1.A comparative study on clinical effect of Naukan therapy and health education in patients with alcohol dependence
Yanting YUAN ; Qinfeng ZHANG ; Qingtao REN ; Yingzhi LU
Chinese Journal of Behavioral Medicine and Brain Science 2013;22(11):1010-1013
Objective To explore Naukan therapy and health education combined with drug treatment clinical efficacy in the treatment of alcohol dependence.Methods The 66 cases of male alcohol dependent patients were randomly divided into study group (33 cases) and control group (33 cases),and both of patients were taking generic drugs.The study group was given Naukan treatment (including centralized within concept and dispersion Vipassana),and the control group received health education (including collective health education and individual health education).Duration of treatment was 4 weeks,the total number of hours were 55.5 h,56 h.Obsessive compulsive drinking scale(OCDS),social support rating scale (SSRS),Minnesota multiphasic personality inventory (MMPI) for the two groups before and after treatment; and follow-up the rate of recovery drink three months after hospital discharge.Results ① OCDS score after treatment in the study group was lower than that in the control group,the difference was statistically significant ((48.21 ± 2.05) vs.(54.15 ± 2.01),t =11.885,P<0.01).②After treatment SSRS total score,objective support,subjective support,social utilization factor scores were higher than those in the control group,and differences were statistically significant ((49.05±5.63)vs.(40.15±6.50),t=5.946,P=0.000) ; ((14.32±3.51) vs.(8.72±6.22),t=4.504,P< 0.05) ; (27.02±4.26) vs.(19.45±4.92),t=6.682,P=0.000; (10.02±3.30) vs.(7.52±3.86),t=2.828,P=0.006).③MMPI with schizophrenia (Sc),paranoia (Pa),mental weakness (Pt),psychopathy (Pd) ie 8/6/7/4 model-based in two groups,and Sc,Pa,Pd,Pt dimensions of the original sub in study group were lower than those in the control group after treatment,in addition to outside Pt differences were statistically significant ((25.43 ± 6.76) vs.(29.01 ± 6.72),t =2.158,P=0.035; (14.12±6.01) vs.(18.32±6.42),t=2.744,P=0.008; (18.63±6.85) vs.(23.29±6.12),t=2.342,P=0.022).④Redrinking rate in study group was 39.39% (11/33),and 72.73% (24/33)in the control group,the difference was statistically significant(x2 =7.44,P<0.05).Conclusion The Naukan therapy combined with general drug treatment can solve the problem of patients with alcohol dependenceof alcohol dependence in the psychological and physiological aspects,and its efficacy is superior to general health education combined drug therapy.
2.Effects of different iodine concentration in drinking water on iodine nutrition, thyroid function and volume
Qingzhen JIA ; Xiangdong ZHANG ; Yanting REN ; Baisuo GUO ; Yongping WANG
Chinese Journal of Endemiology 2014;33(5):540-544
Objective Toinvestigate iodine nutrition,thyroid volume and function of children and women in high water iodine areas,and to discuss the cut-off point of water iodine level where should be defined as iodine excessive areas.Methods In iodine excessive townships in Xiaodian and Qingxu Counties of Taiyuan City,all villages were divided to 4 groups according to the concentration of iodine in drinking water:50 ~ < 100 μg/L (Group A),100 ~ < 150 μg/L(Group B),150 ~ < 300 μg/L(Group C) and ≥300 μg/L(Group D),and 2-3 villages were randomly selected from each group as investigation sites.Two hundred children aged 8-10 and 60 women (20 pregnant women,20 breasffeeding women and 20 women of childbearing age,respectively) were sampled.Drinking water,edible salt and once random urine samples for each studying object were collected,and the iodine content was measured.The goiter volume of children aged 8-10 and triiodothyronine (FT3),free thyroxine (FT4),thyroid stimulating hormone (TSH) of women were determined.Results Totally 708 children and 236 women were selected as respondents who ate non-iodized salt.Iodine content in drinking water of children in groups A,B,C and D was 73.8,144.7,258.5 and 501.0 μg/L,respectively,and that of women was 73.8,144.7,242.7 and 485.9 μg/L,respectively.Median urinary iodine of children in groups A,B,C and D was 274.3,312.8,455.6 and 793.5 μg/L,respectively,and that of women was 238.3,235.2,371.6 and 641.6 μg/L,respectively.The median urinary iodine of children and women increased with increasing water content of iodine.The goiter rate of children was 5.6% (11/196),13.2% (25/189),12.6% (20/158) and 10.9% (18/165) for each group,respectively,which also increased with increasing water content of iodine.In groups A,C and D,the FT3 and FT4 levels[pmol/L:(3.70 ± 0.59),(14.01 ± 2.44); (3.43 ± 0.57),(12.87 ± 2.12); (3.42 ± 0.47),(12.66 ±1.78)] in pregnant woman were lower than those in breasffeeding women[pmol/L:(4.26 ± ±0.57),(14.73 ± 2.36;(4.28 ± 0.40),(14.77 ± 1.19); (4.36 ± 0.65),(15.66 ± 2.84)] and women of childbearing age[pmol/L:(4.80 ±0.50),(17.47 ± 2.11); (4.21 ± 0.48),(15.83 ± 1.64); (4.26 ± 0.52),(15.53 ± 1.81)].With increasing water content of iodine,FT4 level was decreasing and TSH level was increasing gradually in women.Conclusions When water iodine exceeds 100 μg/L,goiter rate of children has increased significantly.Iodine excessive women and children have appeared one after another with increasing water content of iodine.Women incidence of subclinical hypothyroidism risk has increased with increasing water content of iodine,and the detection rate of subclinical hypothyroidism is significantly higher when water iodine is higher than 300 μg/L.The cut-off point of iodine excessive areas should be descend from 150 μg/L to 100 μg/L.
3.An analysis of the monitoring results on iodine nutrition of high water iodine areas in Shanxi Province in 2014
Yanting REN ; Qingzhen JIA ; Xiangdong ZHANG ; Baisuo GUO ; Fengfeng ZHANG ; Yongping WANG
Chinese Journal of Endemiology 2016;35(3):195-199
Objective To investigate resident iodine nutrition level in waterborne high iodine areas and prevalence of high iodine goiter in Shanxi Province.Methods In 2014,in Shanxi Province,in all the 10 high iodine counties (cities,districts),the jurisdiction area of each county (city,district) was divided into two blocks,high iodine and not high iodine districts,and in high iodine area of each county (city,area) according to their sub-area positions of east,south,west,north and center,a township was randomly selected (if the number of high iodine area in iodine excessive township ≤5,all townships were selected);four administrative villages in each monitoring township were randomly selected;in each administrative village,the edible salt samples of 15 randomly selected households were collected for detection of iodine content.Five counties (cities,districts) were selected from the province's 10 high iodine counties (cities,districts),water iodine content of 3 counties (cities,districts) was 150-300 μg/L,and 2 were > 300 μg/L,one administrative village was selected from each county (city,area),household drinking water samples were collected to detect iodine content;and 100 elementary school children aged 8-10 were selected from the village where the monitoring stations located in for thyroid volume ultrasound measurement,and 30 of them were randomly selected for urinary iodine content detection.Results ① In the 10 high iodine counties (cities,districts),1 680 households salt samples were detected,and the rate of no iodine salt samples was 89.2%(1 499/1 680).② Fourteen water samples were collected in 5 counties (cities,districts),and the water iodine content was 155.7-467.3 μg/L.③ In the five high iodine counties (cities,districts),197 urine samples were collected from children aged 8 to 10.The median of urinary iodine was 466.5 μg/L;the median urinary iodine was 650.1 μg/L in water iodine≥300 μg/L children group which was significantly higher than that of the group with 150-300 μg/L water iodine content 332.5 μg/L (Z =-6.164,P < 0.05);urinary iodine level of children and the water iodine of the corresponding village was positively correlated (r =0.543,P < 0.05).④ In the five high iodine counties (cities,districts),543 children aged 8-10 were measured with their thyroid volume,the thyroid goiter rate was 6.8%(37/543);the goiter rate of water iodine ≥300 μg/L children group was [9.0%(28/311)] which was significantly higher than that in the iodine content of drinking water 150-300 μg/L group [3.9%(9/232),x2 =5.494,P < 0.05].Conclusion The measurement of stopping iodized salt supply in high iodine areas in Shanxi Province is well implemented,iodine nutrition level and thyroid goiter rate in those areas are still too high,high iodine intervention measures can be focused on changing of the drinking water.
4.Analysis of monitoring data in high water iodine areas in Shanxi Province in 2012
Yongping WANG ; Qingzhen JIA ; Xiangdong ZHANG ; Baisuo GUO ; Fengfeng ZHANG ; Yanting REN
Chinese Journal of Endemiology 2015;34(3):195-198
Objective To investigate the nutritional status of iodine among residents and the goiter disease of children in high water iodine areas in Shanxi Province,and to provide a scientific basis for establishment of longlasting control strategies and measures.Methods In 2012,according to the historical monitoring data,in the 10 high water iodine counties (citys,districts),one town was selected based on its location (east,west,south,north and middle) in each county (citie,district).In county (city,district) with 5 townships or less,all townships were selected.Four villages were selected in each township and fifteen residents in each village were selected to test salt iodine level.In five high water iodine counties (city,district),one or two high water iodine villages were selected,water samples were collected and the iodine content was measured; one hundred students aged 8-10 years old were chosen to examine their thyroid size.Thirty children were chosen from above students to collect their urine samples and to determine the iodine content.Results In 10 high water iodine counties (citys,districts),1 680 salt samples were tested.The rate of non-iodized salt was 85.2% (1 432/1 680); in six villages of five high water iodine counties (citys,districts),the median of urinary iodine of 256 children aged 8 to 10 was 487.2 μg/L; in three villages which had improved the quality of water,the median of urinary iodine was 271.0 μg/L; other three villages which had not improved the quality of water,the median of urinary iodine was 692.6 μg/L.In those villages which had not improved the quality of water,urinary iodine of children ≥300 μg/L accounted for 85.8% (139/162); in those villages which had improved the quality of water,high urinary iodine of children accounted for 41.5% (39/94),and the difference was statistically significant (x2 =53.06,P < 0.05).The thyroid was investigated among 591 children aged 8-10 years old,and the goiter rate was 6.6%(39/591).In those villages which had improved the quality of water,the goiter rate of children was 3.8% (11/291),but in villages which had not improved the quality of water,the goiter rate of children was 9.3% (28/300),and the difference was statistically significant (x2 =6.52,P < 0.05).Conclusion The iodine nutrition level of residents in high water iodine areas in Shanxi is excessive,children's goiter disease has not been effectively controlled; water improvement to reduce iodine is the basic way to control the disease of high iodine.
5.Influence of adjustment of universal salt iodization strategy on iodine deficiency disorders epidemic trend in Shanxi Province
Xiangdong ZHANG ; Qingzhen JIA ; Baisuo GUO ; Yongping WANG ; Yanting REN ; Lingling HAN
Chinese Journal of Endemiology 2015;34(3):204-207
Objective To analyze the effect of adjustments of control strategy on epidemic trend of iodine deficiency disorders (IDD) in Shanxi Province after universal salt iodization (USI),and to provide basis for timely adopting targeted control countermeasure and scientifically adjusting intervention strategy.Methods A method of retrospective analysis was performed to collect data from IDD surveillance at national or province levels after 1995,and from iodized salt surveillance of the province after 2004.According to the statistics and analysis of children's goiter rate,median urinary,median and mean of salt iodine,coverage rate of iodized salt,qualified rate of iodized salt,consumption rate of qualified iodized salt and their relationship.Results Since 1995,the children's goiter rate by palpation and B-ultrasound showed a steady descending trend.The median salt iodine,mean salt iodine and children's median urinary iodine showed a trend of rise→decline→stable→decline.Namely:The three indicators began to rise year by year from 1995 (29.1 mg/kg,31.7 ± 15.0 mg/kg,199.3 μg/L),in 1999 (48.7 mg/kg,53.4 ± 29.4 mg/kg,407.5 μg/L) reached its climax; and then decreased,in 2001 (34.7 mg/kg,36.2 ± 11.9 mg/kg,282.1 μg/L)stoped; which were basically stable from 2001 to 2011; since 2013 (26.0 mg/kg,26.5 ± 6.3 mg/kg,192.0 μg/L),a significant decline began.The rate and edible rate of qualified iodized salt showed a trend of decline→rise→stable.Two indexes began to decline circuitously from 1995 (72.61%,68.25%),and dipped to a low point in 1999 (44.80%,43.67%); then began to rise,until 2002 (94.73%,91.80%) reached basic stability; and remained steady from 2002 to 2013.Conclusions Following the process of prevention and treatment of IDD for more than 30 years in Shanxi Province,with the depth understanding of the range of adequate iodine nutrition,according to the monitoringfeedback mechanism,the strategy of salt iodization has been adjusted several times,the target of continuous elimination of IDD has achieved since 2000 and the levels of iodine nutrition in population are more reasonable.Salt iodization strategy should continue to adhere to.
6.An analysis of monitoring data of iodine deficiency disorders in Shanxi Province in 2014
Yongping WANG ; Qingzhen JIA ; Sanxiang WANG ; Xiangdong ZHANG ; Baisuo GUO ; Fengfeng ZHANG ; Zhenghui WANG ; Jun LI ; Xiaotian CHENG ; Zhaoming WU ; Yanting REN
Chinese Journal of Endemiology 2016;35(12):896-900
Objective To master the iodine nutritional status of residents and to evaluate the effect of iodine nutrition improvement on residents health after the adjustment of salt iodine concentration. Methods According to the method of population proportion sampling, 30 county-level monitoring sites were selected in 2014, a primary school was selected from each county (city, district) by the method of simple random sampling and 50 students aged 8 - 10 (half males and half females) were selected in each school, B ultrasound was used to detect thyroid volume, arsenic cerium catalytic spectrophotometry (WS/T 107-2006) was used to detect urinary iodine, direct titration was used to detect salt iodine; At the same time, 20 pregnant women were selected from each town and urinary iodine was determined. All results were compared with the results of 2011 to evaluate the effect of iodine nutrition improvement on resident's health after the adjustment of salt iodine concentration. Results A total of 1 437 edible salt samples were tested, the median of salt iodine concentration was 24.1 mg/kg. Based on the new standard (18 - 33 mg/kg), the coverage rate of iodized salt was 95.4%(1 371/1 437), the qualified rate of iodized salt was 80.3%(1 101/1 371), the consumption rate of qualified iodized salt was 76.6% (1 101/1 437). A total of 1 496 urine samples of children and 630 urine samples of pregnant women were tested, the median of urinary iodine of children and pregnant women was 224.6 and 177.1 μg/L, respectively, which were significantly lower than those of 2011 (274.6, 279.6μg/L), the differences were statistically significant (H=70.10, 153.50, all P<0.05). The proportion of counties which iodine nutrition of children and pregnant women in suitable range was 36.7% (11/30) and 56.7% (17/30), which were higher than those of 2011 [6.5%(2/31), 25.8%(8/31)], the differences were statistically significant (χ2 = 7.88, 5.00, all P < 0.05). Totally 1 552 children were examined thyroid in Shanxi Province, the rate of goiter was 4.4% (69/1 552). Conclusion The new standard of iodine concentration makes it possible to maintain a sustainable elimination of iodine deficiency disorders, and it can improve the iodine nutrition of children aged 8-10 years and pregnant women to more reasonable level.
7.Iodine nutrition and thyroid function in different populations after 20 years of universal salt iodization in iodine deficiency area of Shanxi Province
Qingzhen JIA ; Xiangdong ZHANG ; Yanting REN ; Zhenghui WANG ; Baisuo GUO ; Fengfeng ZHANG ; Zhaoming WU
Chinese Journal of Endemiology 2019;38(7):541-546
Objective To understand the iodine nutritional status and thyroid function of different populations after 20 years of universal salt iodization in iodine deficiency area of Shanxi Province, and to provide data support for scientific iodine supplementation according to local conditions. Methods In 2014, six townships (Chengguan, Dadeng, Dengzhuang, Gucheng, Xiangling and Fencheng townships) in Xiangfen County, Linfen City, Shanxi Province, were selected as the place of investigation. Four hundred school-age children aged 6 - 12 years (school-age children), 400 child-bearing women aged 18 - 44 (child-bearing women), 400 pregnant women, 400 lactating women and their 0 - 6 months breast-feeding infants (breast-feeding infants), and 400 children aged 7 -24 months were selected by two-stage sampling method. Water samples of school-age children's domestic drinking water and salt samples for domestic consumption were collected, and the water iodine and salt iodine were detected by arsenic and cerium catalytic spectrophotometry ( recommended by the National Iodine Deficiency Disorders Reference Laboratory) and "General Test Method in Salt Industry-Determination of Iodine" (GB/T 13025.7-2012). Random urine samples of all subjects were collected, urine iodine was detected by "Method for Determination of Iodine in Urine by As3+-Ce4+ Catalytic Spectrophotometry" ( WS/T 107-2006 ) . Samples of filter paper dried blood spots (DBS) of school-age children, child-bearing women, pregnant women, lactating women and breast-feeding infants were collected, and serum total thyroxine (TT4) and thyroid stimulating hormone (TSH) levels were detected by time-resolved fluorescence immunoassay. Results A total of 290 water samples were collected, and the median of water iodine was 9.37μg/L. A total of 406 salt samples were collected, the median of salt iodine was 25.0 mg/kg, the coverage rate of iodized salt was 98.52% (400/406), and the consumption rate of qualified iodized salt was 92.61% (376/406). Urine samples of 389 school-age children, 379 child-bearing women, 363 pregnant women, 365 lactating women, 366 breast-feeding infants, and 366 children aged 7 - 24 months were collected, and the medians of urine iodine were 200.7, 175.0, 186.0, 113.2, 285.8 and 204.8 μg/L, respectively. Among them, school-age children, breast-feeding infants, and children aged 7-24 months were over the appropriate level, while the rest populations were at the iodine appropriate levels. Blood samples of 402 school-age children, 397 child-bearing women, 398 pregnant women, 390 lactating women, and 386 breast-feeding infants were collected, and the medians of TT4 were 127.2, 110.2, 141.7, 95.8 and 139.0 nmol/L, respectively; the medians of TSH were 1.2, 0.9, 0.8, 0.9 and 0.9 mU/L, respectively, and they were all within the reference ranges. The abnormal rates of TT4 (8.46%, 33/390) and TSH (7.95%, 31/390) in lactating women were higher than those in school-age children, child-bearing women, pregnant women and breast-feeding infants [TT4 abnormal rates were 0.25%(1/402), 1.26% (5/397), 0.50% (2/398), 1.04% (4/386), respectively; TSH abnormal rates were 1.24% (5/402), 1.51% (6/397), 1.51% (6/398) and 0.78% (3/386), respectively, P < 0.05]. The rate of thyroid dysfunction in lactating women (7.95%, 31/390) was higher than those in the rest populations [1.24% (5/402), 1.51% (6/397), 1.51% (6/398), 0.78% (3/386), P < 0.05]. Conclusions The iodine intake of different populations in the survey area is generally sufficient, and the current salt iodine content standard can meet the iodine nutrition needs of different populations. Lactating women have a high rate of thyroid dysfunction. It is suggested to stick to the strategy of universal salt iodization to prevent iodine deficiency hazards in iodine deficiency areas, and further strengthen the monitoring of iodine nutrition and thyroid function of pregnant women and lactating women.
8.A contrast analysis of iodine nutrition levels of pregnant women before and after implementing the new standard of iodized salt in Shanxi Province
Hushun DUAN ; Xiangdong ZHANG ; Baisuo GUO ; Yongping WANG ; Fengfeng ZHANG ; Yanting REN ; Xiaotian CHENG ; Lingling HAN ; Qingzhen JIA
Chinese Journal of Endemiology 2018;37(4):323-325
Objective To study the nutritional status of pregnant women in Shanxi Province before and after the implementation of the new standards of iodized salt content,provide the basis for scientific supplementation of iodine for pregnant women.Methods According to the method of population proportion sampling,30 county-level monitoring sites were selected,a primary school was selected from each county (city,district) by the method of simple random sampling and 40 students in 2011 or 50 students in 2014 aged 8-10 years were selected in each school,direct titration was used to detect salt iodine;at the same time,20 pregnant women were selected from each town where the primary school was located and urinary iodine was determined using arsenic cerium catalytic spectrophotometry (WS/T 107-2006).Results A total of 1 182 and 1 437 salt samples was detected in Shanxi Province in 2011 and 2014,the median of salt iodine was 30.5 and 24.1 mg/kg,respectively,and the difference was statistically significant (H =567.45,P < 0.01);it was 95.41%,80.31%,76.62% of the coverage rate of iodized salt,qualified rate of iodized salt,qualified iodized salt consumption rate in 2014,respectively;which were compared with those in 2011 (97.63%,97.49%,95.18%),the differences were statistically significant (x2 =9.27,232.40,166.25,P < 0.01).A total of 440 and 630 urinary samples of pregnant women were tested in 2011 and 2014,the median of urinary iodine was 279.6 and 177.1 μg/L,respectively,iodine nutrition of pregnant women was more than adequate in 2011,and iodine nutrition was suitable in 2014.The difference was statistically significant (H =153.89,P < 0.01).The proportion of pregnant women's median of urinary iodine less than 150 μg/L in 2014 [41.11% (259/ 630)] was significantly higher than that in 2011 [8.18% (36/440),x2 =140.68,P < 0.01].The constituent ratio of 250 to 500 μg/L was significantly decreased [23.65% (149/630) vs 54.77% (241/440),x2 =108.33,P < 0.01).Conclusion It is at a reasonable level of iodine nutrition level of pregnant women in Shanxi after the adjustment of iodized salt content,but the ratio of < 150 μg/L is increasing,which needs to be paid attention to.
9.Analysis of general survey results of iodine content in drinking water of Shanxi Province
Baisuo GUO ; Xiangdong ZHANG ; Fengfeng ZHANG ; Yanting REN ; Yongping WANG ; Yulan JING ; Jing JI ; Jie HUAN ; Hongyun CHEN ; Xiaotian CHENG ; Qingzhen JIA
Chinese Journal of Endemiology 2018;37(2):128-131
Objective To understand the distribution of water iodine in the external environment of Shanxi Province, and to provide a basis for redefining and implementation of scientific iodine supplementation in iodine deficiency, iodine adequate or iodine high areas. Methods In 2012 - 2016, administrative villages (neighborhood committees)in 119 counties(cities,districts)in 11 cities of Shanxi Province were selected as the investigation units, and 1 to 5 drinking water samples were collected. Water iodine content was detected using arsenic-cerium catalytic spectrophotometry. Areas standard was designated: water iodine content < 10 μg/L as iodine deficiency areas, > 100 μg/L as iodine high areas. Results A total of 26 213 administrative villages (neighborhood committees) of 1 362 townships (towns) of 119 counties (cities, districts) were surveyed, covering 2 850.94 ten thousand people. A total of 32 766 water samples were collected and the median iodine was 5.2 μg/L. There were 18 199 villages with water iodine < 10 μg/L, accounting for 69.4% (covering 1 812.17 ten thousand people, accounting for 63.6%), 6 471 villages with water iodine 10-<50 μg/L,accounting for 24.7%(covering 787.44 ten thousand people,accounting for 27.6 %),1 166 villages with water iodine 50 - < 100 μg/L,accounting for 4.4% (covering 181.46 ten thousand people, accounting for 6.4%), 377 villages with water iodine ≥100 μg/L, accounting for 1.4%(covering 69.87 ten thousand people, accounting for 2.5%).In 1 362 townships (towns), 71.1% (969)water iodine median was<10 μg/L,24.2%(330)water iodine median was in 10-<50 μg/L,3.4%(46)water iodine median was in 50-<100 μg/L,and 1.2%(17) water iodine median was ≥100 μg/L. In 119 counties(cities,districts),there were 90 counties(accounting for 75.6%) with the water median < 10 μg/L, there were 26 counties (accounting for 21.8%) with the water median 10 - < 50 μg/L. Conclusions Most parts of Shanxi Province(or the resident population) are iodine deficiency areas, the external environment water iodine contents in the rest of the regions are different, we should adopt different iodine supplement or iodine reduction measures in regions with different water iodine levels.
10.SPDEF suppresses head and neck squamous cell carcinoma progression by transcriptionally activating NR4A1.
Yanting WANG ; Xianyue REN ; Weiyu LI ; Ruoyan CAO ; Suyang LIU ; Laibo JIANG ; Bin CHENG ; Juan XIA
International Journal of Oral Science 2021;13(1):33-33
SAM pointed domain containing E26 transformation-specific transcription factor (SPDEF) plays dual roles in the initiation and development of human malignancies. However, the biological role of SPDEF in head and neck squamous cell carcinoma (HNSCC) remains unclear. In this study, the expression level of SPDEF and its correlation with the clinical parameters of patients with HNSCC were determined using TCGA-HNSC, GSE65858, and our own clinical cohorts. CCK8, colony formation, cell cycle analysis, and a xenograft tumor growth model were used to determine the molecular functions of SPDEF in HNSCC. ChIP-qPCR, dual luciferase reporter assay, and rescue experiments were conducted to explore the potential molecular mechanism of SPDEF in HNSCC. Compared with normal epithelial tissues, SPDEF was significantly downregulated in HNSCC tissues. Patients with HNSCC with low SPDEF mRNA levels exhibited poor clinical outcomes. Restoring SPDEF inhibited HNSCC cell viability and colony formation and induced G0/G1 cell cycle arrest, while silencing SPDEF promoted cell proliferation in vitro. The xenograft tumor growth model showed that tumors with SPDEF overexpression had slower growth rates, smaller volumes, and lower weights. SPDEF could directly bind to the promoter region of NR4A1 and promoted its transcription, inducing the suppression of AKT, MAPK, and NF-κB signaling pathways. Moreover, silencing NR4A1 blocked the suppressive effect of SPDEF in HNSCC cells. Here, we demonstrate that SPDEF acts as a tumor suppressor by transcriptionally activating NR4A1 in HNSCC. Our findings provide novel insights into the molecular mechanism of SPDEF in tumorigenesis and a novel potential therapeutic target for HNSCC.
Carcinogenesis
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Cell Proliferation
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Head and Neck Neoplasms
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Humans
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Nuclear Receptor Subfamily 4, Group A, Member 1
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Proto-Oncogene Proteins c-ets
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Squamous Cell Carcinoma of Head and Neck
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Transcription Factors