scholarly journals Exosomes: A Novel Therapeutic Paradigm for Treatment of Depression

2020 ◽  
Vol 21 ◽  
Author(s):  
Shvetank Bhatt ◽  
Jovita Kanoujia ◽  
Arghya Kusum Dhar ◽  
Surendar Arumugam ◽  
Amanda K. A. Silva ◽  
...  
Keyword(s):  
Central Nervous System ◽  
Nervous System ◽  
Small Rna ◽  
Potential Role ◽  
Vital Role ◽  
Physiological Processes ◽  
Treatment Of Depression ◽  
As Stress ◽  
Novel Therapeutic

Abstract: Extracellular vesicles (EVs) of endocytic origin are known as exosomes. These vesicles are released by cells and are accessible in biofluids, such as saliva, urine, and plasma. These vesicles are made up of small RNA, DNA, proteins and play a vital role in many physiological processes. In central nervous system (CNS), they participate in various physiological processes such as stress of nerve cells, communication between the cells, synaptic plasticity and neurogenesis. The role of exosomes in depression needs to be explored further. It is known that exosomes can cross blood brain barrier (BBB), which is made up of glial cells astrocytes. One of the advantages of these vescicles is that they are able to transfer macromolecules like DNA, protein, mRNAs and miRNAs to recipient cells. This review focuses on the potential role of exosomes in de-pression and their utilization as atreatmentoption or diagnostic tool of depression.

The Role of Neuropeptide Y and Peptide YY in the Development of Obesity via Gut-brain Axis

2019 ◽  
Vol 20 (7) ◽  
pp. 750-758 ◽  
Author(s):  
Yi Wu ◽  
Hengxun He ◽  
Zhibin Cheng ◽  
Yueyu Bai ◽  
Xi Ma
Keyword(s):  
Central Nervous System ◽  
Nervous System ◽  
Neuropeptide Y ◽  
Metabolic Diseases ◽  
Peptide Yy ◽  
Vital Role ◽  
Gut Peptides ◽  
Nonalcoholic Fatty Liver ◽  
The Central Nervous System

Obesity is one of the main challenges of public health in the 21st century. Obesity can induce a series of chronic metabolic diseases, such as diabetes, dyslipidemia, hypertension and nonalcoholic fatty liver, which seriously affect human health. Gut-brain axis, the two-direction pathway formed between enteric nervous system and central nervous system, plays a vital role in the occurrence and development of obesity. Gastrointestinal signals are projected through the gut-brain axis to nervous system, and respond to various gastrointestinal stimulation. The central nervous system regulates visceral activity through the gut-brain axis. Brain-gut peptides have important regulatory roles in the gut-brain axis. The brain-gut peptides of the gastrointestinal system and the nervous system regulate the gastrointestinal movement, feeling, secretion, absorption and other complex functions through endocrine, neurosecretion and paracrine to secrete peptides. Both neuropeptide Y and peptide YY belong to the pancreatic polypeptide family and are important brain-gut peptides. Neuropeptide Y and peptide YY have functions that are closely related to appetite regulation and obesity formation. This review describes the role of the gutbrain axis in regulating appetite and maintaining energy balance, and the functions of brain-gut peptides neuropeptide Y and peptide YY in obesity. The relationship between NPY and PYY and the interaction between the NPY-PYY signaling with the gut microbiota are also described in this review.

Primary Central Nervous System Anaplastic Large Cell Lymphoma is an Unusual Brain Tumour

2014 ◽  
Vol 10 (01) ◽  
pp. 48
Author(s):  
Dionysis Papadatos-Pastos ◽  
James Hall ◽  
Ruth Pettengell ◽  
Leslie R Bridges ◽  
Barry Newell ◽  
...  
Keyword(s):  
Central Nervous System ◽  
Nervous System ◽  
Anaplastic Large Cell Lymphoma ◽  
Potential Role ◽  
Cell Lymphoma ◽  
Large Cell ◽  
Anaplastic Lymphoma ◽  
The Central Nervous System ◽  
Large Cell Lymphoma

We present a case of a 64-year-old man who was diagnosed with a primary anaplastic large cell lymphoma of the central nervous system (PCNSAL). He had received radical chemotherapy and radiotherapy for a non-small cell lung cancer (NSCLC) in the past. There is no known association between NSCLC and PCNSAL. We describe the diagnostic and therapeutic challenges associated with these rare intracranial lymphomas and highlight the potential role of newer biological agents in patients with anaplastic lymphoma kinase (ALK-1) positive PCNSAL.

Novel Homeodomain Transcription Factor Nkx2.2 in the Brain Tumor Development

2020 ◽  
Vol 20 (5) ◽  
pp. 335-340 ◽  
Author(s):  
Mubeena P.M. Mariyath ◽  
Mehdi H. Shahi ◽  
Shirin Farheen ◽  
Mohd Tayyab ◽  
Nabeela Khanam ◽  
...  
Keyword(s):  
Central Nervous System ◽  
Nervous System ◽  
Transcription Factor ◽  
Tumor Development ◽  
Normal Growth ◽  
Vital Role ◽  
Homeodomain Transcription Factor ◽  
Shh Pathway ◽  
Potential Biomarker

Background: Complex central nervous system (CNS) is made up of neuronal cells and glial cells. Cells of central nervous system are able to regenerate after injury and during repairing. Sonic hedgehog pathway initiated by Shh-N a glycoprotein plays vital role in CNS patterning growth, development and now tumorigenesis. Nkx2.2 homeodomain transcription factor is an effecter molecule, which is positively regulated by Shh during normal growth. Nkx2.2 is essential for V3 domain specification during neural tube patterning at embryonic stage. MBP + oligodendrocytes are differentiated from progenitor cells which express Olig2. Nx2.2 is co-expressed with Olig2 in oligodendrocytes and is essential for later stage of oligodendrocyte maturation. Objective: This review paper explores the potential role of Nkx2.2 transcription factor in glioblastoma development. Conclusion: Shh pathway plays a vital role in oligodendrocytes differentiation and Nkx2.2 transcription factor is essential for oligodendrocytes differentiation and maturation. Intriguingly, down regulation of Nkx2.2 transcription factor with aberrant Shh signaling pathway is reported in glioma samples. So here it is suggested that Nkx2.2 expression pattern could be used as a potential biomarker for the early diagnosis of glioma.

scholarly journals A metaplasticity view of the interaction between homeostatic and Hebbian plasticity

2017 ◽  
Vol 372 (1715) ◽  
pp. 20160155 ◽  
Author(s):  
Ada X. Yee ◽  
Yu-Tien Hsu ◽  
Lu Chen
Keyword(s):  
Central Nervous System ◽  
Nervous System ◽  
Associative Learning ◽  
Molecular Mechanisms ◽  
Potential Role ◽  
Homeostatic Plasticity ◽  
Network Activity ◽  
Mammalian Central Nervous System ◽  
Hebbian Plasticity

Hebbian and homeostatic plasticity are two major forms of plasticity in the nervous system: Hebbian plasticity provides a synaptic basis for associative learning, whereas homeostatic plasticity serves to stabilize network activity. While achieving seemingly very different goals, these two types of plasticity interact functionally through overlapping elements in their respective mechanisms. Here, we review studies conducted in the mammalian central nervous system, summarize known circuit and molecular mechanisms of homeostatic plasticity, and compare these mechanisms with those that mediate Hebbian plasticity. We end with a discussion of ‘local’ homeostatic plasticity and the potential role of local homeostatic plasticity as a form of metaplasticity that modulates a neuron's future capacity for Hebbian plasticity. This article is part of the themed issue ‘Integrating Hebbian and homeostatic plasticity’.

Adrenergic Pharmacology: Focus on the Central Nervous System

CNS Spectrums ◽  
2001 ◽  
Vol 6 (8) ◽  
pp. 656-662 ◽  
Author(s):  
Andre S. Pupo ◽  
Kenneth P. Minneman
Keyword(s):  
Central Nervous System ◽  
Nervous System ◽  
Signaling Mechanisms ◽  
Treatment Of Depression ◽  
The Central Nervous System ◽  
Sleep Arousal ◽  
Obesity Hypertension ◽  
Subtype Selective ◽  
The Brain

ABSTRACTNorepinephrine and epinephrine are involved in the control of several important functions of the central nervous system (CNS), including sleep, arousal, mood, appetite, and autonomic outflow. Catecholamines control these functions through activation of a family of adrenergic receptors (ARs). The ARs are divided into three subfamilies (α1, α2, and β) based on their pharmacologic properties, signaling mechanisms, and structure. ARs in the CNS are targets for several therapeutic agents used in the treatment of depression, obesity, hypertension, and other diseases. Not much is known, however, about the role of specific AR sub-types in the actions of these drugs. In this paper, we provide an overview of adrenergic pharmacology in the CNS, focusing on the pharmacologic properties of subtype-selective AR agonists and antagonists, the accessibility of these drugs to the CNS, and the distribution of ARs in different areas of the brain.

scholarly journals Adaptive Immune Responses Associated with the Central Nervous System Pathology of Gulf War Illness

2021 ◽  
Vol 16 ◽  
pp. 263310552110184
Author(s):  
Aurore Nkiliza ◽  
Utsav Joshi ◽  
James E Evans ◽  
Ghania Ait-Ghezala ◽  
Megan Parks ◽  
...  
Keyword(s):  
Central Nervous System ◽  
Nervous System ◽  
Immune Responses ◽  
Potential Role ◽  
Gulf War ◽  
Gulf War Illness ◽  
Adaptive Immune Responses ◽  
Adaptive Immune ◽  
The Central Nervous System

Gulf War Illness is a multisymptomatic condition which affects 30% of veterans from the 1991 Gulf War. While there is evidence for a role of peripheral cellular and humoral adaptive immune responses in Gulf War Illness, a potential role of the adaptive immune system in the central nervous system pathology of this condition remains unknown. Furthermore, many of the clinical features of Gulf War Illness resembles those of autoimmune diseases, but the biological processes are likely different as the etiology of Gulf War Illness is linked to hazardous chemical exposures specific to the Gulf War theatre. This review discusses Gulf War chemical–induced maladaptive immune responses and a potential role of cellular and humoral immune responses that may be relevant to the central nervous system symptoms and pathology of Gulf War Illness. The discussion may stimulate investigations into adaptive immunity for developing novel therapies for Gulf War Illness.

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