indicators, and its function in the pathogenesis of non-alcoholic fatty liver disease. Materials and Methods: A total of 120 patients with ages ranging between 40 to 73 years were included in this study and their serum samples were collected and kept at -2°C. The liver function test, lipid profile, and albumin were determined using the automated biochemistry analyzer, while the mesencephalic astrocyte-derived neurotrophic factor biomarker was determined by the ELIZA technique. Results: Our study showed that MANF levels decrease with age, and decreased MANF levels are associated with inflammatory phenotypes. The mean levels of ALT, ALP, AST, TSB, and the ALT/AST ratio in the non-alcoholic fatty liver patients were significantly higher than that for the non-fatty liver patients. As well, the mean level of MANF in the non-fatty liver patients was 305.25 ± 110.49 mg/dl which was significantly higher in the non-alcoholic fatty liver group (157.52). (P ≤ 0.001). Conclusion: A novel finding of our study is that the reduction of serum MANF levels is strongly associated with the pathogenesis of nonalcoholic fatty liver disorders and could be used as a potential therapeutic target in the treatment of hepatic disorders. [ABSTRACT FROM AUTHOR]

Published

2023

206. Stężenie czynników neurotroficznych (NGF i BDNF) w moczu chorych z nadreaktywnością mięśnia wypieracza pęcherza moczowego.

Author

Pachowska, Kinga Marlena, Zakrzewska, Aleksandra, and Jobs, Katarzyna

Abstract

Copyright of Paediatrics & Family Medicine / Pediatria i Medycyna Rodzinna is the property of Medical Communications Sp. z o.o. and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

207. Non-Amyloid Approaches to Disease Modification for Alzheimer’s Disease: An EU/US CTAD Task Force Report

Author

Gauthier, Serge, Aisen, PS, Cummings, J, Detke, MJ, Longo, FM, Raman, R, Sabbagh, M, Schneider, L, Tanzi, R, Tariot, P, Weiner, M, Touchon, J, and Vellas, B

Subjects

Biomedical and Clinical Sciences, Biological Psychology, Cognitive and Computational Psychology, Neurosciences, Psychology, Brain Disorders, Alzheimer's Disease including Alzheimer's Disease Related Dementias (AD/ADRD), Dementia, Aging, Alzheimer's Disease, Acquired Cognitive Impairment, Neurodegenerative, Development of treatments and therapeutic interventions, 5.1 Pharmaceuticals, Neurological, Alzheimer's disease, dementia, tau, tauopathy, neurotrophins, neuroinflammation, lifestyle intervention, photobiomodulation, neurostimulation, geroscience, EU/US CTAD Task Force, Alzheimer’s disease, Biological psychology, Cognitive and computational psychology

Abstract

While amyloid-targeting therapies continue to predominate in the Alzheimer's disease (AD) drug development pipeline, there is increasing recognition that to effectively treat the disease it may be necessary to target other mechanisms and pathways as well. In December 2019, The EU/US CTAD Task Force discussed these alternative approaches to disease modification in AD, focusing on tau-targeting therapies, neurotrophin receptor modulation, anti-microbial strategies, and the innate immune response; as well as vascular approaches, aging, and non-pharmacological approaches such as lifestyle intervention strategies, photobiomodulation and neurostimulation. The Task Force proposed a general strategy to accelerate the development of alternative treatment approaches, which would include increased partnerships and collaborations, improved trial designs, and further exploration of combination therapy strategies.

Published

2020

208. T he role of nerve growth factor (NGF) in the pathogenesis of leprosy

Author

A. V. Lutsenko and L. V. Saroyants

Subjects

leprosy, mycobacterium leprae, nerve growth factor, neurotrophins, schwann cells, Medicine (General), R5-920

Abstract

Leprosy is a chronic infectious disease caused by M. leprae with a primary lesion of the skin and peripheral nervous system. Currently, clinicians using bacterioscopic studies of scarification and skin biopsy mainly diagnose leprosy. However, the development and application of new diagnostic criteria, especially those associated with damage to nerve fibers, remains an urgent task of modern leprology. This review considers the important role of neurotrophic factor (nerve growth factor, NGF) in the pathogenesis of nervous system damage in leprosy and establishes the relationship between NGF levels and forms of the disease. The review includes data from foreign and domestic articles; the search was carried out using the “Scopus”, “PubMed”, “Web of Science”, “elIBRARY” databases.

Published

2023

209. Neurotrophic factor-based pharmacological approaches in neurological disorders

Author

Margherita Alfonsetti, Michele d’Angelo, and Vanessa Castelli

Subjects

alzheimer’s disease, brain, brain-derived neurotrophic factor, glial cell-derived neurotrophic factor, nerve growth factor, neurotrophins, neurturin, parkinson’s disease, stroke, tropomyosin receptor kinase receptors, Neurology. Diseases of the nervous system, RC346-429

Abstract

Aging is a physiological event dependent on multiple pathways that are linked to lifespan and processes leading to cognitive decline. This process represents the major risk factor for aging-related diseases such as Alzheimer’s disease, Parkinson’s disease, and ischemic stroke. The incidence of all these pathologies increases exponentially with age. Research on aging biology has currently focused on elucidating molecular mechanisms leading to the development of those pathologies. Cognitive deficit and neurodegeneration, common features of aging-related pathologies, are related to the alteration of the activity and levels of neurotrophic factors, such as brain-derived neurotrophic factor, nerve growth factor, and glial cell-derived neurotrophic factor. For this reason, treatments that modulate neurotrophin levels have acquired a great deal of interest in preventing neurodegeneration and promoting neural regeneration in several neurological diseases. Those treatments include both the direct administration of neurotrophic factors and the induced expression with viral vectors, neurotrophins’ binding with biomaterials or other molecules to increase their bioavailability but also cell-based therapies. Considering neurotrophins’ crucial role in aging pathologies, here we discuss the involvement of several neurotrophic factors in the most common brain aging-related diseases and the most recent therapeutic approaches that provide direct and sustained neurotrophic support.

Published

2023

210. Neuroprotection and Neurorestoration of Nigra Striatal Dopamine Neurons by Novel Multitarget Drugs, M30

Author

Ben Ari, Shunit, Youdim, Moussa B. H., and Kostrzewa, Richard M., editor

Published

2022

211. Neurobiology of Bipolar Disorder

Author

Levinson, Andrea, Young, Trevor, Pfaff, Donald W., editor, Volkow, Nora D., editor, and Rubenstein, John L., editor

Published

2022

212. Nerve Growth Factor and Neuropathic Pain

Author

Malomo, Alfred, Jr, Smith, Daryl I., Smith, Daryl I., editor, and Tran, Hai, editor

Published

2022

213. Expression of Neurotrophins in Adipose-derived Stem Cells during in vitro Culture and Posttransplantation in Parkinsonian Rat Model

Author

Abotaleb Kousha, Maryam Haji Ghasem Kashani, Gholam Hossein Vaezi, and Vida Hojati

Subjects

neurotrophins, adipose-derived stem cells, in vivo, in vitro, Medicine (General), R5-920

Abstract

Background: Adipose tissue stem cells (ASCs) cause faster repair of damaged tissue posttransplantation by releasing growth factors in neurodegenerative diseases. ASCs secrete factors in the culture medium called conditioned medium (CM) in vitro. This study investigated the expression of neurotrophin genes in vitro culture and transplant of ASCs in Parkinsonian rats. Materials and Methods: In this study, expression of neurotrophin genes was investigated in vitro and in vivo. In vitro means evaluating expression of genes in the conditioned medium from 21-day culture of ASCs (culture group) and the transplantation group, which were divided into subgroups of Parkinsonian rat model receiving ASCs (Cell group), and another group reveiving cells and conditioned medium (Cell + Conditioned Medium group). The sham groups were designed with Parkinsonian model and sham animals injected respectively with 6-OHDA (neurotoxin) and normal saline (neurotoxin solvent) instead of neurotoxin. All the injections were performed stereotaxically into the right striatum. After eight weeks of treatment, the transplantation areas were isolated and stored at -70 °C. Then, the exression of neurotrophin (BDNF, NT3 and NGF) mRNAs was analyzed. Results: BDNF and NT3 mRNA expression levels were significantly higher in the cells+conditioned medium and cell, as compared with the culture group. A significant decrease in NT3 gene expression in cell group was observed compared to that of cell group + conditional medium. NGF expression of the culture and cell groups showed a significant decrease compared to the cell+conditional medium group. Conclusion: In vitro cultured ASCs cannot significantly induce expression of neurotrophin genes, but when the cells are transplanted along with secretions (conditional medium) at the site of injury, the microenvironment of the transplantation site can induce higher expressions of neurotrophins. These cells will be good candidates for cell therapy.

Published

2022

214. 线粒体分裂抑制剂 1 对多发性硬化小鼠神经营养因子、再生抑制信号通路 分子的影响.

Author

张 伟, 刘子铭, 张年萍, 田思勰, 张思羽, 李艳花, and 马存根

Subjects

*MYELIN proteins, *BRAIN-derived neurotrophic factor, *NEUROTROPHIN receptors, *NEUROTROPHINS, *MYELIN oligodendrocyte glycoprotein, *NUCLEAR proteins, *PEPTIDES

Abstract

BACKGROUND: Decreased expression of neurotrophic factors and increased expression of regenerating inhibitors are the main mechanisms of nerve injury. It has been proven that mitochondrial fission inhibitor-1 can decrease clinical score and relieve pathological injury in a mouse model of multiple sclerosis. However, its neuroprotective effects still need to be further explored. OBJECTIVE: To observe the state of neurons and axons in a mouse model of experimental autoimmune encephalomyelitis and to evaluate the neuroprotective effect of mitochondrial fission inhibitor-1. METHODS: A mouse model of experimental autoimmune encephalomyelitis was prepared in C57BL/6 mice by immunizing with myelin oligodendrocyte glycoprotein peptide fragment 35-55. Animal models were randomly divided into two groups (n=15 per group): model group and mitochondrial fission inhibitor-1 group. Mice were euthanized and lumbar spinal cord consecutive sections were harvested at day 28 post immunization. Immunofluorescence staining was used to analyze the state of neuronal cell body and synapse, the phosphorylation level of dynamin-related protein 1, and the expression of neurotrophic factor, regeneration inhibitor and its signaling pathway molecules in spinal cord tissue. RESULTS AND CONCLUSION: Compared with the model group, treatment with mitochondrial fission inhibitor-1 increased the number of neurons marked by neuron-specific nuclear protein in the spinal cord tissue, improved neuronal body morphology, increased the length of synaptophysin-positive synapse, decreased the loss of Neurofilament M, and inhibited the phosphorylation of dynamin-related protein 1. Mitochondrial fission inhibitor-1 treatment could significantly promote the expression of glial cell-derived neurotrophic factor, ciliary neurotrophic factor, and brain-derived neurotrophic factor. Mitochondrial fission inhibitor-1 intervention could markedly reduce the expression of myelin-associated glycoprotein, axon growth inhibitory factor A, axon growth inhibitory factor protein receptor, p75 neurotrophin protein receptor, and Rho-related protein kinase II in the mouse model. To conclude, mitochondrial fission inhibitor-1 can inhibit the phosphorylation level of dynamin-related protein 1, increase the expression of neurotrophic factor protein, and reduce the expression of regeneration inhibitor and related signaling pathway molecular proteins, thus alleviating damage to spinal cord neuron cell bodies, axons, and cysts. [ABSTRACT FROM AUTHOR]

Published

2023

215. Detection and Quantification of Neurotrophin-3 (NT-3) and Nerve Growth Factor (NGF) Levels in Early Second Trimester Amniotic Fluid: Investigation into a Possible Correlation with Abnormal Fetal Growth Velocity Patterns.

Author

Machairiotis, Nikolaos, Vrachnis, Dionysios, Antonakopoulos, Nikolaos, Loukas, Nikolaos, Fotiou, Alexandros, Pergialiotis, Vasilios, Stavros, Sofoklis, Mantzou, Aimilia, Maroudias, Georgios, Iavazzo, Christos, Kanaka-Gantenbein, Christina, Drakakis, Petros, Troupis, Theodore, Vlasis, Konstantinos, and Vrachnis, Nikolaos

Subjects

*NERVE growth factor, *FETAL growth disorders, *AMNIOTIC liquid, *SMALL for gestational age, *FETAL development

Abstract

Background: Abnormal fetal growth is associated with adverse perinatal and long-term outcomes. The pathophysiological mechanisms underlying these conditions are still to be clarified. Nerve growth factor (NGF) and neurotrophin-3 (NT-3) are two neurotrophins that are mainly involved in the neuroprotection process, namely promotion of growth and differentiation, maintenance, and survival of neurons. During pregnancy, they have been correlated with placental development and fetal growth. In this study, we aimed to determine the early 2nd trimester amniotic fluid levels of NGF and NT-3 and to investigate their association with fetal growth. Methods: This is a prospective observational study. A total of 51 amniotic fluid samples were collected from women undergoing amniocentesis early in the second trimester and were stored at −80 °C. Pregnancies were followed up until delivery and birth weight was recorded. Based on birth weight, the amniotic fluid samples were divided into three groups: appropriate for gestational age (AGA), small for gestational age (SGA), and large for gestational age (LGA). NGF and NT-3 levels were determined by using Elisa kits. Results: NGF concentrations were similar between the studied groups; median values were 10.15 pg/mL, 10.15 pg/mL, and 9.14 pg/mL in SGA, LGA, and AGA fetuses, respectively. Regarding NT-3, a trend was observed towards increased NT-3 levels as fetal growth velocity decreased; median concentrations were 11.87 pg/mL, 15.9 pg/mL, and 23.5 pg/mL in SGA, AGA, and LGA fetuses, respectively, although the differences among the three groups were not statistically significant. Conclusions: Our findings suggest that fetal growth disturbances do not induce increased or decreased production of NGF and NT-3 in early second trimester amniotic fluid. The trend observed towards increased NT-3 levels as fetal growth velocity decreased shows that there may be a compensatory mechanism in place that operates in conjunction with the brain-sparing effect. Further associations between these two neurotrophins and fetal growth disturbances are discussed. [ABSTRACT FROM AUTHOR]

Published

2023

216. 缓释神经营养因子 3 和神经节苷脂 GD1a 的聚乳酸 - 羟基乙酸共聚物 纳米微球修复大鼠脊髓损伤.

Author

夏 宇, 孙 佳, 齐争艳, 马 琳, 马文倩, 牛建国, and 文玉军

Subjects

*MYELIN basic protein, *SPINAL cord injuries, *MOTOR neurons, *SPINAL cord, *GRAY matter (Nerve tissue), *MYELIN proteins, *NEUROTROPHINS, *NERVE fibers

Abstract

BACKGROUND: Non-invasive treatment of spinal cord injury needs to be developed urgently. Nanomaterials have obvious advantages, which can deliver drugs and improve the therapeutic effect. OBJECTIVE: To fabricate sustained-release nanospheres containing neurotrophin-3 and ganglioside GD1a by poly(lactic-co-glycolic acid) and investigate their effects on the repair of spinal cord injury in rats. METHODS: Poly(lactic-co-glycolic acid) nanospheres encapsulated with neurotrophin-3 and ganglioside GD1a were prepared using oil-water emulsion volatile organic solvent method. The sustained release properties of microspheres were tested. Sixty female adult SD rats were randomly divided into five groups with 12 rats in each group. In the sham operation group, the lamina was opened and sutured directly. In the spinal cord injury group, a spinal cord T9 impingement injury model was established. In the neurotrophin group, the nanosphere suspension of slow-release neurotrophin-3 was injected into the injured area of spinal cord T9. In the ganglioside GD1a group, the sustained-release ganglioside GD1a nanosphere suspension was injected into the spinal cord T9 injury area. The experimental group was injected with nanosphere suspension of sustained-release neurotrophin-3 and ganglioside GD1a in the injured area of spinal cord T9. Open field test and BBB scoring were conducted weekly after operation. The sections were taken 4 and 8 weeks after surgery for morphological observation. RESULTS AND CONCLUSION: (1) After soaking in PBS for 14 days in vitro, the sustained-release nanospheres could continuously release neurotrophin-3 and ganglioside GD1a. (2) At 7 and 8 weeks after surgery, compared with the spinal cord injury group, the BBB score and the total open field distance of the rats increased in the neurotrophin group and the experimental group (P < 0.05). The results of Nissl staining showed that at 4 and 8 weeks after surgery, the number of motor neurons increased in the anterior horn of caudal gray matter in the experimental group compared with the spinal cord injury group (P < 0.05). At 8 weeks after surgery, the number of motor neurons increased in the anterior horn of caudal gray matter in the neurotrophin group compared with the spinal cord injury group (P < 0.05). The results of immunofluorescence staining showed that compared with the spinal cord injury group, the neurotrophin group at 8 weeks and the experimental group at 4 and 8 weeks had increased spinal white matter ventral nerve fibers (P < 0.05); the expression of myelin basic protein on the ventral side of the spinal cord white matter increased at 4 and 8 weeks in the ganglioside GD1a and experimental groups (P < 0.05); the expression of myelin basic protein in the neurotrophin group increased at 8 weeks after operation (P < 0.05); the descending propriospinal tract increased in the neurotrophin group and the experimental group at 8 weeks (P < 0.05). (3) The results showed that neurotrophin-3 microspheres alone or in combination with ganglioside GD1a microspheres could promote the survival of motor neurons and nerve fibers around the spinal cord injury site and improve the motor function of the hind limbs of rats. [ABSTRACT FROM AUTHOR]

Published

2023

217. Excess cerebellar granule neurons induced by the absence of p75NTR during development elicit social behavior deficits in mice.

Author

Zanin, Juan Pablo, Pandya, Mansi A., Espinoza, Diego, Friedman, Wilma J., and Shiflett, Michael W.

Subjects

NEUROTROPHIN receptors, GRANULE cells, BEHAVIOR modification, OPERANT behavior, AUTISM spectrum disorders, NEURONS

Abstract

Introduction: Recently, the cerebellum has been implicated with non-motor functions, including cognitive and emotional behavior. Anatomical and functional studies demonstrate bidirectional cerebellar connections with brain regions involved in social cognition. Cerebellar developmental abnormalities and injury are often associated with several psychiatric and mental disorders including autism spectrum disorders and anxiety. The cerebellar granule neurons (CGN) are essential for cerebellar function since they provide sensorimotor, proprioceptive, and contextual information to Purkinje cells to modify behavior in different contexts. Therefore, alterations to the CGN population are likely to compromise cerebellar processing and function. Previously we demonstrated that the p75 neurotrophin receptor (p75NTR) was fundamental for the development of the CGN. In the absence of p75NTR, we observed increased proliferation of the granule cell precursors (GCPs), followed by increased GCP migration toward the internal granule layer. The excess granule cells were incorporated into the cerebellar network, inducing alterations in cerebellar circuit processing. Methods: In the present study, we used two conditional mouse lines to specifically delete the expression of p75NTR in CGN. In both mouse lines, deletion of the target gene was under the control of the transcription factor Atoh-1 promotor, however, one of the lines was also tamoxifen-inducible. Results: We observed a loss of p75NTR expression from the GCPs in all cerebellar lobes. Compared to control animals, both mouse lines exhibited a reduced preference for social interactions when presented with a choice to interact with a mouse or an object. Open-field locomotor behavior and operant reward learning were unaffected in both lines. Lack of preference for social novelty and increased anxiety-related behavior was present in mice with constitutive p75NTR deletion; however, these effects were not present in the tamoxifen-inducible mice with p75NTR deletion that more specifically targeted the GCPs. Discussion: Our findings demonstrate that alterations to CGN development by loss of p75NTR alter social behavior, and contribute to the increasing evidence that the cerebellum plays a role in non-motor-related behaviors, including social behavior. [ABSTRACT FROM AUTHOR]

Published

2023

218. Deacylated Derivative of Hericenone C Treated by Lipase Shows Enhanced Neuroprotective Properties Compared to Its Parent Compound.

Author

Tamrakar, Sonam, Wang, Dongmei, Hiraki, Eri, Han, Chunguang, Ruan, Yang, Allam, Ahmed E., Amen, Yhiya, Katakura, Yoshinori, and Shimizu, Kuniyoshi

Subjects

*BRAIN-derived neurotrophic factor, *NEUROTROPHINS, *LIPASES, *NERVE growth factor, *HERICIUM erinaceus, *PALMITIC acid, *FRUITING bodies (Fungi)

Abstract

Hericium erinaceus, a mushroom species commonly known as Yamabushitake in Japan, is known to have a stimulatory effect on neurotrophic factors, such as brain-derived neurotrophic factor (BDNF) and nerve growth factor (NGF). Hericenone C, a meroterpenoid with palmitic acid as the fatty acid side chain, is reported to be one such stimulant. However, according to the structure of the compound, the fatty acid side chain seems highly susceptible to lipase decomposition, under in vivo metabolic conditions. To study this phenomenon, hericenone C from the ethanol extract of the fruiting body was subjected to lipase enzyme treatment and observed for changes in the chemical structure. The compound formed after the lipase enzyme digestion was isolated and identified using LC-QTOF-MS combined with 1H-NMR analysis. It was found to be a derivative of hericenone C without its fatty acid side chain and was named deacylhericenone. Interestingly, a comparative investigation of the neuroprotective properties of hericenone C and deacylhericenone showed that the BDNF mRNA expression in human astrocytoma cells (1321N1) and the protection against H2O2-induced oxidative stress was considerably higher in the case of deacylhericenone. These findings suggest that the stronger bioactive form of the hericenone C compound is in fact deacylhericenone. [ABSTRACT FROM AUTHOR]

Published

2023

219. Neural cell adhesion molecule 1 is a cellular target engaged plasma biomarker in demyelinating Charcot–Marie–Tooth disease.

Author

Kim, Young Hee, Yoon, Byeol‐A, Jo, Young Rae, Nam, Soo Hyun, Kim, Nam Hee, Kim, Kyoung Hee, Kim, Jong Kuk, Choi, Byung‐Ok, and Park, Hwan Tae

Subjects

*NEURAL cell adhesion molecule, *CHARCOT-Marie-Tooth disease, *DEMYELINATION, *CELL adhesion molecules, *NEUROTROPHINS, *NEUROTROPHIN receptors, *ENZYME-linked immunosorbent assay, *MYELIN sheath diseases

Abstract

Background and purpose: Elevated plasma concentrations of neural cell adhesion molecule 1 (NCAM1) and p75 neurotrophin receptor (p75) in patients with peripheral neuropathy have been reported. This study aimed to determine the specificity of plasma concentration elevation of either NCAM1 or p75 in a subtype of Charcot–Marie–Tooth disease (CMT) and its correlation with pathologic nerve status and disease severity. Methods: Blood samples were collected from 138 patients with inherited peripheral neuropathy and 51 healthy controls. Disease severity was measured using Charcot–Marie–Tooth Neuropathy Score version 2 (CMTNSv2), and plasma concentrations of NCAM1 and p75 were analyzed by enzyme‐linked immunosorbent assay. Eight sural nerves from CMT patients were examined to determine the relation of histopathology and plasma NCAM1 levels. Results: Plasma concentration of NCAM1, but not p75, was specifically increased in demyelinating subtypes of CMT (median = 7100 pg/mL, p < 0.001), including CMT1A, but not in axonal subtype (5964 pg/mL, p > 0.05), compared to the control (3859 pg/mL). CMT1A patients with mild or moderate severity (CMTNSv2 < 20) showed higher levels of plasma NCAM1 than healthy controls. Immunofluorescent NCAM1 staining for the sural nerves of CMT patients showed that NCAM1‐positive onion bulb cells and possible demyelinating Schwann cells might be associated with the specific increase of plasma NCAM1 in demyelinating CMT. Conclusions: The plasma NCAM1 levels in demyelinating CMT might be a surrogate biomarker reflecting pathological Schwann cell status and disease progression. [ABSTRACT FROM AUTHOR]

Published

2023

220. Mitochondria as central hubs in synaptic modulation.

Author

Duarte, Filipe V., Ciampi, Daniele, and Duarte, Carlos B.

Abstract

Mitochondria are present in the pre- and post-synaptic regions, providing the energy required for the activity of these very specialized neuronal compartments. Biogenesis of synaptic mitochondria takes place in the cell body, and these organelles are then transported to the synapse by motor proteins that carry their cargo along microtubule tracks. The transport of mitochondria along neurites is a highly regulated process, being modulated by the pattern of neuronal activity and by extracellular cues that interact with surface receptors. These signals act by controlling the distribution of mitochondria and by regulating their activity. Therefore, mitochondria activity at the synapse allows the integration of different signals and the organelles are important players in the response to synaptic stimulation. Herein we review the available evidence regarding the regulation of mitochondrial dynamics by neuronal activity and by neuromodulators, and how these changes in the activity of mitochondria affect synaptic communication. [ABSTRACT FROM AUTHOR]

Published

2023

221. VGF nerve growth factor inducible has the potential to protect pancreatic β-cells.

Author

Hikari Hirakida, Taiga Okumura, Ryosuke Fujita, Yoshiki Kuse, Takahiro Mizoguchi, Satoshi Inagaki, Shinsuke Nakamura, Masamitsu Shimazawa, and Hideaki Hara

Subjects

*NERVE growth factor, *BLOOD sugar, *TYPE 2 diabetes, *SMALL molecules, *PEPTIDES, *NEUROTROPHINS

Abstract

VGF nerve growth factor inducible (VGF) is a secreted polypeptide involved in metabolic regulation. VGF-derived peptides have been reported to regulate insulin secretion in the plasma of patients with type 2 diabetes and model mice. However, the protective effects of VGF on pancreatic β-cells in diabetic model are not well understood. In this study, we aimed to elucidate the β-cell protective effect of VGF on a streptozotocin (STZ)-induced diabetic model using VGF-overexpressing (OE) mice and also examined the therapeutic effect by a small molecule, SUN N8075 which is an inducer of VGF. VGF-OE mice improved blood glucose levels and maintained β-cell mass compared to wild-type (WT) mice on STZinduced diabetic model. In addition, VGF-OE mice showed better glucose tolerance than WT mice. In culture, AQEE-30, a VGF-derived peptide, suppressed STZ-induced β-cell death in vitro and attenuated the decrease in the phosphorylation of Akt and GSK3β. Furthermore, SUN N8075 suppressed the blood glucose levels and increased VGF expression in the pancreatic islet. SUN N8075 also protected STZ-induced β-cell death in vitro. These findings indicate that VGF plays a hypoglycemic role in response to blood glucose levels in diabetes and protects β-cells from STZ-induced cell death. Therefore, VGF and its inducer have the therapeutic potential by preserving β-cells in diabetes. [ABSTRACT FROM AUTHOR]

Published

2023

222. Distribution of Brain-Derived Neurotrophic Factor in the Brain of the Small-Spotted Catshark Scyliorhinus canicula, and Evolution of Neurotrophins in Basal Vertebrates.

Author

Chiavacci, Elena, Bagnoli, Sara, Cellerino, Alessandro, and Terzibasi Tozzini, Eva

Subjects

*NEUROTROPHIN receptors, *BRAIN-derived neurotrophic factor, *NEUROTROPHINS, *CEREBRAL cortex, *WHOLE genome sequencing, *CHONDRICHTHYES, *VERTEBRATES

Abstract

Neurotrophins (NTFs) are structurally related neurotrophic factors essential for differentiation, survival, neurite outgrowth, and the plasticity of neurons. Abnormalities associated with neurotrophin-signaling (NTF-signaling) were associated with neuropathies, neurodegenerative disorders, and age-associated cognitive decline. Among the neurotrophins, brain-derived neurotrophic factor (BDNF) has the highest expression and is expressed in mammals by specific cells throughout the brain, with particularly high expression in the hippocampus and cerebral cortex. Whole genome sequencing efforts showed that NTF signaling evolved before the evolution of Vertebrates; thus, the shared ancestor of Protostomes, Cyclostomes, and Deuterostomes must have possessed a single ortholog of neurotrophins. After the first round of whole genome duplication that occurred in the last common ancestor of Vertebrates, the presence of two neurotrophins in Agnatha was hypothesized, while the monophyletic group of cartilaginous fishes, or Chondrichthyans, was situated immediately after the second whole genome duplication round that occurred in the last common ancestor of Gnathostomes. Chondrichthyans represent the outgroup of all other living jawed vertebrates (Gnathostomes) and the sister group of Osteichthyans (comprehensive of Actinopterygians and Sarcopterygians). We were able to first identify the second neurotrophin in Agnatha. Secondly, we expanded our analysis to include the Chondrichthyans, with their strategic phylogenetic position as the most basal extant Gnathostome taxon. Results from the phylogenetic analysis confirmed the presence of four neurotrophins in the Chondrichthyans, namely the orthologs of the four mammalian neurotrophins BDNF, NGF, NT-3, and NT-4. We then proceeded to study the expression of BDNF in the adult brain of the Chondrichthyan Scyliorhinus canicula. Our results showed that BDNF is highly expressed in the S. canicula brain and that its expression is highest in the Telencephalon, while the Mesencephalic and Diencephalic areas showed expression of BDNF in isolated and well-defined cell groups. NGF was expressed at much lower levels that could be detected by PCR but not by in situ hybridization. Our results warrant further investigations in Chondrichthyans to characterize the putative ancestral function of neurotrophins in Vertebrates. [ABSTRACT FROM AUTHOR]

Published

2023

223. Short-Term Irisin Treatment Enhanced Neurotrophin Expression Differently in the Hippocampus and the Prefrontal Cortex of Young Mice.

Author

Dicarlo, Manuela, Pignataro, Patrizia, Zerlotin, Roberta, Suriano, Clelia, Zecca, Chiara, Dell'Abate, Maria Teresa, Storlino, Giuseppina, Oranger, Angela, Sanesi, Lorenzo, Mori, Giorgio, Grano, Maria, Colaianni, Graziana, and Colucci, Silvia

Subjects

*NEUROTROPHINS, *FIBROBLAST growth factor 2, *PREFRONTAL cortex, *GENE expression, *NERVE growth factor, *IRISIN

Abstract

As a result of physical exercise, muscle releases multiple exerkines, such as "irisin", which is thought to induce pro-cognitive and antidepressant effects. We recently demonstrated in young healthy mice the mitigation of depressive behaviors induced by consecutive 5 day irisin administration. To understand which molecular mechanisms might be involved in such effect, we here studied, in a group of mice previously submitted to a behavioral test of depression, the gene expression of neurotrophins and cytokines in the hippocampus and prefrontal cortex (PFC), two brain areas frequently investigated in the depression pathogenesis. We found significantly increased mRNA levels of nerve growth factor (NGF) and fibroblast growth factor 2 (FGF-2) in the hippocampus and brain-derived growth factor (BDNF) in the PFC. We did not detect a difference in the mRNA levels of interleukin 6 (IL-6) and IL-1β in both brain regions. Except for BDNF in the PFC, two-way ANOVA analysis did not reveal sex differences in the expression of the tested genes. Overall, our data evidenced a site-specific cerebral modulation of neurotrophins induced by irisin treatment in the hippocampus and the PFC, contributing to the search for new antidepressant treatments targeted at single depressive events with short-term protocols. [ABSTRACT FROM AUTHOR]

Published

2023

224. Impact of exercise on brain neurochemicals: a comprehensive review.

Author

Bhattacharya, Puneet, Chatterjee, Sridip, and Roy, Dilip

Subjects

*AEROBIC exercises, *PEPTIDES, *EXERCISE therapy, *PHYSICAL activity, *EXERCISE intensity, *NEUROTROPHINS

Abstract

Background: Physical activity influences neuro-cognition through organic and peptide molecules of the brain. The organic molecules constitute neurotransmitters and neuromodulators while the peptide molecules include neurotrophic factors. Regular exercise, when repeated overtime, may cause the baseline neurochemical level to rise or fall and help in improvement of neuro-cognition. Several outstanding reviews have summarized these findings; however, the neurobiological basis of these results has received less attention. Aim: To explore the emergence and effects of physical exercise on three signaling pathways i.e., the neurotransmitters, neurotrophins and neuromodulators. Methods: To fulfill the purpose of the study, several robust literatures were reviewed based on the Preferred Reporting Items for Systematic reviews and Meta-Analyses (PRISMA). Studies that directly matched and fulfilled the primary objective were screened, appraised and presented in a systematic and comprehensive manner. Results: Chronic exercise and long-term training showed exponential rise in all the three types of neurochemicals. While aerobic and graded exercise depicted linear rise in neurotransmitters and strength, training showed no significant changes in neurotrophins. Conclusions: The comprehension of exercise and its positive effect on neurochemicals in the improvement of neuro-cognition, neurogenesis and brain functions have been pooled in this study. Single bouts of exercise have been given equal pertinence as chronic exercise in development of a complete psychophysiological well-being. This review magnifies that aerobic exercise of moderate intensity when performed in a regular and precise way improves all three classes of neurochemicals and modulates mental health and wellness. [ABSTRACT FROM AUTHOR]

Published

2023

225. Epidrugs in the Therapy of Central Nervous System Disorders: A Way to Drive on?

Author

Gladkova, Marina G., Leidmaa, Este, and Anderzhanova, Elmira A.

Subjects

*CENTRAL nervous system, *INFLAMMATORY mediators, *TAU proteins, *NEUROTROPHIN receptors, *NERVE growth factor, *THERAPEUTICS, *NEUROTROPHINS

Abstract

The polygenic nature of neurological and psychiatric syndromes and the significant impact of environmental factors on the underlying developmental, homeostatic, and neuroplastic mechanisms suggest that an efficient therapy for these disorders should be a complex one. Pharmacological interventions with drugs selectively influencing the epigenetic landscape (epidrugs) allow one to hit multiple targets, therefore, assumably addressing a wide spectrum of genetic and environmental mechanisms of central nervous system (CNS) disorders. The aim of this review is to understand what fundamental pathological mechanisms would be optimal to target with epidrugs in the treatment of neurological or psychiatric complications. To date, the use of histone deacetylases and DNA methyltransferase inhibitors (HDACis and DNMTis) in the clinic is focused on the treatment of neoplasms (mainly of a glial origin) and is based on the cytostatic and cytotoxic actions of these compounds. Preclinical data show that besides this activity, inhibitors of histone deacetylases, DNA methyltransferases, bromodomains, and ten-eleven translocation (TET) proteins impact the expression of neuroimmune inflammation mediators (cytokines and pro-apoptotic factors), neurotrophins (brain-derived neurotropic factor (BDNF) and nerve growth factor (NGF)), ion channels, ionotropic receptors, as well as pathoproteins (β-amyloid, tau protein, and α-synuclein). Based on this profile of activities, epidrugs may be favorable as a treatment for neurodegenerative diseases. For the treatment of neurodevelopmental disorders, drug addiction, as well as anxiety disorders, depression, schizophrenia, and epilepsy, contemporary epidrugs still require further development concerning a tuning of pharmacological effects, reduction in toxicity, and development of efficient treatment protocols. A promising strategy to further clarify the potential targets of epidrugs as therapeutic means to cure neurological and psychiatric syndromes is the profiling of the epigenetic mechanisms, which have evolved upon actions of complex physiological lifestyle factors, such as diet and physical exercise, and which are effective in the management of neurodegenerative diseases and dementia. [ABSTRACT FROM AUTHOR]

Published

2023

226. Neurotrophic factor-based pharmacological approaches in neurological disorders.

Author

Alfonsetti, Margherita, d'Angelo, Michele, and Castelli, Vanessa

Published

2023

227. Modulating Effects of Zingiberaceae Phenolic Compounds on Neurotrophic Factors and Their Potential as Neuroprotectants in Brain Disorders and Age-Associated Neurodegenerative Disorders: A Review.

Author

Razak, Azraul Mumtazah, Tan, Jen Kit, Mohd Said, Mazlina, and Makpol, Suzana

Abstract

The Zingiberaceae family possess various phenolic compounds that have significant systemic bioactivities in the brain, including in age-related neurodegenerative diseases. Neurotrophins are growth factors that protect neurons from oxidative stress, and dysregulation of the neurotrophic system may result in neurocognitive disease. Phenolic compounds from the Zingiberaceae family have been used in traditional and complementary medicine (TCM) to improve cognitive functions. These compounds may affect the expression of neurotrophic agents, but their underlying molecular mechanisms require further investigation. Therefore, the goal of this review is to determine the expression and functional roles of phenolic compounds from the Zingiberaceae family in brain disorders and age-related neurodegenerative disorders. While previous studies have proposed various mechanisms for the neuroprotective activity of these compounds, their precise mechanism of action remains complex and poorly understood. Despite some promising findings, there are still shortcomings in the therapeutic use of these herbs, and current interventions involving the Zingiberaceae family appear to be clinically insufficient. This article aims to summarize recent discoveries of phenolic compounds from several Zingiberaceae family members and their use as neuroprotectants and provide the first review of evidence-linked neuroprotective activity of bioactive ingredients from prominent members of the Zingiberaceae family. [ABSTRACT FROM AUTHOR]

Published

2023

228. Sex and Time: Important Variables for Understanding the Impact of Constant Darkness on Behavior, Brain, and Physiology.

Author

Singh, Dhyanendra, Preetam Ambati, Abhilash, and Aich, Palok

Subjects

*PHYSIOLOGY, *PREFRONTAL cortex, *SOCIAL norms, *NEUROTROPHINS, *HOMEOSTASIS

Abstract

• Three weeks of constant darkness (DD) impacted both male and female behavior and physiology. • Three weeks of DD induced a pro-inflammatory response and reduced neurotrophin level. • Five weeks of DD impacted behavior and physiology of males only. • Three weeks of restoration was adequate to re-establish the homeostasis. The circadian clock can coordinate, regulate and predict physiology and behavior in response to the standard light–dark (LD: 12 h light and 12 h dark) cycle. If we alter the LD cycle by exposing mice to constant darkness (DD: 00 h light and 24 h dark), it can perturb behavior, the brain, and associated physiological parameters. The length of DD exposure and the sex of experimental animals are crucial variables that could alter the impact of DD on the brain, behavior, and physiology, which have not yet been explored. We exposed mice to DD for three and five weeks and studied their impact on (1) behavior, (2) hormones, (3) the prefrontal cortex, and (4) metabolites in male and female mice. We also studied the effect of three weeks of standard light–dark cycle restoration after five weeks of DD on the parameters mentioned above. We found that DD exposure was associated with anxiety-like behavior, increased corticosterone and pro-inflammatory cytokines (TNF-α , IL-6 , and IL-1β), downregulated neurotrophins (BDNF and NGF), and altered metabolites profile in a duration of DD exposure and sex-dependent manner. Females showed a more robust adaptation than males under DD exposure. Three weeks of restoration was adequate to establish homeostasis in both sexes. To the best of our knowledge, this study is the first of its kind to look at how DD exposure impacts physiology and behavior as a function of sex- and time. These findings would have translational value and may help in establishing sex-specific interventions for addressing DD-related psychological issues. [ABSTRACT FROM AUTHOR]

Published

2023

229. Marco Capogna, a pioneering neuroscientist and true European.

Author

Ferraguti, Francesco, Fredes, Felipe, Hou, Wen‐Hsien, Somogyi, Peter, and Thompson, Scott

Subjects

*MEMORY trace (Psychology), *NEUROTROPHINS, *LONG-term synaptic depression, *BIOCHEMISTRY, *G protein-coupled receptor kinases, *INTERNEURONS, *NEURAL circuitry, *PYRAMIDAL neurons, *NEUROTOXIC agents

Abstract

43 Gähwiler, B. H., Capogna, M., Debanne, D., McKinney, R. A., & Thompson, S. M. (1997). 65 Scanziani, M., Capogna, M., Gähwiler, B. H., & Thompson, S. M. (1992). 70 Thompson, S. M., Capogna, M., & Scanziani, M. (1993). 2 Edited by: John Foxe Marco Capogna's main publications 1 Ahluwalia, J., Urban, L., Bevan, S., Capogna, M., & Nagy, I. (2002). [Extracted from the article]

Published

2023

230. Combined treatment of nerve growth factor and transcranical direct current stimulations to improve outcome in children with vegetative state after out-of-hospital cardiac arrest.

Author

Curatola, Antonietta, Graglia, Benedetta, Granata, Giuseppe, Conti, Giorgio, Capossela, Lavinia, Manni, Luigi, Ferretti, Serena, Di Giuda, Daniela, Romeo, Domenico Marco, Calcagni, Maria Lucia, Soligo, Marzia, Castelli, Enrico, Piastra, Marco, Mantelli, Flavio, Marca, Giacomo Della, Staccioli, Susanna, Romeo, Tiziana, Pani, Marcello, Cocciolillo, Fabrizio, and Mancino, Aldo

Subjects

*NERVE growth factor, *SINGLE-photon emission computed tomography, *NEUROTROPHINS, *TRANSCRANIAL direct current stimulation, *CARDIAC arrest, *POSITRON emission tomography

Abstract

Background: Out-of-hospital cardiac arrest (OHCA) is one of the most dramatic events in pediatric age and, despite advanced neurointensive care, the survival rate remains low. Currently, no effective treatments can restore neuronal loss or produce significant improvement in these patients. Nerve Growth Factor (NGF) is a neurotrophin potentially able to counteract many of the deleterious effects triggered by OHCA. Transcranial Direct Current Stimulation (tDCS) has been reported to be neuroprotective in many neurological diseases, such as motor deficit and cognitive impairment. Children with the diagnosis of chronic vegetative state after OHCA were enrolled. These patients underwent a combined treatment of intranasal administration of human recombinant NGF (hr-NGF), at a total dose of 50 gamma/kg, and tDCS, in which current intensity was increased from zero to 2 mA from the first 5 s of stimulation and maintained constant for 20 min. The treatment schedule was performed twice, at one month distance each. Neuroradiogical evaluation with Positron Emission Tomography scan (PET), Single Photon Emission Computed Tomography (SPECT), Electroencephalography (EEG) and Power Spectral Density of the brain (PSD) was determined before the treatment and one month after the end. Neurological assessment was deepened by using modified Ashworth Scale, Gross Motor Function Measure, and Disability Rating Scale. Results: Three children with a chronic vegetative state secondary to OHCA were treated. The combined treatment with hr-NGF and tDCS improved functional (PET and SPECT) and electrophysiological (EEG and PSD) assessment. Also clinical conditions improved, mainly for the reduction of spasticity and with the acquisition of voluntary finger movements, improved facial mimicry and reaction to painful stimuli. No side effects were reported. Conclusions: These promising preliminary results and the ease of administration of this treatment make it worthwhile to be investigated further, mainly in the early stages from OHCA and in patients with better baseline neurological conditions, in order to explore more thoroughly the benefits of this new approach on neuronal function recovery after OHCA. [ABSTRACT FROM AUTHOR]

Published

2023

231. The effects of aerobic exercise on neuroimmune responses in animals with traumatic peripheral nerve injury: a systematic review with meta-analyses.

Author

Sleijser-Koehorst, Marije L. S., Koop, Meghan A., Coppieters, Michel W., Lutke Schipholt, Ivo J., Radisic, Nemanja, Hooijmans, Carlijn R., and Scholten-Peeters, Gwendolyne G. M.

Abstract

Background: Increasing pre-clinical evidence suggests that aerobic exercise positively modulates neuroimmune responses following traumatic nerve injury. However, meta-analyses on neuroimmune outcomes are currently still lacking. This study aimed to synthesize the pre-clinical literature on the effects of aerobic exercise on neuroimmune responses following peripheral nerve injury. Methods: MEDLINE (via Pubmed), EMBASE and Web of Science were searched. Controlled experimental studies on the effect of aerobic exercise on neuroimmune responses in animals with a traumatically induced peripheral neuropathy were considered. Study selection, risk of bias assessment and data extraction were performed independently by two reviewers. Results were analyzed using random effects models and reported as standardized mean differences. Outcome measures were reported per anatomical location and per class of neuro-immune substance. Results: The literature search resulted in 14,590 records. Forty studies were included, reporting 139 comparisons of neuroimmune responses at various anatomical locations. All studies had an unclear risk of bias. Compared to non-exercised animals, meta-analyses showed the following main differences in exercised animals: (1) in the affected nerve, tumor necrosis factor-α (TNF-α) levels were lower (p = 0.003), while insulin-like growth factor-1 (IGF-1) (p < 0.001) and Growth Associated Protein 43 (GAP43) (p = 0.01) levels were higher; (2) At the dorsal root ganglia, brain-derived neurotrophic factor (BDNF)/BDNF mRNA levels (p = 0.004) and nerve growth factor (NGF)/NGF mRNA (p < 0.05) levels were lower; (3) in the spinal cord, BDNF levels (p = 0.006) were lower; at the dorsal horn, microglia (p < 0.001) and astrocyte (p = 0.005) marker levels were lower; at the ventral horn, astrocyte marker levels (p < 0.001) were higher, and several outcomes related to synaptic stripping were favorably altered; (4) brainstem 5-HT2A receptor levels were higher (p = 0.001); (5) in muscles, BDNF levels (p < 0.001) were higher and TNF-α levels lower (p < 0.05); (6) no significant differences were found for systemic neuroimmune responses in blood or serum. Conclusion: This review revealed widespread positive modulatory effects of aerobic exercise on neuroimmune responses following traumatic peripheral nerve injury. These changes are in line with a beneficial influence on pro-inflammatory processes and increased anti-inflammatory responses. Given the small sample sizes and the unclear risk of bias of the studies, results should be interpreted with caution. [ABSTRACT FROM AUTHOR]

Published

2023

232. Mechanisms Controlling the Expression and Secretion of BDNF.

Author

Arévalo, Juan Carlos and Deogracias, Rubén

Subjects

*BRAIN-derived neurotrophic factor, *CENTRAL nervous system, *SECRETION, *NEUROPLASTICITY, *NERVOUS system

Abstract

Brain-derived nerve factor (BDNF), through TrkB receptor activation, is an important modulator for many different physiological and pathological functions in the nervous system. Among them, BDNF plays a crucial role in the development and correct maintenance of brain circuits and synaptic plasticity as well as in neurodegenerative diseases. The proper functioning of the central nervous system depends on the available BDNF concentrations, which are tightly regulated at transcriptional and translational levels but also by its regulated secretion. In this review we summarize the new advances regarding the molecular players involved in BDNF release. In addition, we will address how changes of their levels or function in these proteins have a great impact in those functions modulated by BDNF under physiological and pathological conditions. [ABSTRACT FROM AUTHOR]

Published

2023

233. Factor neurotrófico derivado del cerebro y primeros episodios psicóticos. Estudio pronóstico de un año.

Author

Yelmo-Cruz, Silvia, Morera-Fumero, Armando L., Lakhwani, Sunil, and Abreu-González, Pedro

Subjects

*NEUROTROPHINS, *PSYCHOSES, *SCHIZOPHRENIA, *HOSPITAL admission & discharge, *PROGNOSIS, *BRAIN-derived neurotrophic factor, *FUNCTIONAL assessment

Abstract

Introduction. The brain-derived neurotrophic factor (BDNF) is a neurotrophin that has been linked to the schizophrenia neurodevelopmental hypothesis. Several studies confirm that the BDNF levels in first-episode psychosis (FEP) are lower than in healthy controls (HC). However, data about evolution of BDNF levels after a FEP and about the prognostic value of these levels are controversial. Method. Serum BDNF levels at admission of 28 inpatients with FEP were compared with 28 HC. BDNF was also measured at discharge, three, six, nine and twelve months. BDNF levels are presented in ng/ml. We looked for correlation of BDNF levels with the psychotic symptomatology measured with the Positive and Negative Syndrome Scale (PANSS) and also the prognostic value of basal levels was evaluated to predict poor functionality (measured by the Global Assessment of Functioning) and/or relapse, as well as the subsequent diagnosis of a chronic psychotic disorder. Results. At admission, patients BDNF levels were significantly lower than HC levels (18.52±4.51 vs. 26.55±3.22, p<0.001). At discharge FEP levels increase until HC levels (25.95±3.96 vs. 26.55±3.22, p=0,539). Upon the following determinations, BDNF FEP levels decreased, reaching the admission values, and being significantly lower than the HC and the levels at discharge (patients: three months: 19.68±3.88; six months: 19.02±4.13; nine months: 17.64±5.24; twelve months: 17.51±3.45 vs. HC: 26.55±3.22, all p<0.001). A negative correlation was found between admission BDNF levels and the PANSS negative symptoms subscale score with a trend towards significance (r=-0.303, p=0.093). BDNF levels at admission of patients with por functionality and/or relapse at 12 months were lower than BDNF levels of patients with goof functionality and without relapse, this difference had a trend towards significance. (15.38±4.72 vs. 19.57±4.06; p=0.071). We didn't found differences between basal BDNF levels of patients who developed a chronic psychotic disorder and patients who didn't. Conclusions. Our results reinforce the neurotrophin hypothesis. Basal levels (at diagnosis) of a FEP could predict the prognosis in terms of functionality and risk of relapse in the first year. [ABSTRACT FROM AUTHOR]

Published

2023

234. Serum nerve growth factor in horses with osteoarthritis‐associated lameness.

Author

Kendall, Anna, Lützelschwab, Claudia, Lundblad, Johan, and Skiöldebrand, Eva

Subjects

*NERVE growth factor, *LAMENESS in horses, *NEUROTROPHINS, *JOINT pain, *LIFE change events

Abstract

Background: Nerve growth factor (NGF) is a neurotrophin that is increased in osteoarthritic joints of horses. In humans, NGF has been associated with pain, and both synovial and serum NGF concentrations are increased in osteoarthritic patients. Studies in humans also have shown that serum NGF concentration can increase with stress. Serum NGF concentration should be evaluated in horses with osteoarthritis‐associated lameness. Objectives: Quantify and compare serum NGF concentration in horses with osteoarthritis‐associated lameness and sound horses. Additionally, the impact of short‐term stress on serum NGF concentration was investigated. Animals: Lame horses with radiographic evidence of osteoarthritis (n = 20), lame horses without radiographic changes in the affected joint (n = 20) and sound horses (n = 20). In addition, horses with acute fractures (n = 9) were sampled. To determine the effect of stress, serum from horses subjected to a stressful event (transportation, n = 5; stress confirmed by increased serum cortisol concentration) was analyzed. Methods: Cross‐sectional clinical study (lame, sound, and fracture cohorts) and experimental longitudinal study (stress cohort). Serum NGF concentration was determined using a quantitative sandwich ELISA. Results: Serum NGF concentration was increased in lame horses with radiographic evidence of osteoarthritis (P <.0001; median, 238 pg/mL; interquartile range [IQR], 63‐945 pg/mL) and in lame horses without radiographic evidence of osteoarthritis in the painful joint (P <.05; median, 31 pg/mL; IQR, 31‐95 pg/mL) compared with sound horses (median, 31 pg/mL; IQR, 31‐46 pg/mL). Serum NGF concentration did not increase with short‐term stress and was low in horses with fracture‐associated pain. Conclusions and Clinical Importance: Serum NGF concentration was high in the cohort with advanced osteoarthritis and should be investigated as a marker for osteoarthritis‐associated pain. [ABSTRACT FROM AUTHOR]

Published

2023

235. Thymosin Beta 4 Protects Hippocampal Neuronal Cells against PrP (106–126) via Neurotrophic Factor Signaling.

Author

Kim, Sokho, Choi, Jihye, and Kwon, Jungkee

Subjects

*THYMOSIN, *BRAIN-derived neurotrophic factor, *NERVE growth factor, *NEUROTROPHINS, *NEUROTROPHIN receptors, *PEPTIDES, *PRION diseases

Abstract

Prion protein peptide (PrP) has demonstrated neurotoxicity in brain cells, resulting in the progression of prion diseases with spongiform degenerative, amyloidogenic, and aggregative properties. Thymosin beta 4 (Tβ4) plays a role in the nervous system and may be related to motility, axonal enlargement, differentiation, neurite outgrowth, and proliferation. However, no studies about the effects of Tβ4 on prion disease have been performed yet. In the present study, we investigated the protective effect of Tβ4 against synthetic PrP (106–126) and considered possible mechanisms. Hippocampal neuronal HT22 cells were treated with Tβ4 and PrP (106–126) for 24 h. Tβ4 significantly reversed cell viability and reactive oxidative species (ROS) affected by PrP (106–126). Apoptotic proteins induced by PrP (106–126) were reduced by Tβ4. Interestingly, a balance of neurotrophic factors (nerve growth factor and brain-derived neurotrophic factor) and receptors (nerve growth factor receptor p75, tropomyosin related kinase A and B) were competitively maintained by Tβ4 through receptors reacting to PrP (106–126). Our results demonstrate that Tβ4 protects neuronal cells against PrP (106–126) neurotoxicity via the interaction of neurotrophic factors/receptors. [ABSTRACT FROM AUTHOR]

Published

2023

236. Genetically Engineered Artificial Microvesicles Carrying Nerve Growth Factor Restrains the Progression of Autoimmune Encephalomyelitis in an Experimental Mouse Model.

Author

Alatrash, Reem, Golubenko, Maria, Martynova, Ekaterina, Garanina, Ekaterina, Mukhamedshina, Yana, Khaiboullina, Svetlana, Rizvanov, Albert, Salafutdinov, Ilnur, and Arkhipova, Svetlana

Subjects

*NERVE growth factor, *EXTRACELLULAR vesicles, *LABORATORY mice, *ENCEPHALOMYELITIS, *DEMYELINATION, *NEUROTROPHINS, *MYELIN oligodendrocyte glycoprotein, *NATALIZUMAB

Abstract

Multiple sclerosis (MS) is an incurable, progressive chronic autoimmune demyelinating disease. Therapy for MS is based on slowing down the processes of neurodegeneration and suppressing the immune system of patients. MS is accompanied by inflammation, axon-degeneration and neurogliosis in the central nervous system. One of the directions for a new effective treatment for MS is cellular, subcellular, as well as gene therapy. We investigated the therapeutic potential of adipose mesenchymal stem cell (ADMSC) derived, cytochalasin B induced artificial microvesicles (MVs) expressing nerve growth factor (NGF) on a mouse model of multiple sclerosis experimental autoimmune encephalomyelitis (EAE). These ADMSC-MVs-NGF were tested using histological, immunocytochemical and molecular genetic methods after being injected into the tail vein of animals on the 14th and 21st days post EAE induction. ADMSC-MVs-NGF contained the target protein inside the cytoplasm. Their injection into the caudal vein led to a significant decrease in neurogliosis at the 14th and 21st days post EAE induction. Artificial ADMSC-MVs-NGF stimulate axon regeneration and can modulate gliosis in the EAE model. [ABSTRACT FROM AUTHOR]

Published

2023

237. Psycho-Cognitive Profile and NGF and BDNF Levels in Tears and Serum: A Pilot Study in Patients with Graves' Disease.

Author

Bruscolini, Alice, Iannitelli, Angela, Segatto, Marco, Rosso, Pamela, Fico, Elena, Buonfiglio, Marzia, Lambiase, Alessandro, and Tirassa, Paola

Subjects

*NEUROTROPHINS, *BRAIN-derived neurotrophic factor, *NERVE growth factor, *NEUROTROPHIN receptors, *THYROTROPIN receptors

Abstract

Nerve Growth Factor (NGF) and Brain derived Neurotrophic Factor (BDNF) mature/precursor imbalance in tears and serum is suggested as a risk factor and symptomatology aggravation in ophthalmology and neuropsychiatric disturbances. Cognitive and mood alterations are reported by patients with Graves' Orbitopathy (GO), indicating neurotrophin alterations might be involved. To address this question, the expression levels of NGF and BDNF and their precursors in serum and tears of GO patients were analyzed and correlated with the ophthalmological and psycho-cognitive symptoms. Hamilton Rating Scale for Anxiety (HAM-A) and Depression (HAM-D), Temperament and Character Inventory (TCI), and Cambridge Neuropsychological Test Automated Battery (CANTAB) test were used as a score. NGF and BDNF levels were measured using ELISA and Western Blot and statistically analyzed for psychiatric/ocular variable trend association. GO patients show memorization time and level of distraction increase, together with high irritability and impulsiveness. HAM-A and CANTAB variables association, and some TCI dimensions are also found. NGF and BDNF expression correlates with ophthalmological symptoms only in tears, while mature/precursor NGF and BDNF correlate with the specific psycho-cognitive variables both in tears and serum. Our study is the first to show that changes in NGF and BDNF processing in tears and serum might profile ocular and cognitive alterations in patients. [ABSTRACT FROM AUTHOR]

Published

2023

238. Systemic and Peripheral Mechanisms of Cortical Stimulation-Induced Analgesia and Refractoriness in a Rat Model of Neuropathic Pain.

Author

Assis, Danielle V., Campos, Ana Carolina P., Paschoa, Amanda F. N., Santos, Talita F., Fonoff, Erich T., and Pagano, Rosana L.

Subjects

*NEURALGIA, *DORSAL root ganglia, *SUBSTANCE P, *ANIMAL disease models, *SCIATIC nerve diseases

Abstract

Epidural motor cortex stimulation (MCS) is an effective treatment for refractory neuropathic pain; however, some individuals are unresponsive. In this study, we correlated the effectiveness of MCS and refractoriness with the expression of cytokines, neurotrophins, and nociceptive mediators in the dorsal root ganglion (DRG), sciatic nerve, and plasma of rats with sciatic neuropathy. MCS inhibited hyperalgesia and allodynia in two-thirds of the animals (responsive group), and one-third did not respond (refractory group). Chronic constriction injury (CCI) increased IL-1β in the nerve and DRG, inhibited IL-4, IL-10, and IL-17A in the nerve, decreased β-endorphin, and enhanced substance P in the plasma, compared to the control. Responsive animals showed decreased NGF and increased IL-6 in the nerve, accompanied by restoration of local IL-10 and IL-17A and systemic β-endorphin. Refractory animals showed increased TNF-α and decreased IFNγ in the nerve, along with decreased TNF-α and IL-17A in the DRG, maintaining low levels of systemic β-endorphin. Our findings suggest that the effectiveness of MCS depends on local control of inflammatory and neurotrophic changes, accompanied by recovery of the opioidergic system observed in neuropathic conditions. So, understanding the refractoriness to MCS may guide an improvement in the efficacy of the technique, thus benefiting patients with persistent neuropathic pain. [ABSTRACT FROM AUTHOR]

Published

2023

239. Participation of cAMP-Mediated Signaling Transduction in the Regulation of the Secretory Function of Neuroglia during Ethanol-Induced Neurodegeneration.

Author

Zyuz'kov, G. N., Zhdanov, V. V., Miroshnichenko, L. A., Polyakova, T. Yu., Simanina, E. V., Danilets, M. G., Agafonov, V. I., and Stavrova, L. A.

Abstract

We studied the involvement of cAMP and PKA in the regulation of the secretion of neurotrophic growth factors by macro-and microglial cells in the model of ethanol-induced neurodegeneration in vitro and in vivo. The stimulating role of cAMP in the secretion of neurotrophins by intact astrocytes and oligodendrocytes was shown, while PKA does not participate in this process. On the contrary, the inhibitory role of cAMP (implemented via PKA activation) in the production of neurogenesis stimulators by microglial cells under conditions of optimal vital activity was found. Under the influence of ethanol, the role of cAMP and PKA in the production of growth factors by macroglial cells was considerably changed. The involvement of PKA in the cAMP-dependent signaling pathways and inversion of the role of this signaling pathway in the implementation of the neurotrophic secretory function of astrocytes and oligodendrocytes, respectively, directly exposed to ethanol in vitro were noted. Long-term exposure of the nervous tissue to ethanol in vivo led to the loss of the stimulating role of cAMP/PKA signaling on neurotrophin secretion by macroglial cells without affecting its inhibitory role in the regulation of this function in microglial cells. [ABSTRACT FROM AUTHOR]

Published

2023

240. The Effect of Body Weight Gain with or Without Diabetes Type 2 on the Levels of Noradrenalin and Some Neurotrophins.

Author

Hasan, H., Jouda, J., and Saihood, Y. D.

Subjects

TYPE 2 diabetes, BODY weight, WEIGHT gain, NEUROTROPHINS, NERVE growth factor

Abstract

This work aimed to study the effect of body weight gain in individuals with or without diabetes mellitus Type 2 (DMT2) on the nervous system. Seventy-five subjects participated in this study, including 25 obese patients with DMT2 (BMI≥30kg/m2), 25 obese individuals without diabetes (BMI≥30kg/m2) and normal-weight healthy (BMI˂25kg/m2). In addition to body mass index (BMI), the west/hip ratio (WHR) and total body fat (TBF%) were calculated. 10ml of blood was collected from participants and used to determine the levels of HbA1C, noradrenaline (NA), brain-derived neurotrophic factor (BDNF), nerve growth factor (NGF) and fasting blood glucose (FBG). The level of NGF increased while BDNF and NA levels decreased in obese with and without diabetes compared to control. Interestingly, BDNF level was significantly higher in the obese with diabetes than without. Moreover, TBF% and WHR values were significantly higher in the obese with diabetes when compared with those without diabetes. At the same time, there were no significant differences between BMI value in these two groups. BMI, TBF% and WHR significantly correlate with FBG, HbA1C and NGF and negative significant correlation with BDNFdoes not correlate; only WHR has no correlationdoes and does not correlate with NA. As well as, HbA1C has a significant correlation with the nerve markers, positive with BDNF and NGF and negative with NA, while FBG did not correlate with them. In conclusion, neurotransmitters and neurotrophin levels could use as risk factors for diabetes, and obesity could be considered as a risk factor for neuropathy as much as diabetes. [ABSTRACT FROM AUTHOR]

Published

2023

241. Neurotrophins: Expression of Brain–Lung Axis Development.

Author

Manti, Sara, Xerra, Federica, Spoto, Giulia, Butera, Ambra, Gitto, Eloisa, Di Rosa, Gabriella, and Nicotera, Antonio Gennaro

Subjects

*NEUROTROPHINS, *LUNGS, *PERIPHERAL nervous system, *SOLVABLE groups, *NEUROLOGICAL disorders, *PULMONARY fibrosis

Abstract

Neurotrophins (NTs) are a group of soluble growth factors with analogous structures and functions, identified initially as critical mediators of neuronal survival during development. Recently, the relevance of NTs has been confirmed by emerging clinical data showing that impaired NTs levels and functions are involved in the onset of neurological and pulmonary diseases. The alteration in NTs expression at the central and peripheral nervous system has been linked to neurodevelopmental disorders with an early onset and severe clinical manifestations, often named "synaptopathies" because of structural and functional synaptic plasticity abnormalities. NTs appear to be also involved in the physiology and pathophysiology of several airway diseases, neonatal lung diseases, allergic and inflammatory diseases, lung fibrosis, and even lung cancer. Moreover, they have also been detected in other peripheral tissues, including immune cells, epithelium, smooth muscle, fibroblasts, and vascular endothelium. This review aims to provide a comprehensive description of the NTs as important physiological and pathophysiological players in brain and lung development. [ABSTRACT FROM AUTHOR]

Published

2023

242. The sigma‐1 receptor curtails endogenous opioid analgesia during sensitization of TRPV1 nociceptors.

Author

Ruiz‐Cantero, M. Carmen, Cortés‐Montero, Elsa, Jain, Aakanksha, Montilla‐García, Ángeles, Bravo‐Caparrós, Inmaculada, Shim, Jaehoon, Sánchez‐Blázquez, Pilar, Woolf, Clifford J., Baeyens, José M., and Cobos, Enrique J.

Subjects

*OPIOID receptors, *GLIAL cell line-derived neurotrophic factor, *NEUROTROPHINS, *TRPV cation channels, *NERVE growth factor, *NOCICEPTORS, *OPIOID peptides

Abstract

Background and Purpose: Peripheral sensitization contributes to pathological pain. While prostaglandin E2 (PGE2) and nerve growth factor (NGF) sensitize peptidergic C‐nociceptors (TRPV1+), glial cell line‐derived neurotrophic factor (GDNF) sensitizes non‐peptidergic C‐neurons (IB4+). The sigma‐1 receptor (sigma‐1R) is a Ca2+‐sensing chaperone known to modulate opoid analgesia. This receptor binds both to TRPV1 and the μ opioid receptor, although the functional repercussions of these physical interactions in peripheral sensitization are unknown. Experimental Approach: We tested the effects of sigma‐1 antagonism on PGE2‐, NGF‐, and GDNF‐induced mechanical and heat hyperalgesia in mice. We used immunohistochemistry to determine the presence of endomorphin‐2, an endogenous μ receptor agonist, on dorsal root ganglion (DRG) neurons. Recombinant proteins were used to study the interactions between sigma‐1R, μ‐ receptor, and TRPV1. We used calcium imaging to study the effects of sigma‐1 antagonism on PGE2‐induced sensitization of TRPV1+ nociceptors. Key Results: Sigma1 antagonists reversed PGE2‐ and NGF‐induced hyperalgesia but not GDNF‐induced hyperalgesia. Endomorphin‐2 was detected on TRPV1+ but not on IB4+ neurons. Peripheral opioid receptor antagonism by naloxone methiodide or administration of an anti‐endomorphin‐2 antibody to a sensitized paw reversed the antihyperalgesia induced by sigma‐1 antagonists. Sigma‐1 antagonism transfers sigma‐1R from TRPV1 to μ receptors, suggesting that sigma‐1R participate in TRPV1‐μ receptor crosstalk. Moreover, sigma‐1 antagonism reversed, in a naloxone‐sensitive manner, PGE2‐induced sensitization of DRG neurons to the calcium flux elicited by capsaicin, the prototypic TRPV1 agonist. Conclusion and Implications: Sigma‐1 antagonism harnesses endogenous opioids produced by TRPV1+ neurons to reduce hyperalgesia by increasing μ receptor activity. [ABSTRACT FROM AUTHOR]

Published

2023

243. Sarcopenia and Cognitive Decline in Older Adults: Targeting the Muscle–Brain Axis.

Author

Arosio, Beatrice, Calvani, Riccardo, Ferri, Evelyn, Coelho-Junior, Hélio José, Carandina, Angelica, Campanelli, Federica, Ghiglieri, Veronica, Marzetti, Emanuele, and Picca, Anna

Abstract

Declines in physical performance and cognition are commonly observed in older adults. The geroscience paradigm posits that a set of processes and pathways shared among age-associated conditions may also serve as a molecular explanation for the complex pathophysiology of physical frailty, sarcopenia, and cognitive decline. Mitochondrial dysfunction, inflammation, metabolic alterations, declines in cellular stemness, and altered intracellular signaling have been observed in muscle aging. Neurological factors have also been included among the determinants of sarcopenia. Neuromuscular junctions (NMJs) are synapses bridging nervous and skeletal muscle systems with a relevant role in age-related musculoskeletal derangement. Patterns of circulating metabolic and neurotrophic factors have been associated with physical frailty and sarcopenia. These factors are mostly related to disarrangements in protein-to-energy conversion as well as reduced calorie and protein intake to sustain muscle mass. A link between sarcopenia and cognitive decline in older adults has also been described with a possible role for muscle-derived mediators (i.e., myokines) in mediating muscle–brain crosstalk. Herein, we discuss the main molecular mechanisms and factors involved in the muscle–brain axis and their possible implication in cognitive decline in older adults. An overview of current behavioral strategies that allegedly act on the muscle–brain axis is also provided. [ABSTRACT FROM AUTHOR]

Published

2023

244. Biocompatible Macroion/Growth Factor Assemblies for Medical Applications.

Author

Michna, Aneta, Pomorska, Agata, and Ozcan, Ozlem

Subjects

*VASCULAR endothelial growth factors, *FIBROBLAST growth factors, *GROWTH factors, *ENDOTHELIAL growth factors, *SCIENTIFIC literature, *MONOSACCHARIDES, *ELECTRIC charge

Abstract

Growth factors are a class of proteins that play a role in the proliferation (the increase in the number of cells resulting from cell division) and differentiation (when a cell undergoes changes in gene expression becoming a more specific type of cell) of cells. They can have both positive (accelerating the normal healing process) and negative effects (causing cancer) on disease progression and have potential applications in gene therapy and wound healing. However, their short half-life, low stability, and susceptibility to degradation by enzymes at body temperature make them easily degradable in vivo. To improve their effectiveness and stability, growth factors require carriers for delivery that protect them from heat, pH changes, and proteolysis. These carriers should also be able to deliver the growth factors to their intended destination. This review focuses on the current scientific literature concerning the physicochemical properties (such as biocompatibility, high affinity for binding growth factors, improved bioactivity and stability of the growth factors, protection from heat, pH changes or appropriate electric charge for growth factor attachment via electrostatic interactions) of macroions, growth factors, and macroion-growth factor assemblies, as well as their potential uses in medicine (e.g., diabetic wound healing, tissue regeneration, and cancer therapy). Specific attention is given to three types of growth factors: vascular endothelial growth factors, human fibroblast growth factors, and neurotrophins, as well as selected biocompatible synthetic macroions (obtained through standard polymerization techniques) and polysaccharides (natural macroions composed of repeating monomeric units of monosaccharides). Understanding the mechanisms by which growth factors bind to potential carriers could lead to more effective delivery methods for these proteins, which are of significant interest in the diagnosis and treatment of neurodegenerative and civilization diseases, as well as in the healing of chronic wounds. [ABSTRACT FROM AUTHOR]

Published

2023

245. Neuroprotective Nanoparticles Targeting the Retina: A Polymeric Platform for Ocular Drug Delivery Applications.

Author

Colucci, Patrizia, Giannaccini, Martina, Baggiani, Matteo, Kennedy, Breandán N., Dente, Luciana, Raffa, Vittoria, and Gabellini, Chiara

Subjects

*DRUG delivery systems, *POLYMERIC drug delivery systems, *POSTERIOR segment (Eye), *NEUROTROPHINS, *NERVE growth factor, *VISION, *RETINA

Abstract

Neuroprotective drug delivery to the posterior segment of the eye represents a major challenge to counteract vision loss. This work focuses on the development of a polymer-based nanocarrier, specifically designed for targeting the posterior eye. Polyacrylamide nanoparticles (ANPs) were synthesised and characterised, and their high binding efficiency was exploited to gain both ocular targeting and neuroprotective capabilities, through conjugation with peanut agglutinin (ANP:PNA) and neurotrophin nerve growth factor (ANP:PNA:NGF). The neuroprotective activity of ANP:PNA:NGF was assessed in an oxidative stress-induced retinal degeneration model using the teleost zebrafish. Upon nanoformulation, NGF improved the visual function of zebrafish larvae after the intravitreal injection of hydrogen peroxide, accompanied by a reduction in the number of apoptotic cells in the retina. Additionally, ANP:PNA:NGF counteracted the impairment of visual behaviour in zebrafish larvae exposed to cigarette smoke extract (CSE). Collectively, these data suggest that our polymeric drug delivery system represents a promising strategy for implementing targeted treatment against retinal degeneration. [ABSTRACT FROM AUTHOR]

Published

2023

246. The Melanocortin System: A Promising Target for the Development of New Antidepressant Drugs.

Author

Markov, Dmitrii D., Dolotov, Oleg V., and Grivennikov, Igor A.

Subjects

*MELANOCORTIN receptors, *MONOAMINE transporters, *DRUG development, *MENTAL depression, *ANTIDEPRESSANTS, *HYPOTHALAMIC-pituitary-adrenal axis, *PEPTIDE receptors

Abstract

Major depression is one of the most prevalent mental disorders, causing significant human suffering and socioeconomic loss. Since conventional antidepressants are not sufficiently effective, there is an urgent need to develop new antidepressant medications. Despite marked advances in the neurobiology of depression, the etiology and pathophysiology of this disease remain poorly understood. Classical and newer hypotheses of depression suggest that an imbalance of brain monoamines, dysregulation of the hypothalamic-pituitary-adrenal axis (HPAA) and immune system, or impaired hippocampal neurogenesis and neurotrophic factors pathways are cause of depression. It is assumed that conventional antidepressants improve these closely related disturbances. The purpose of this review was to discuss the possibility of affecting these disturbances by targeting the melanocortin system, which includes adrenocorticotropic hormone-activated receptors and their peptide ligands (melanocortins). The melanocortin system is involved in the regulation of various processes in the brain and periphery. Melanocortins, including peripherally administered non-corticotropic agonists, regulate HPAA activity, exhibit anti-inflammatory effects, stimulate the levels of neurotrophic factors, and enhance hippocampal neurogenesis and neurotransmission. Therefore, endogenous melanocortins and their analogs are able to complexly affect the functioning of those body's systems that are closely related to depression and the effects of antidepressants, thereby demonstrating a promising antidepressant potential. [ABSTRACT FROM AUTHOR]

Published

2023

247. Neurotrophins: Neuroimmune Interactions in Human Atopic Diseases.

Author

Weihrauch, Tobias, Limberg, Maren M., Gray, Natalie, Schmelz, Martin, and Raap, Ulrike

Subjects

*NEUROTROPHIN receptors, *NEUROTROPHINS, *SOCIAL interaction, *ALLERGIC rhinitis, *ALLERGIES, *ATOPIC dermatitis

Abstract

Allergic diseases are accompanied by a variety of symptoms such as pruritus, coughing, sneezing, and watery eyes, which can result in severe physiological and even psychological impairments. The exact mechanisms of these conditions are not yet completely understood. However, recent studies demonstrated a high relevance of neurotrophins in allergic inflammation, as they induce cytokine release, mediate interaction between immune cells and neurons, and exhibit different expression levels in health and disease. In this review, we aim to give an overview of the current state of knowledge concerning the role of neurotrophins in atopic disorders such as atopic dermatitis, allergic asthma, and allergic rhinitis. [ABSTRACT FROM AUTHOR]

Published

2023

248. Radial Extracorporeal Shock Wave Therapy Combined with Resveratrol Derivative Alleviates Chronic Nonbacterial Prostatitis in Rats.

Author

Song, Zhengyao, Jin, Chen, Bian, Zichen, and Liang, Chaozhao

Subjects

*EXTRACORPOREAL shock wave therapy, *NERVE growth factor, *NEUROTROPHINS, *PROSTATITIS, *RESVERATROL

Abstract

Resveratrol (Res) is a non-flavonoid polyphenol compound with biological pleiotropic properties, but low bioavailability limits its application value. Here, we synthesized a new Res derivative ((E)-5-(dimethylamino)-2-(4-methoxystyryl)phenol), and attempted to determine the function of Res derivative combined with radial extracorporeal shock wave therapy (rESWT) in chronic nonbacterial prostatitis (CNP). CNP model rats were constructed by subcutaneous administration of prostatein suspension (15 mg/ml), followed by rESWT treatment alone or in associated with Res or Res derivatives. In this study, inflammatory cell infiltration and tissue fibrosis in the prostate tissues of CNP rats were significantly deteriorated, which was effectively abolished by rESWT treatment alone or in combination with Res or Res derivative. The expression of interleukin 1β (IL-1β), tumor necrosis factor-α (TNF-α), nerve growth factor (NGF), and nuclear factor kappa-B (NF-κB) were increased, while silent information regulator 1 (SIRT1) expression was suppressed in the prostate tissues of CNP rats, which were then rescued by rESWT treatment alone or in associated with Res or Res derivative. Importantly, compared with Res derivative treatment alone or rESWT combined with Res treatment, combination treatment with rESWT and Res derivative was more effective in alleviating inflammation and fibrosis, in reducing IL-1β, TNF-α, NGF, and SIRT1 expression, and in facilitating SIRT1 expression. Overall, rESWT combined with Res derivative treatment improved CNP in rat by reducing inflammation and fibrosis, which attributed to regulate the expression of SIRT1 and NF-κB. Thus, this work provides a theoretical basis for rESWT combined with Res derivative in the clinical treatment of CNP. [ABSTRACT FROM AUTHOR]

Published

2023

249. Molecular and neural roles of sodium-glucose cotransporter 2 inhibitors in alleviating neurocognitive impairment in diabetic mice.

Author

Piątkowska-Chmiel, Iwona, Herbet, Mariola, Gawrońska-Grzywacz, Monika, Pawłowski, Kamil, Ostrowska-Leśko, Marta, and Dudka, Jarosław

Subjects

*DIABETES, *SODIUM-glucose cotransporters, *NEUROTROPHINS, *GENE expression, *AMYLOID beta-protein precursor

Abstract

Diabetes causes a variety of molecular changes in the brain, making it a real risk factor for the development of cognitive dysfunction. Complex pathogenesis and clinical heterogeneity of cognitive impairment makes the efficacy of current drugs limited. Sodium-glucose cotransporter 2 inhibitors (SGLT2i) gained our attention as drugs with potential beneficial effects on the CNS. In the present study, these drugs ameliorated the cognitive impairment associated with diabetes. Moreover, we verified whether SGLT2i can mediate the degradation of amyloid precursor protein (APP) and modulation of gene expression (Bdnf, Snca, App) involved in the control of neuronal proliferation and memory. The results of our research proved the participation of SGLT2i in the multifactorial process of neuroprotection. SGLT2i attenuate the neurocognitive impairment through the restoration of neurotrophin levels, modulation of neuroinflammatory signaling, and gene expression of Snca, Bdnf, and App in the brain of diabetic mice. The targeting of the above-mentioned genes is currently seen as one of the most promising and developed therapeutic strategies for diseases associated with cognitive dysfunction. The results of this work could form the basis of a future administration of SGLT2i in diabetics with neurocognitive impairment. [ABSTRACT FROM AUTHOR]

Published

2023

250. Neurotrophins: are they involved in immune tolerance in pregnancy?

Author

Milyutina, Yulia P., Arutjunyan, Alexander V., Korenevsky, Andrey V., Selkov, Sergey A., and Kogan, Igor Yu.

Subjects

*IMMUNOLOGICAL tolerance, *NEUROTROPHINS, *KILLER cells, *NEUROTROPHIN receptors, *BRAIN-derived neurotrophic factor, *NERVE growth factor

Abstract

In this review, an attempt was made to substantiate the possibility for neurotrophins to be involved in the development of immune tolerance based on data accumulated on neurotrophin content and receptor expression in the trophoblast and immune cells, in particular, in natural killer cells. Numerous research results are reviewed to show that the expression and localization of neurotrophins along with their high‐affinity tyrosine kinase receptors and low‐affinity p75NTR receptor in the mother‐placenta‐fetus system indicate the important role of neurotrophins as binding molecules in regulating the crosstalk between the nervous, endocrine, and immune systems in pregnancy. An imbalance between these systems can occur with tumor growth and pathological processes observed in pregnancy complications and fetal development anomalies. [ABSTRACT FROM AUTHOR]

Published

2023