Abstract Acetylcholine receptor-(AcChR) specific T cell lines were propagated from the PBL of six myasthenia gravis (MG) patients by the use of a pool of synthetic peptides (alpha-pool) corresponding to the complete sequence of the alpha-subunit of the human AcChR. All the lines had CD4+ phenotype and strongly recognized the alpha-pool. Four lines cross-reacted with native Torpedo AcChR. Five lines showed, at certain stages of their propagation, some degree of reactivity to autologous or DR-matched APC. One of the CD4+ T lines was challenged with each one of the peptides present in the alpha-pool. Several peptides, corresponding to the sequence segments 48-67, 101-120, 304-322, 320-337, and 419-437 of the human alpha-subunit were recognized, indicating that different epitopes and multiple T cell clones are involved in the recognition of the autoantigen in MG. Human AcChR-specific CD4+ T cell lines will be useful to identify the repertoire of epitopes recognized by the autoreactive Th cells in MG, to investigate the TCR genes utilized by autoreactive Th cells and to develop specific immunosuppressive treatments using anti-T cell vaccination.
ADVERTISEMENT RETURN TO ISSUEPREVArticleNEXTStructural determinants within residues 180-199 of the rodent .alpha.5 nicotinic acetylcholine receptor subunit involved in .alpha.-bungarotoxin bindingKathryn E. McLane, Xiadong Wu, and Bianca M. Conti-TronconiCite this: Biochemistry 1991, 30, 44, 10730–10738Publication Date (Print):November 1, 1991Publication History Published online1 May 2002Published inissue 1 November 1991https://doi.org/10.1021/bi00108a018RIGHTS & PERMISSIONSArticle Views32Altmetric-Citations16LEARN ABOUT THESE METRICSArticle Views are the COUNTER-compliant sum of full text article downloads since November 2008 (both PDF and HTML) across all institutions and individuals. These metrics are regularly updated to reflect usage leading up to the last few days.Citations are the number of other articles citing this article, calculated by Crossref and updated daily. Find more information about Crossref citation counts.The Altmetric Attention Score is a quantitative measure of the attention that a research article has received online. Clicking on the donut icon will load a page at altmetric.com with additional details about the score and the social media presence for the given article. Find more information on the Altmetric Attention Score and how the score is calculated. Share Add toView InAdd Full Text with ReferenceAdd Description ExportRISCitationCitation and abstractCitation and referencesMore Options Share onFacebookTwitterWechatLinked InReddit PDF (4 MB) Get e-Alerts Get e-Alerts
Susceptibility to experimental autoimmune myasthenia gravis (EAMG), which is induced in mice by injection of purified Torpedo nicotinic acetylcholine receptor (TAChR), is influenced by the I-A locus products, which restrict presentation of AChR Th epitopes. The bm12 mutation of the I-Ab molecule in the C57BL/6 strain, which is highly susceptible to EAMG, yields the EAMG resistant mutant B6.C-H-2bm12 (bm12). We investigated here the consequences of the bm 12 mutation on the CD4+ response to the TAChR alpha subunit. Upon immunization with TAChR, CD4+ cells became sensitized to TAChR and anti-AChR antibodies were produced in both bm12 and C57BL/6 strains. Overlapping synthetic peptides, corresponding to the complete sequence of TAChR alpha subunit, were used to identify Th epitopes. CD4+ cells from C57BL/6 mice recognized peptides T alpha 150-169, T alpha 181-200, and T alpha 360-378. CD4+ cells from bm12 mice did not respond to any synthetic sequence. Upon injection of the three C57BL/6 Th epitope peptides, either individually or as a pool, CD4+ cells from C57BL/6 mice recognized each peptide and TAChR. Therefore they recognized epitopes similar or identical to those originated from TAChR processing. CD4+ cells from bm12 mice injected with the same peptides responded to T alpha 360-378 strongly, to a lesser extent to T alpha 181-200, never to peptide T alpha 150-169. Only CD4+ cells sensitized against the T epitope peptide T alpha 181-200 responded to TAChR. We tested if lack of response to T alpha 150-169, and the low response to T alpha 181-200, was due to inability of the I-Abm12 molecule to present the T epitope peptides. bm12 and C57BL/6 APC were used to present the T epitope peptides to specifically sensitized CD4+ cells from C57BL/6 mice. All T epitope peptides were presented by bm12 APC, although T alpha 150-169 was presented less efficiently than by C57BL/6 APC. Resistance to EAMG induced by the bm12 mutation may be due to the change in the epitope repertoire of AChR-specific Th cells, and lack of recognition of otherwise immunodominant Th epitopes. For at least one epitope this might be due to absence of potentially reactive, specific CD4+ clones.
Autoimmune T cell lines specific for muscle nicotinic acetylcholine receptor (AChR) were propagated from the blood of three myasthenia gravis patients by the use of a pool of synthetic peptides (delta-pool) corresponding to the complete sequence of the delta-subunit of human muscle AChR. Propagation of AChR-specific T cell lines was attempted unsuccessfully from four other myasthenia gravis patients and from four healthy controls. The lines had CD3+, CD4+, CD8- phenotype, strongly recognized the delta-pool, and cross-reacted vigorously with non-denatured AChR purified from mammalian muscle. They did not cross-react detectably with pools of similar overlapping synthetic peptides corresponding to the complete sequences of the alpha- and gamma-subunits of human muscle AChR. The sequence segments of the delta-subunit that contain T epitopes were identified by investigating the response of the three CD4+ T cell lines to the individual synthetic peptides forming the delta-pool. Each line had an individual pattern of peptide recognition. Although no immunodominant region, recognized in association with different DR haplotypes, could be identified, the sequence segments most strongly recognized by the CD4+ T cell lines were clustered within residues 121-290. One of the peptides more strongly recognized by the T cells corresponded to a sequence segment with high predicted propensity to form an amphipathic alpha-helix, a structural motif proposed to be typical of T epitopes.
Since the early 1980s, China has adopted favorable economic policies to attract FDI to facilitate technology development. Since inward FDI induces either sector or factor biased technical progress, the impact of FDI on income distribution between skilled and unskilled labor is not trivial. This paper introduces vertical product differentiation to analyze the impact of FDI on the return to skill and concludes that, for a labor abundant country, this impact depends on whether the FDI induced technology transfer is skill or labor biased, regardless of which sector receives FDI. The analysis shows that FDI with relatively labor biased technology will decrease the wage gap, while FDI with relatively skill biased technology will increase the profit margin of the host country's exports as well as its wage gap. The findings provide policy insights for FDI recipient countries in balancing wage growth between skilled and unskilled workers by managing inward FDI with relatively labor biased and skill biased technologies. This is particularly important for China given the expected further increase of inward FDI following its imminent membership in the WTO.
Peptides corresponding to sequence segments homologous to an alpha-bungarotoxin (alpha-BGT) binding region on the alpha subunit of the Torpedo nicotinic cholinergic receptor (nAChR) were synthesized for each identified nAChR alpha subunit of the rat nervous system (alpha 1, which is expressed in muscle, and alpha 2, alpha 3, alpha 4, and alpha 5, which are expressed by neurons). The peptides were tested for their ability to directly bind 125I-alpha-BGT and to compete for 125I-alpha-BGT with Torpedo nAChR and with the alpha-BGT-binding component expressed by PC12, a sympathetic neuronal cell line. In addition to peptides of the muscle alpha 1 subunit, peptides corresponding to the sequence of a neuronal subunit, alpha 5, were able to bind 125I-alpha-BGT. Peptides containing the sequence segments 182-201 of the alpha 1 subunit and 180-199 of the alpha 5 subunit competed with Torpedo nAChR for 125I-alpha-BGT binding with IC50 values of 0.5 and 3.5 microM, respectively. Both of these peptides were also able to compete for 125I-alpha-BGT binding with native Torpedo nAChR and with the alpha-BGT-binding protein(s) expressed on PC12 cells. To determine if other sequence segments contribute to form the neuronal alpha-BGT-binding site, overlapping peptides corresponding to the putative extracellular domain of the alpha 5 subunit were synthesized and used both in direct binding assays and in competition experiments. Peptides corresponding to amino acids 16-35 and 180-199 of the alpha 5 subunit directly bound 125I-alpha-BGT and inhibited the binding of toxin to both Torpedo nAChR and PC12 cells. The results of these studies strongly support identification of the alpha 5 subunit as a component of a neuronal alpha-BGT-binding nAChR.
Methane (CH4) is the second most significant driver of global warming following carbon dioxide. However, the spatial-temporal variation of CH4 concentrations and its driving factors largely remain unclear. Here we select the Northern Hemisphere as the study area. We firstly used the data from the Total Column Carbon Observing Network (TCCON) to assess the accuracy of GOSAT Proxy XCH4 (column-averaged dry air mixing ratio of XCH4) data. We then analyzed the spatial-temporal distribution of XCH4 concentrations in the Northern Hemisphere, and further quantified the influencing factors based on geographic detectors. The results showed that during 2009-2021, the annual mean XCH4 concentrations increased from 2009 (1775.19 ppb) to 2021 (1872.71 ppb). The monthly average value was the lowest in May (1805.65 ppb) and highest in the September (1825.63 ppb). The XCH4 in the low-latitude region is higher than that in the high-latitude region. The geographic detector showed that anthropogenic activities are the main factors affecting the XCH4 concentration. Our results reveal the spatial-temporal patterns XCH4 concentrations and their driving factors in the Northern Hemisphere, and thus provide a scientific basis for the management of this greenhouse gas in the future.
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