• 한국동물생명공학회지
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• 제39권1호
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• pp.2-11
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• 2024

Background: The small intestine plays a crucial role in animals in maintaining homeostasis as well as a series of physiological events such as nutrient uptake and immune function to improve productivity. Research on intestinal organoids has recently garnered interest, aiming to study various functions of the intestinal epithelium as a potential alternative to an in vivo system. These technologies have created new possibilities and opportunities for substituting animals for testing with an in vitro model. Methods: Here, we report the establishment and characterisation of intestinal organoids derived from jejunum tissues of adult pigs. Intestinal crypts, including intestinal stem cells from the jejunum tissue of adult pigs (10 months old), were sequentially isolated and cultivated over several passages without losing their proliferation and differentiation using the scaffold-based and three-dimensional method, which indicated the recapitulating capacity. Results: Porcine jejunum-derived intestinal organoids showed the specific expression of several genes related to intestinal stem cells and the epithelium. Furthermore, they showed high permeability when exposed to FITC-dextran 4 kDa, representing a barrier function similar to that of in vivo tissues. Collectively, these results demonstrate the efficient cultivation and characteristics of porcine jejunum-derived intestinal organoids. Conclusions: In this study, using a 3D culture system, we successfully established porcine jejunum-derived intestinal organoids. They show potential for various applications, such as for nutrient absorption as an in vitro model of the intestinal epithelium fused with organ-on-a-chip technology to improve productivity in animal biotechnology in future studies.

• 한국동물생명공학회지
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• 제37권2호
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• pp.136-143
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• 2022

Recent progress has been made to establish intestinal organoids for an in vitro model as a potential alternative to an in vivo system in animals. We previously reported a reliable method for the isolation of intestinal crypts from the small intestine and robust three-dimensional (3D) expansion of intestinal organoids (basal-out) in adult bovines. The present study aimed to establish next-generation intestinal organoids for practical applications in disease modeling-based host-pathogen interactions and feed efficiency measurements. In this study, we developed a rapid and convenient method for the efficient generation of intestinal organoids through the modulation of the Wnt signaling pathway and continuous apical-out intestinal organoids. Remarkably, the intestinal epithelium only takes 3-4 days to undergo CHIR (1 µM) treatment as a Wnt activator, which is much shorter than that required for spontaneous differentiation (7 days). Subsequently, we successfully established an apical-out bovine intestinal organoid culture system through suspension culture without Matrigel matrix, indicating an apical-out membrane on the surface. Collectively, these results demonstrate the efficient generation and next-generation of bovine intestinal organoids and will facilitate their potential use for various purposes, such as disease modeling, in the field of animal biotechnology.

• Journal of Animal Science and Technology
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• 제64권6호
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• pp.1105-1116
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• 2022

Recently, we reported the robust in vitro three-dimensional (3D) expansion of intestinal organoids derived from adult bovine (> 24 months) samples. The present study aimed to establish an in vitro 3D system for the cultivation of intestinal organoids derived from growing cattle (12 months old) for practical use as a potential alternative to in vivo systems for various purposes. However, very few studies on the functional characterization and 3D expansion of adult stem cells from livestock species compared to those from other species are available. In this study, intestinal crypts, including intestinal stem cells, from the small intestines (ileum and jejunum) of growing cattle were isolated and long-term 3D cultures were successfully established using a scaffold-based method. Furthermore, we generated an apical-out intestinal organoid derived from growing cattle. Interestingly, intestinal organoids derived from the ileum, but not the jejunum, could be expanded without losing the ability to recapitulate crypts, and these organoids specifically expressed several specific markers of intestinal stem cells and the intestinal epithelium. Furthermore, these organoids exhibited key functionality with regard to high permeability for compounds up to 4 kDa in size (e.g., fluorescein isothiocyanate [FITC]-dextran), indicating that apical-out intestinal organoids are better than other models. Collectively, these results indicate the establishment of growing cattle-derived intestinal organoids and subsequent generation of apical-out intestinal organoids. These organoids may be valuable tools and potential alternatives to in vivo systems for examining host-pathogen interactions involving epithelial cells, such as enteric virus infection and nutrient absorption, and may be used for various purposes.

• 대한임상검사과학회지
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• 제37권3호
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• pp.190-196
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• 2005

Helicobacter pylori (H. pylori) infection is uncommon in developed countries, yet is common in underdeveloped and developing countries. Infection rate of H. pylori is minimally influenced by economic, environmental, and public health status and genetic factors. Korea is a developing country with a high incidence of H. pylori infection and gastric carcinoma, which is one of the leading causes of death. For this reason, accurate clinical and pathologic data on H. pylori-associated disease are very important. Intestinal metaplasia accompanies chronic gastritis and increases the risk of gastric carcinoma. For this reason, the relationship between H. pylori infection and intestinal metaplasia is very closely linked. Because of this, as the antecedent condition is guessed, it examines the relationship of the H. pylori and the intestinal metaplasia. Intestinal metaplasia is thought to be the basis in the development of intestinal type gastric carcinomas. Recent investigations showed that inflammatory reaction in the gastric fundus affect the development of gastric carcinogenesis. To verify neutrophilic activity in the gastric fundus and development of intestinal metaplasia in both gastric fundus and antral mucosa, their relationship was studied using 159 healthy patients who had undergone gastric endoscopic biopsies without any identifiable pathologic disesaes. When neutrophilic activity accompanied, incidence of intestinal metaplasia was significantly increased (p<0.05). H. pylori infection was statistically and significantly associated with the presence of intestinal metaplasia (p<0.05). These results suggest that H. pylori infection affected the development of intestinal metaplasia in the stomach. These results will help our understanding of H. pylori infection in the pathogenesis of intestinal metaplasia, a preneoplastic condition of the stomach. To reduce the incidence of gastric adenocarcinoma, eradication treatment of H. pylori is recommended when there's a neutrophilic activity in the gastric fundus.

• Molecules and Cells
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• 제39권11호
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• pp.834-840
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• 2016

Caenorhabditis elegans (C. elegans) utilizes two different cell-cycle modes, binucleations during the L1 larval stage and endoreduplications at four larval moltings, for its postembryonic intestinal development. Previous genetic studies indicated that CDC-25.2 is specifically required for binucleations at the L1 larval stage and is repressed before endoreduplications. Furthermore, LIN-23, the C. elegans ${\beta}$-TrCP ortholog, appears to function as a repressor of CDC-25.2 to prevent excess intestinal divisions. We previously reported that intestinal hyperplasia in lin-23(e1883) mutants was effectively suppressed by the RNAi depletion of cdc-25.2. Nevertheless, LIN-23 targeting CDC-25.2 for ubiquitination as a component of E3 ubiquitin ligase has not yet been tested. In this study, LIN-23 is shown to be the major E3 ubiquitin ligase component, recognizing CDC-25.2 to repress their activities for proper transition of cell-cycle modes during the C. elegans postembryonic intestinal development. In addition, for the first time that LIN-23 physically interacts with both CDC-25.1 and CDC-25.2 and facilitates ubiquitination for timely regulation of their activities during the intestinal development.

• BMB Reports
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• 제45권8호
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• pp.433-441
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• 2012

Human milk, which nourishes the early infants, is a source of bioactive components for the infant growth, development and commensal formulation as well. Human milk oligosaccharide is a group of complex and diverse glycans that is apparently not absorbed in human gastrointestinal tract. Although most mammalian milk contains oligosaccharides, oligosaccharides in human milk exhibit unique features in terms of their types, amounts, sizes, and functionalities. In addition to the prevention of infectious bacteria and the development of early immune system, human milk oligosaccharides are able to facilitate the healthy intestinal microbiota. Bifidobacterial intestinal microbiota appears to be established by the unilateral interaction between milk oligosaccharides, human intestinal activity and commensals. Digestibility, membrane transportation and catabolic activity by bacteria and intestinal epithelial cells, all of which are linked to the structural of human milk oligosaccharides, are crucial in determining intestinal microbiota.

• IMMUNE NETWORK
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• 제13권6호
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• pp.227-234
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• 2013

The intestinal immune system has an ability to distinguish between the microbiota and pathogenic bacteria, and then activate pro-inflammatory pathways against pathogens for host defense while remaining unresponsive to the microbiota and dietary antigens. In the intestine, abnormal activation of innate immunity causes development of several inflammatory disorders such as inflammatory bowel diseases (IBD). Thus, activity of innate immunity is finely regulated in the intestine. To date, multiple innate immune cells have been shown to maintain gut homeostasis by preventing inadequate adaptive immune responses in the murine intestine. Additionally, several innate immune subsets, which promote Th1 and Th17 responses and are implicated in the pathogenesis of IBD, have recently been identified in the human intestinal mucosa. The demonstration of both murine and human intestinal innate immune subsets contributing to regulation of adaptive immunity emphasizes the conserved innate immune functions across species and might promote development of the intestinal innate immunity-based clinical therapy.

• Pediatric Gastroenterology, Hepatology & Nutrition
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• 제22권4호
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• pp.303-329
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• 2019

Intestinal failure (IF) is the critical reduction of the gut mass or its function below the minimum needed to absorb nutrients and fluids required for adequate growth in children. Severe IF requires parenteral nutrition (PN). Pediatric IF is most commonly due to congenital or neonatal intestinal diseases or malformations divided into 3 groups: 1) reduced intestinal length and consequently reduced absorptive surface, such as in short bowel syndrome (SBS) or extensive aganglionosis; 2) abnormal development of the intestinal mucosa such as congenital diseases of enterocyte development; 3) extensive motility dysfunction such as chronic intestinal pseudo-obstruction syndromes. The leading cause of IF in childhood is the SBS. In clinical practice the degree of IF may be indirectly measured by the level of PN required for normal or catch up growth. Other indicators such as serum citrulline have not proven to be highly reliable prognostic factors in children. The last decades have allowed the development of highly sophisticated nutrient solutions consisting of optimal combinations of macronutrients and micronutrients as well as guidelines, promoting PN as a safe and efficient feeding technique. However, IF that requires long-term PN may be associated with various complications including infections, growth failure, metabolic disorders, and bone disease. IF Associated Liver Disease may be a limiting factor. However, changes in the global management of IF pediatric patients, especially since the setup of intestinal rehabilitation centres did change the prognosis thus limiting "nutritional failure" which is considered as a major indication for intestinal transplantation (ITx) or combined liver-ITx.

• Journal of Dairy Science and Biotechnology
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• 제27권1호
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• pp.53-57
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• 2009

Lactic acid bacteria (LAB) Play an important role in the human diet and are used in the production of edible fermented products such as kimchi and yoghurt. LAB are regarded as safe food additives used to enhance the nutritive value of foods. Plant-origin lactic acid bacteria (PLAB) cultured in vegetal media are now widely used in food industries. PLAB have been found to activate intestinal immunity, modulate the balance of the intestinal bacterial from, and enhance intestinal function. They are known for their strong resistance to acid; this enables them to persist for a longer duration in the human intestine. PLAB can also survive in the intestinal environment under conditions of poor nutrition. They have stronger vitality as compared to LAB of animal origin. Due to the unique characteristics of PLAB, they are being widely used in Japan for processing foods such as yoghurt and beverages. Recently, PLAB has also been used as the culture for processing yoghurt in Korea. We expect further research on the functional effects of PLAB.

• 한국미생물·생명공학회지
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• 제33권3호
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• pp.159-168
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• 2005

인간의 장(腸)은 태어날 때만 해도 무균 상태이지만 태어나면서 산모나 주위 환경에 의해 미생물이 형성되기 시작한다. 미생물은 숙주 안에서 면역, 영양학적, 생리학적, 보호과정 등의 특징을 유발시키며, 밀접한 상호작용을 한다[6,24, 35]. 많은 연구를 통해 장내 미생물이 우리에게 주는 이로운 점들이 밝혀 지긴 했지만, 우리가 목표로 하는 장내 미생물이 숙주의 장내, 건강 상태를 조절하는 메커니즘은 아직 뚜렷하게 밝혀 지지 않고 있다. 즉, 숙주(인간)의 건강의 상태를 결정지어 주는 장내미생물 biomarker의 확립이 아직 불분명한 상태이다. 장내미생물의 방대한 다양성으로 인하여, 이를 연구하기 위한 분자 생태학 기술의 올바른 접목과 더 나은 방향으로의 기술 발전이 필요하다. 앞으로 더 나은 기술 개발을 통해, 신생아 장내의 초기에 형성되는 미생물을 검출하고, 여러 외부 요인에 따라 어떻게 연속되어 가면서 어떠한 역할을 하는지를 밝힐 수 있다면, 질병 치료뿐 아니라 예방도 가능해 질 것이다.