• 지질동맥경화학회지
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• 제8권1호
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• pp.1-7
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• 2019

Vascular dementia is the most common neuropsychiatric syndrome and is characterized by synaptic dysfunction, neuroinflammation, and cognitive dysfunction. Vascular dementia is associated with various environmental, genetic, and lifestyle risk factors. Recent research has focused on the association between vascular dementia and dietary patterns, suggesting that dietary regulation leads to better control of energy metabolism, improvements in brain insulin resistance, and the suppression of neuroinflammation. Intermittent fasting is a calorie-restriction method known to be more effective in promoting fat loss and regulating the impairment of glucose metabolism as compared with other dietary restriction regimens. Herein, the authors review the effects of intermittent fasting with regard to vascular dementia based on recent evidence and propose that intermittent fasting could be a therapeutic approach for ameliorating vascular dementia pathology and preventing its onset.

• 한국방사선학회논문지
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• 제8권1호
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• pp.35-42
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• 2014

본 연구의 목적은 단일 복셀 자기공명 분광법을 이용하여 비정상적인 뇌질환을 가진 환자의 뇌대사물질이 어떻게 다른지를 알아보는데 있다. 수소 자기공명분광법의 정량적 분석의 결과 부신백질이영양증, 간선뇌병증, 뇌경색은 백질에 관련된 대사물질에 변화를 보였다. 세질환 모두 NAA가 감소하였고, ALD에서는 Cho, mI 과 Lac가 증가하였고, 간성뇌병변에서는 Cho가 감소, 그리고 뇌경색에서는 ${\beta}{\cdot}{\gamma}$-Glx와 Lac가 증가되었다. 결론적으로 수소 자기공명분광법은 비정상적으로 발전하는 뇌질환의 대사물질의 변화를 관찰하여 병을 진단할 수 있고 이는 임상에서 뇌질환의 진단과 예후를 평가하는데 유용할 것이다.

• 대한수의학회지
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• 제11권1호
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• pp.59-63
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• 1971

Current interest in ${\gamma}$-aminobutyric acid (GABA) has arisen from the convergence of several independent line of investigation leading to the demonstration that this and related substances are normal products of brain metabolism and that GABA has an important physiological action upon brain function as well as upon certain peripheral nervous structures. The interest for neurophysiologists has been enhanced by the importance of the discovery for the role of humoral mediator of synaptic transmission or regulator of neuronal activity in the central nervous system, particularly if it may shed some elight upon the nature of central inhibitory processes. In accordance with such an interest and importance, this work was performed in order to standardize the normal content as a preliminary investigation of so-called night active and daytime active animals GABA content in their brains when they are exposed to light and darkness. The method, through which the estimation has made in this work, was paper chromatographic method developed by Maynert and Klingman for the estimation of GABA content in animal tissues. The results obtained are summerized as follows: 1) GABA content in the cerebral cortex of house rat ranged from 90 to $310{\mu}g/gm$ of wet weight. 2) The content of GAGA ranging from 130 to $510{\mu}g/gm$ of wet weight was occurred from midbrain of the rat. 3) GABA content was ranged from 30 to $150 {\mu}g/gm$ of wet weight of the rat cerebellum. 4) The contents of fowl cerebral cortex, midbrain, and cerebellum are estimated as ranging 230-590, 250-620, $50-280{\mu}g/gm$ of wet weight, respectively. As a result, it may be concluded that among three brain tissues of both animals the midbrain is the highest region in GABA content. Fowl brain, on the other side, contains more higher GABA content than the house rat brain does.

• Clinical and Experimental Pediatrics
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• 제52권1호
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• pp.105-110
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• 2009

목적 : 신생 백서의 저산소 허혈 뇌손상에 있어서의 erythropietin (Epo) 투여의 손상 예방 효과와 보호 기전에 철 대사가 관여하는지를 조사하고자 하였다. 방 법 : 신생 백서를 암수 구별 없이 생후 7일째에 편측 온목동맥 결찰 후 산소 농도 8%인 환경에 2시간 노출시켜 저산소 허혈을 유도하였으며 저산소 노출 직후 Epo 5,000 u/kg를 복강내 투여하였다. 이들은 저산소 허혈 유도 전 투여한 생리식염수, 철, deferoxamine 등에 따라 Epo군, Iron+Epo군, Def+Epo군, Iron+ Def+Epo군, 대조군으로 나누어 저산소 허혈 유도 후 7일에 뇌손상 정도를 비교하였다. 결 과 : Epo 투여시 뇌손상의 빈도와 정도는 대조군에 비해 감소하였다. 뇌손상의 빈도와 손상 점수로 뇌손상 정도를 비교한 결과 철 투여는 Epo의 뇌손상 예방 효과를 감소시키지 않았다. Deferoxamine 투여는 Epo 단독 투여군에 비해 뇌손상의 빈도와 정도가 경감하였으나 통계적 유의성은 없었다. 결 론 : Epo는 저산소 허혈 뇌손상에 있어 뇌손상 보호 효과를 보인다. 철 투여는 뇌손상을 악화시키지 않았으나 deferoxamine 동시 투여는 Epo 단독 투여에 비해 뇌손상의 빈도와 손상 점수가 감소하여 뇌손상 보호 효과에 철 대사가 관여할 가능성을 제시하였다.

• Journal of Interdisciplinary Genomics
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• 제2권2호
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• pp.20-25
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• 2020

Mucopolysaccharidosis type III (MPS III or Sanfilippo syndrome) is a multisystem lysosomal storage disease that is inherited in an autosomal recessive manner. It consists of four subtypes (MPS IIIA, B, C, and D), each characterized by the deficiency of different enzymes that catalyze the metabolism of the glycosaminoglycan heparan sulfate at the lysosomal level. The typical clinical manifestation of MPS III includes progressive central nervous system (CNS) degeneration with accompanying systemic manifestations. Disease onset is typically before the age of ten years and death usually occurs in the second or third decade due to neurological regression or respiratory tract infections. However, there is currently no treatment for CNS symptoms in patients with MPS III. Invasive and non-invasive techniques that allow drugs to pass through the blood brain barrier and reach the CNS are being tested and have proven effective. In addition, the application of genistein treatment as a substrate reduction therapy is in progress.

• BMB Reports
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• 제43권5호
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• pp.344-348
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• 2010

Messenger ribonucleoprotein particles (mRNPs) are used to transport mRNAs along neuronal dendrites to their site of translation. Staufen2 is an mRNA-binding protein expressed in the cell bodies and cellular processes of different brain cells. It is notably involved in the transport of dendritic mRNAs along microtubules. Its knockdown expression was shown to change spine morphology and impair synaptic functions. However, the identity of Staufen2-bound mRNAs in brain cells is still completely unknown. As a mean to identify these mRNAs, we immunoprecipitated Staufen2-containing mRNPs from embryonic rat brains and used a genome wide approach to identify Staufen2-associated mRNAs. The genome wide approach identified 1780 mRNAs in Staufen2-containing mRNPs that code for proteins involved in cellular processes such as post-translational protein modifications, RNA metabolism, intracellular transport and translation. These results represent an additional and important step in the characterization of Staufen2- mediated neuronal functions in rat brains.

• Archives of Pharmacal Research
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• 제3권1호
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• pp.51-55
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• 1980

Thiamine, in the form of its diphosphate (TDP), is well known to act as a coenzyme, and during the early stage in the study of thiamine it had been believed that the symptoms of thiamine-deficiency were resulted secondarily from the disturbance of metabolic processes in which TDP participated as a coenzyme. However, the neurological symptoms in thiamine deficiency are now separated from the metabolic disturbances in thiamine deficiency. On the other hand, the specific involvement of phosphorylated thiamine in nerve conduction has been suggested by von Muralt, but nature of this involvement has not been elucidated at a molecular level. Recently the possible significance of thiamine triphosphate (TTP) in nervous tissue was suggested by the demonstration that TTP is not present in the brain of patients with subacute necrotizing encephalomyelitis, a fatal disease associated with an abnormality in thiamine metabolism. Furthermore, the studies using membrane fragments of rat brain strongly indicated that ion movement across the nerve membrane is associated with dephosphorylation of phosphorylated thiamine.

• BMB Reports
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• 제52권12호
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• pp.679-688
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• 2019

The decrease of metabolism in the brain has been observed as the important lesions of Alzheimer's disease (AD) from the early stages of diagnosis. The cumulative evidence has reported that the failure of mitochondria, an organelle involved in diverse biological processes as well as energy production, maybe the cause or effect of the pathogenesis of AD. Both amyloid and tau pathologies have an impact upon mitochondria through physical interaction or indirect signaling pathways, resulting in the disruption of mitochondrial function and dynamics which can trigger AD. In addition, mitochondria are involved in different biological processes depending on the specific functions of each cell type in the brain. Thus, it is necessary to understand mitochondrial dysfunction as part of the pathological phenotypes of AD according to each cell type. In this review, we summarize that 1) the effects of AD pathology inducing mitochondrial dysfunction and 2) the contribution of mitochondrial dysfunction in each cell type to AD pathogenesis.

• Journal of Ginseng Research
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• 제43권3호
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• pp.342-348
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• 2019

Panax ginseng Meyer (P. ginseng; Korean ginseng) is well known for its medicinal properties. It can alleviate pathological symptoms, promote health, and prevent potential diseases via its anti-inflammatory, antioxidant, homeostatic, and other positive effects on biological metabolism. Although many studies have determined effects of P. ginseng on various diseases, such as cardiovascular, neurological, and immunological diseases, little is known about the effect of P. ginseng on autoimmune diseases. Here, we review a few reports about effects of P. ginseng on autoimmune diseases (e.g., multiple sclerosis, Crohn's disease, ulcerative colitis, atopic dermatitis, and rheumatoid arthritis) and suggest the possibility of P. ginseng as a candidate herbal medicine to prevent and treat autoimmune diseases as well as the need to study it.

• Molecules and Cells
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• 제47권2호
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• pp.100030.1-100030.14
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• 2024

Both brown and white adipose tissues (BAT/WAT) are innervated by the peripheral nervous system, including efferent sympathetic nerves that communicate from the brain/central nervous system out to the tissue, and afferent sensory nerves that communicate from the tissue back to the brain and locally release neuropeptides to the tissue upon stimulation. This bidirectional neural communication is important for energy balance and metabolic control, as well as maintaining adipose tissue health through processes like browning (development of metabolically healthy brown adipocytes in WAT), thermogenesis, lipolysis, and adipogenesis. Decades of sensory nerve denervation studies have demonstrated the particular importance of adipose sensory nerves for brown adipose tissue and WAT functions, but far less is known about the tissue's sensory innervation compared to the better-studied sympathetic nerves and their neurotransmitter norepinephrine. In this review, we cover what is known and not yet known about sensory nerve activities in adipose, focusing on their effector neuropeptide actions in the tissue.