Mongolian blue spots are birthmarks that are present at birth and their most common location issacrococcygeal or lumbar area. There are macular and round, oval or irregular in shape. Lesionsmay be single or multiple. They usually spontaneously regress and disappear during childhood.The prevalence of Mongolian blue spots varies among different ethnic groups according to theoverall depth of pigmentation. Mongolian blue spots are common among Asian, East Indian, andAfrican races, but rare among Caucasian and other races. Mongolian blue spot is a congenital,developmental condition exclusively involving the skin. Mongolian blue spot results from entrapmentof melanocytes in the dermis during their migration from the neural crest into the epidermis. Thismigration is regulated by exogenous peptide growth factors that work by the activation of tyrosinekinase receptors. It is postulated that accumulated metabolites such as GM1and heparin sulfatebind to this tyrosine kinase receptor and lead to severe neurologic manifestations and aberrantneural crest migration.

Introduction: Rhodiola rosea L. (R.rosea) is a popular plant in traditional medicine of the Nordic countries, Eastern Europe, and Asia. R.rosea plants are successfully cultivated in Mongolia. The Botanical Garden of Medicinal Plants under the “Monos” Group started to cultivate R. rosea since May 2015. Objective: The aim of this research was to study the salidroside contents of R.rosea collected from Zavkhan and Khuvsgul province, Mongolia, and cultivated in the Botanical Garden of Medicinal Plants, Drug research Institute, Monos group. Material and Methods: The underground parts of wild roseroot plants were collected from April to May 2020 from Jargalant soum, Khuvsgul province, and Nomrog soum, Zavkhan province, 3-years and 4-years-old cultivated R.rosea gathered from the Botanical Garden of Medicinal Plants in April 2020. For comparison, 4-year-old Rhodiola grenulata (R. grenulata) was ordered from Shanxi Zhendong Genuine Medicinal Materials Development Co., Ltd, China, and used for the study. The quantity of the salidroside constituents of the underground parts were compared and the sourcing of roseroot raw material was evaluated. Chemical analysis of roots and rhizome of R. Rosea namely the appearance, identification, moisture, organic impurities, mineral impurities, residue on ignition, water-soluble extractives, fresh weight of roots, and salidroside content were determined according to the National Pharmacopoeia of Mongolia (NPhM) 2011. Microbiological analysis was performed in accordance with the requirements of grade 3b specified in Annex 1 of the Order No. A / 219 of the Minister of Health dated May 30, 2017 to determine the degree of microbiological purity in medicinal products of roots and rhizome raw materials. Result: The content of salidroside, the main biologically active substance of R.rosea plant, was 1.57% in samples collected from Zavkhan province, 1.45% in samples collected from Khuvsgul province, 1.7% in samples grown in China and 0.25% for 3-years-old samples and 1.89% for 4-years-old samples grown in the Botanical Garden of Medicinal Plants, Monos group, Mongolia. In addition, these raw materials meet the general requirements for plant raw materials and microbiological parameters. Conclusion Samples of underground parts of R.rosea cultivated for 4 years in the Botanical Garden of Medicinal Plants have the highest content (1.89%) of the salidrosde. Therefore, it is suggested that the roots and rhizomes of R.rosea planted in the future can be standardized and used as a raw materials for medicines.

Introduction: Helianthus tuberosus L. is main source of inuline in pharmaceutical and food industry. Pharmacological studies of the plant have showed some important therapeutic properties such as anti-diabetic, anti-osteoporosis, anti-cancer and strengthening cardiovascular system, immune system. Material and method: Helianthus tuberosus L., which has been cultivated in Botanical Garden of Medicinal Plants of Drug Research Institute, Monos Group, was used as a research raw material. The aerial and below ground parts of the plants were harvested in September 2020. The content of inulin, the main active ingredient in the plant, was determined by spectrophotometry. Raw materials of the plant were processed in several ways and prepared for further use as a pharmaceutical raw material. Result: Inulin content in Sample 1 was 34.5 ± 0.76%, Sample 2 was 70.31 ± 1.25%, Sample 3 was 78.43 ± 0.44% and Sample 4 was 75.36 ± 1.42%. The inulin content and yield were the highest in samples prepared by heat and cold cutting methods. Conclusion According to the results of appearance, yield, inulin content and moisture contents during the different processings of plant materials, it can be considered that the most suitable method for preparing Helianthus tuberosus L. as a pharmaceutical raw material is the cutting followed by freeze-drying.

Research of function of vitamin D on immune system has been studying since the study revealed that vitamin D receptor is expressed on the surface of the immune cells. 1,2-dihydroxyvitamin D3 [1,25(OH)2D], physiologically active form, can be generated through hydroxylation of 25-hydroxyvitamin D3 [25(OH)D], inactive form of vitamin D, in a liver, connecting with specific VDR make biological action. Vitamin D make different biological actions depends on connecting with different immunological cells. Some studies indicated that Vitamin D plays pivotal role in antibacterial innate immune responses through regulating reaction of the main cells as macrophages and dendritic cells. Moreover, calcitriol, the active form of vitamin D, is connected with VDRE, modulates the innate immune response through directly inducing expression of catelicithin and β-defensin as antimicrobial peptides, reducing secretion of IL-1b, IL-6, TNF-a, RANKL, COX-2 as proinflammatory cytokines and increasing production of IL-10, an anti-inflammatory cytokine. Vitamin D plays in proliferation and differentiation of T and B cells and regulates the activities of over 500 genes. Vitamin D differently impacts on per se stages of T cells’ proliferation. Vitamin D indirectly mitigates the differentiation from immature B cells to plasma B cells while it directly impacts on regulation of overloaded production of antibodies in plasma B cells. In conclusion, vitamin D modulates the innate- and adaptive immune response through regulation on activation of APCells, proliferation and differentiation of immune cells, secretion of some antibacterial peptides.

Introduction: Air pollution has become one of the major problems in socio-economic and health issues in Mongolia. Among the various hazards of particulate matter (PM) pollutants, microorganisms in PM2.5 and PM10 are thought to be responsible for various allergies and for the spread of respiratory diseases. Recent studies have shown that PM2.5 particles can cause chronic heart failure, heart arrhythmias, and strokes, as well as lung damage, cirrhosis, inflammation, cancer, cardiovascular disease, and metabolic disorders. Furthermore, some studies have concluded that PM2.5 particles in the environment are a risk factor for gastrointestinal, liver, colon, and lung cancer as well as it affects the growth and metastasis of various cancer cells caused by other factors. In our country, the health effects of air pollution and the relationship between the pathogenesis of cancer research are scarce. Therefore, the study of the effects of PM2.5 particles on cancer cell proliferation, migration (metastasis) can provide a significant role for cancer treatment, diagnosis, and prevention. Purpose: Determining the effects of PM2.5 particles on cancer cell proliferation, migration (metastasis) in in-vitro Material and Methods: A human liver cancer cell line (HepG2), human gastric cancer cell line (AGS) were obtained from the central scientific research laboratory in the Institute of medical sciences. HepG2, AGS cells were seeded at a concentration of 1*105 cells/mL in a culture flask and cultured in RPMI-1640 medium supplemented with 10% FBS, 1% antibiotic mix (penicillin, streptomycin) in a humidified atmosphere of 5% CO2 at 37 °C. The cytotoxic effect of PM 2.5 in AGS, HepG2 cells were evaluated by MTT, CCK8 assays. AGS, HepG2 cells were incubated in 96 well plates for 24h then treated with different concentrations (0, 5, 10, 25, 50 and 100 μg ) of Bayankhoshuu, Buhiin urguu, and Zaisan samples for 24h, respectively. Results: Concentrations of 10, 25, and 50 μg/ml of samples collected from the Bukhiin urguu and Zaisan in March increased HepG2 cell growth, while doses of 25, 50 μg/ml of samples collected from Bayankhoshuu in March and December increased HepG2 cell growth. Therefore, concentrations of 25 and 50 μg/ml of samples collected from Bayankhoshuu in March increased AGS cell growth, while concentrations of 25, 100 and μg/ml of samples collected in December increased AGS cell growth. However, no cytotoxic effect was observed in the sample collected from Zaisan in March, whereas the PM2.5 sample enhanced AGS cell growth in dose dependent manner in December.(p <0.05) Conclusion High levels of heavy metals were detected in samples collected in December from Bayankhoshuu, Bukhiin urguu and Zaisan of Ulaanbaatar. Concentration of 25 μg/ml of samples collected from the Bukhiin urguu and Zaisan in March increased HepG2 cell growth. Concentrations of 25 μg/ml of PM2.5 collected from three regions around Ulaanbaatar increased HepG2 and AGS cell migration.