Objective:To identify proteins associated with nasopharyngeal carcinoma (NPC) metastasis,and provide scientific basis for the prevention and cure of NPC.Methods:A two-dimensional gel electrophoresis and mass spectrometry were performed to screen for differential proteins between highly metastatic 5-8F and non-metastatic 6-10B NPC cell lines.Western blot was used to confirm the differential proteins.We used siRNA to inhibit the expression of differential protein nm23-H1 to determine the association of nm23-H1 with NPC in vitro invasive ability.Immunohistochemistry and statistics were used to evaluate the correlation of nm23-H1 expression with clinicopathological features and clinical outcomes in paraffin-embedded archival tissues including 93 cases of primary NPC and 20 cases of cervical lymphonode metastatic NPC (LMNPC).Results:A total of 15 differential proteins in the 2 cell lines were identified by a proteomic approach,and 3 differential proteins were selectively confirmed.Downregulation of nm23-H1 by siRNA significantly increased the in vitro invasive ability of 6-10B.Significant nm23-H1 downregulation was observed in LMNPC compared with primary NPC.nm23-H1 downregulation in primary NPC was positively correlated with lymphonode and distant metastasis,advanced clinical stage and recurrence.Survival curves showed that patients with nm23-H1 downregulation in primary NPC had a poor prognosis.Multivariate analysis confirmed that nm23-H1 expression level in primary NPC was an independent prognostic indicator.Conclusion:nm23-H1 behaves as a metastasis suppressor in NPC,and nm23-H1 downregulation is a biomarker for poor NPC prognosis.

Objective To observe the amplification effect of mitochondrial DNA (mtNDA) on the inflammatory response of rat alveolar macrophage induced by lipopolysaccharide (LPS), and to preliminarily explore its mechanism. Methods mtDNA of Sprague-Dawley (SD) rat liver tissue was harvested, ultra-micro spectrophotometer and 1% agarose gel electrophoresis were used to detect the concentration and quality of mtDNA. The alveolar macrophages of SD rat were isolated and cultured, the macrophages in logarithmic growth phase were divided into phosphatic buffer solution (PBS) group, LPS group, mtDNA group and LPS+mtDNA group. The first three groups were added equal volumes of PBS, LPS 1 mg/L or mtDNA 10 mg/L to the alveolar macrophages medium for 6 hours and 12 hours, respectively; the alveolar macrophage medium of LPS+mtDNA group was stimulated with 1 mg/L LPS for 6 hours and then stimulated with 10 mg/L mtDNA for 6 hours. The levels of interleukin-1β (IL-1β) and tumor necrosis factor-α (TNF-α) in the cell supernatant were detected by enzyme linked immunosorbent assay (ELISA);the expression of the key protein of Pyroptosis-Gasdermin D (GSDMD) was detected by Western Blot. Results ① The mtDNA A260/280 ratios were between 1.8-2.0, and agarose gel electrophoresis showed a single band, with a size of about 16 kb. ② After alveolar macrophages stimulated by LPS or mtDNA for 6 hours or 12 hours, respectively, the levels of IL-1β and TNF-α were higher than those in PBS group. When cells were treated with mtDNA for 6 hours after LPS stimulation 6 hours, the levels of IL-1β were higher than those in LPS 12 hours group (ng/L: 366.27±23.35 vs. 154.70±23.32, 1 < 0.01), but the levels of TNF-α had no significant difference compared with LPS 12 hours group (ng/L: 836.13±25.01 vs. 802.67±30.48, 1 > 0.05). ③ The protein expressions of GSDMD in LPS group, mtDNA group and LPS+mtDNA group were significantly higher than those in PBS group (GSDMD/β-actin: 1.77±0.05, 1.65±0.04,2.40±0.05, 1.00±0.02, all 1 < 0.01), and the protein expression of GSDMD in LPS+mtDNA group was higher than that in LPS group (1 < 0.01). Conclusion mtDNA amplifies LPS-induced alveolar macrophage inflammatory responses,which mechanism may be related to the increase in pyroptosis mediated by mtDNA.

ObjectiveTo analyze the research hotspots and frontier trends in the field of early screening tools of autism spectrum disorder (ASD) over the past two decades. MethodsThe literature on early screening tools for ASD was searched in Web of Science core collection database from 2002 to 2022. CiteSpace was used for cluster analysis of keywords, to draw knowledge mapping. Research disciplines were analyzed and comprehensively interpreted. ResultsA total of 115 articles were included. The number of researches on early screening tools for ASD had been increasing over the past two decades. The research disciplines with higher publication volume included pediatrics, neurology and neuroscience, and psychology. A total of 191 keywords were identified, and the LLR keyword clustering analysis yielded eleven clusters. ConclusionModified Checklist for Autism in Toddlers, Revised with Follow-up (M-CHAT-R/F) and Brief Infant-Toddler Social and Emotional Assessment (BITSEA) have been subjected to large-scale sample screening and follow-up observation for validity, demonstrating good psychometric properties and high clinical diagnostic value. The development of new early screening tools for ASD, validation of the reliability and validity of different language versions of the M-CHAT-R/F, and research on digital and networked M-CHAT-R/F are current research hotspots. Cultural adaptation of early screening tools for ASD and their application within the developmental monitoring framework may represent frontier research trends.

ObjectiveTo establish the multi-technique characteristic profiles of Alumen by X-ray diffraction（XRD）， Fourier-transform infrared spectroscopy（FTIR） and thermogravimetric-differential thermal analysis（TG-DTA）， and to explore the spectral characteristics for rapid identification of Alumen and its potential adulterant， Ammonium alum. MethodsA total of 27 batches of Alumen samples from 8 production regions were collected for preliminary identification based on visual characteristics. The PDF standard cards of XRD were used to differentiate Alumen from A. alum， and the XRD characteristic profiles of Alumen were established， and then the common peaks were screened. Based on hierarchical clustering analysis（HCA） and orthogonal partial least squares-discriminant analysis（OPLS-DA）， the characteristic information that could be used for identification of Alumen was selected with variable importance in the projection（VIP） value>1. FTIR characteristic profiles of Alumen were established， and key wavenumbers for identification were screened by HCA and OPLS-DA with VIP value>1. Meanwhile， the thermogravimetric differences between Alumen and A. alum were analyzed by TG-DTA， and the thermogravimetric traits that could be used for identification were screened. ResultsAlumen and A. alum could not be effectively distinguished by traits alone. However， by comparing the PDF standard cards of XRD， 15 batches of Alumen and 12 batches of A. alum could be distinguished. In the XRD profiles， 10 characteristic peaks were confirmed， corresponding to diffraction angles of 14.560°， 24.316°， 12.620°， 32.122°， 17.898°， 34.642°， 27.496°， 46.048°， 40.697° and 21.973°. In the FTIR profiles， 4 wavenumber ranges（399.193-403.050， 1 186.010-1 471.420， 1 801.190-2 620.790， 3 612.020-3 997.710 cm^-1） and 12 characteristic wavenumbers（1 428.994， 1 430.922， 1 432.851， 1 434.779， 1 436.708， 1 438.636， 1 440.565， 1 442.493， 1 444.422， 1 446.350， 1 448.279， 1 450.207 cm^-1） were identified. In the TG-DTA profiles， there were characteristic decomposition peaks of ammonium ion and mass reduction features near 555.34 ℃ for A. alum. These characteristics could serve as important criteria for distinguishing the authenticity of Alumen. ConclusionXRD， FTIR and TG-DTA can be used to rapidly detect Alumen and A. alum， and combined with the discriminant features selected through chemometrics， the rapid and accurate identification of Alumen and A. alum can be achieved. The research findings provide new approaches for the rapid identification of Alumen.

ObjectiveTo establish the multi-technique characteristic profiles of Alumen by X-ray diffraction（XRD）， Fourier-transform infrared spectroscopy（FTIR） and thermogravimetric-differential thermal analysis（TG-DTA）， and to explore the spectral characteristics for rapid identification of Alumen and its potential adulterant， Ammonium alum. MethodsA total of 27 batches of Alumen samples from 8 production regions were collected for preliminary identification based on visual characteristics. The PDF standard cards of XRD were used to differentiate Alumen from A. alum， and the XRD characteristic profiles of Alumen were established， and then the common peaks were screened. Based on hierarchical clustering analysis（HCA） and orthogonal partial least squares-discriminant analysis（OPLS-DA）， the characteristic information that could be used for identification of Alumen was selected with variable importance in the projection（VIP） value>1. FTIR characteristic profiles of Alumen were established， and key wavenumbers for identification were screened by HCA and OPLS-DA with VIP value>1. Meanwhile， the thermogravimetric differences between Alumen and A. alum were analyzed by TG-DTA， and the thermogravimetric traits that could be used for identification were screened. ResultsAlumen and A. alum could not be effectively distinguished by traits alone. However， by comparing the PDF standard cards of XRD， 15 batches of Alumen and 12 batches of A. alum could be distinguished. In the XRD profiles， 10 characteristic peaks were confirmed， corresponding to diffraction angles of 14.560°， 24.316°， 12.620°， 32.122°， 17.898°， 34.642°， 27.496°， 46.048°， 40.697° and 21.973°. In the FTIR profiles， 4 wavenumber ranges（399.193-403.050， 1 186.010-1 471.420， 1 801.190-2 620.790， 3 612.020-3 997.710 cm^-1） and 12 characteristic wavenumbers（1 428.994， 1 430.922， 1 432.851， 1 434.779， 1 436.708， 1 438.636， 1 440.565， 1 442.493， 1 444.422， 1 446.350， 1 448.279， 1 450.207 cm^-1） were identified. In the TG-DTA profiles， there were characteristic decomposition peaks of ammonium ion and mass reduction features near 555.34 ℃ for A. alum. These characteristics could serve as important criteria for distinguishing the authenticity of Alumen. ConclusionXRD， FTIR and TG-DTA can be used to rapidly detect Alumen and A. alum， and combined with the discriminant features selected through chemometrics， the rapid and accurate identification of Alumen and A. alum can be achieved. The research findings provide new approaches for the rapid identification of Alumen.