Structural Basis for T Cell Alloreactivity among Three HLA-B14 and HLA-B27 Antigens

The existence of cytotoxic T cells (CTL) cross-reacting with the human major histocompatibility antigens HLA-B14 and HLA-B27 suggests that their alloreactivity could be due to presentation of shared peptides in similar binding modes by these molecules. We therefore determined the crystal structures of the subtypes HLA-B*1402, HLA-B*2705, and HLA-B*2709 in complex with a proven self-ligand, pCatA (peptide with the sequence IRAAPPPLF derived from cathepsin A (residues 2–10)), and of HLA-B*1402 in complex with a viral peptide, pLMP2 (RRRWRRLTV, derived from latent membrane protein 2 (residues 236–244) of Epstein-Barr virus). Despite the exchange of 18 residues within the binding grooves of HLA-B*1402 and HLA-B*2705 or HLA-B*2709, the pCatA peptide is presented in nearly identical conformations. However, pLMP2 is displayed by HLA-B*1402 in a conformation distinct from those previously found in the two HLA-B27 subtypes. In addition, the complexes of HLA-B*1402 with the two peptides reveal a nonstandard, tetragonal mode of the peptide N terminus anchoring in the binding groove because of the exchange of the common Tyr-171 by His-171 of the HLA-B*1402 heavy chain. This exchange appears also responsible for reduced stability of HLA-B14-peptide complexes in vivo and slow assembly in vitro. The studies with the pCatA peptide uncover that CTL cross-reactive between HLA-B14 and HLA-B27 might primarily recognize the common structural features of the bound peptide, thus neglecting amino acid replacements within the rim of the binding grooves. In contrast, structural alterations between the three complexes with the pLMP2 peptide indicate how heavy chain polymorphisms can influence peptide display and prevent CTL cross-reactivity between HLA-B14 and HLA-B27 antigens.T cells possessing the ability to recognize major histocompatibility complex (MHC)² molecules from another individual of the same species, also termed alloreactive T cells, may constitute up to 10% of the T cell pool of an individual, and their precursor frequency can be 100–1,000-fold higher than that of self-restricted T cells directed against a foreign peptide (1, 2). The ability of alloreactive T cells to cross-react with nonself-MHC molecules is a major obstacle preventing successful organ transplantations (3–5). Two mechanisms, direct or indirect allorecognition, can be responsible for the rejection of a transplant by alloreactive T cells (6). In the first case, donor cells expressing MHC molecules are directly recognized by host T cells (7), whereas indirect allorecognition involves the presentation of peptides derived from donor proteins by MHC molecules of the host, followed by the detection of the complexes by the host T cells (8). However, although alloreactive T cells are very common and of great clinical importance, neither the primary basis for their existence nor the reasons underlying their cross-reactivity are sufficiently understood to draw general conclusions (9–11). Only very few studies have addressed the structural basis for the recognition of distinct MHC antigens by cross-reactive T cells (12–18). One of the most important questions regards the individual contribution of the bound peptide and binding groove residues of the heavy chain (HC) of MHC class I antigens to the interaction with T cell receptors (TCR).Here we analyze an HLA-B14 subtype, HLA-B*1402 (named B*1402), as well as two HLA-B27 subtypes, HLA-B*2705 and HLA-B*2709 (named B*2705 and B*2709), to shed light on the structural basis of peptide presentation and T cell alloreactivity among these HLA-B molecules. The amino acid sequences of B*1402 and B*2705 HC differ from each other at 18 positions, all of which are part of the peptide-binding groove (Fig. 1). These amino acid exchanges result in different repertoires of bound peptides; B*1402 and B*2705 share only about 4% of their peptides (19), whereas this value rises to 88% for the B*2705 and B*2709 subtypes (20), which are distinguished only by a single residue at the floor of the binding groove (B*2705, Asp-116; B*2709, His-116). The structural similarities between the two HLA-B27 subtypes (21–27) permit extensive cross-reactivity (up to 90%) of cytotoxic T cells (CTL) (28), whereas CTL alloreactivity between B*1402 and B*2705 is drastically reduced (to about 3%) (19), in line with the very limited overlap of their peptide repertoires.Open in a separate windowFIGURE 1.Amino acid sequence differences among B*1402 and B*2705 HC. The 18 residues distinguishing the two subtypes are all located in or in the immediate vicinity of the peptide-binding groove. B*2705 differs from B*2709 only by a D116H exchange (not shown). The residues are indicated by spheres with volumes roughly proportional to the volumes of the respective amino acid side chain in solution (77). The spheres are colored according to the biochemical properties of the respective amino acids, as indicated at the bottom of the image.The HLA-B14 and HLA-B27 subtypes are distinguished from most other HLA class I molecules in their requirement for an arginine at anchor position 2 of the bound peptide (p2) (20, 29, 30). This preference is nearly absolute in B*2705 and B*2709 (31), whereas B*1402 tolerates also glutamine, glutamate, and proline as p2 anchors (19, 29). Statistically significant differences between B*1402 and B*2705 are also found at several other peptide positions (19). Previous structural and cellular studies of the HLA-B27 subtypes have suggested that molecular mimicry between the viral peptide pLMP2 (RRRWRRLTV, derived from Epstein-Barr virus latent membrane protein 2, residues 236–244) and the self-peptide pVIPR (RRKWRRWHL, derived from vasoactive intestinal peptide type 1 receptor, residues 400–408), when bound to B*2705, serves as an example of how a cellular immune response could be triggered that might contribute to the onset of ankylosing spondylitis (AS) through an autoimmune mechanism (22, 24). CTL that recognize the B*2705 and the B*2709 subtypes in complex with the self-peptide pVIPR (22) exemplify alloreactivity in this system, although the D116H micropolymorphism is deeply buried and not directly accessible to a TCR.Alloreactive T cells are known to recognize a very diverse array of alloantigen-bound peptides (32, 33), so that virtually each T cell clone can be assumed to be specific for a distinct peptide. For this reason, the substantial correlation found in previous studies between peptide and the alloreactive T cell epitope sharing among HLA-B27 (reviewed in Ref. 34) or HLA-B14 subtypes (only 28.4% partial or full cross-reactivity, similar to peptide overlapping between the subtypes B*1402 and B*1403, see Ref. 19) supports a prominent role of peptides in determining alloreactive T cell cross-reaction, and it suggests that many shared ligands adopt antigenically similar conformations when bound to distinct HLA-B molecules. On the other hand, the results reported by Merino et al. (19) also demonstrate that the few CTL that cross-react with B*1402 and B*2705 did not exhibit cross-reactivity with B*1403, which is distinguished from B*1402 only by a single amino acid exchange in the α2-helix. Furthermore, they show that alloreactive CTL from various donors directed against B*2705 did not lyse cells expressing either B*1402 or B*1403, although the number of CTL tested might not have been high enough to detect a presumably low degree of cross-reactivity. Without structural data from HLA-B14 subtypes, however, these results are difficult to interpret.The pCatA peptide (IRAAPPPLF, derived from the signal sequence of cathepsin A, residues 2–10) is among the very few known common ligands of B*1402, B*2705 (19), and B*2709³ and can thus serve to study how a very different (B*1402) and two very similar subtypes (B*2705 and B*2709) handle a common ligand. On the other hand, the pLMP2 peptide is a proven natural ligand only of B*2705, whose possible presentation in vivo by B*2709 and HLA-B14 is not yet known, although this peptide can be complexed in vitro with B*2709 (24) and also with B*1402 (35). From previous crystallographic studies, it was known that pLMP2 is presented by the two HLA-B27 antigens in very different conformations (24). We expected that the pronounced sequence differences between B*1402 and the HLA-B27 alloantigens (Fig. 1) might even enhance the conformational dissimilarities that are observed when two very closely related subtypes such as B*2705 and B*2709 are compared. Discrepancies in peptide display could reasonably be expected to prevent CTL cross-reaction, so that pLMP2 might be considered as a representative of the vast majority of HLA-B14- and HLA-B27-presented ligands that must be responsible for the low degree of CTL cross-reactivity between these alloantigens. Despite these presumed differences between pCatA and pLMP2, both peptides may be seen as examples of ligands that could principally allow direct allorecognition.Here we report the crystal structures of B*1402·pCatA, B*2705·pCatA, B*2709·pCatA, and B*1402·pLMP2, and we compare them with each other and with the previously reported structures of B*2705·pLMP2 and B*2709·pLMP2 (24).     

VEGF inhibitor (Iressa) arrests histone deacetylase expression: single-cell cotransfection imaging cytometry for multi-target-multi-drug analysis

Multi-target-multi-drug approaches are needed to accelerate the process of drug discovery screening and to design efficient therapeutic strategies against diseases that involve alterations in multiple cellular targets. Herein we report single-cell cotransfection imaging cytometry to quantitatively screen drug-induced off-target effects. Vascular endothelial growth factor (VEGF) and histone deacetylase (HDAC) genes amplified from the genomic DNA were cloned in fluorescently tagged gene constructs (RFP-HDAC/YFP-VEGF). These gene constructs were cotransfected in HEK-293 cells to explore the possibility of off-target effects of 4-phenylbutyrate and Iressa on the expression of VEGF and HDAC through single-cell imaging cytometry. Iressa (10 μM) treatment at the time of cotransfection or 48 h after cotransfection of RFP-HDAC/YFP-VEGF plasmids in HEK-293 cells resulted in off-target effects on HDAC expression. These results suggest possible applications of Iressa in the treatment of diseases in which expression of both HDAC and VEGF should be inhibited. 4-Phenylbutyrate (2.0 mM) did not show any off-target effects on VEGF expression. The developed quantitative multicolor live single-cell cotransfection imaging can be employed to select better drug combinations for faster screening and greater accuracy in multi-target-multi-drug analysis by increasing the on-target/desired off-target effects and eliminating the undesirable off-target effects.     

Effect of different temperature on starch synthase activity in excised grains of wheat cultivars

Excised grains of wheat (Triticum aestivum) varieties HD 2285 (relatively tolerant) and HD 2329 (susceptible type) were incubated for 1 hr at 15 degrees, 25 degrees, 35 degrees and 45 degrees C. In an another treatment, excised grains were incubated for 1 hr at increasing temperature (15 degrees, 25 degrees, 35 degrees and 45 degrees C) continuously, thus exposing the grains to gradual rise in temperature. The above treated grains were then analysed for the activity of soluble starch synthase (SSS) and granule bound starch synthase (GBSS) assayed at 20 degrees C. SSS activity decreased as the pre-exposure temperature was higher, though the tolerant variety showed lesser decrease. Decrease in SSS activity was lesser when excised grains were exposed to gradual rise in temperature from 15 degrees to 45 degrees C as compared to direct exposure to 45 degrees C. Pre-exposure of excised grains to different temperatures however, had no significant effect on GBSS activity.     

Endocytic pathways of pathogenic protein aggregates in neurodegenerative diseases

Endocytosis is the fundamental uptake process through which cells internalize extracellular materials and species. Neurodegenerative diseases (NDs) are characterized by a progressive accumulation of intrinsically disordered protein species, leading to neuronal death. Misfolding in many proteins leads to various NDs such as Alzheimer's disease (AD), Parkinson's disease (PD), Huntington's disease (HD), amyotrophic lateral sclerosis (ALS) and other disorders. Despite the significance of disordered protein species in neurodegeneration, their spread between cells and the cellular uptake of extracellular species is not entirely understood. This review discusses the major internalization mechanisms of the different conformer species of these proteins and their endocytic mechanisms. We briefly introduce the broad types of endocytic mechanisms found in cells and then summarize what is known about the endocytosis of monomeric, oligomeric and aggregated conformations of tau, Aβ, α-Syn, Huntingtin, Prions, SOD1, TDP-43 and other proteins associated with neurodegeneration. We also highlight the key players involved in internalizing these disordered proteins and the several techniques and approaches to identify their endocytic mechanisms. Finally, we discuss the obstacles involved in studying the endocytosis of these protein species and the need to develop better techniques to elucidate the uptake mechanisms of a particular disordered protein species.     

Improving blood and ECG monitoring among patients prescribed regular antipsychotic medications

Aims and methods It is now well established that antipsychotic medications are associated with adverse effects such as metabolic dysfunction, hyperprolactinaemia and cardiac arrhythmias. We completed an audit cycle between 2008 and 2010 to assess whether the implementation of a high-visibility prompt and an educational programme would improve monitoring rates among patients prescribed regular antipsychotics admitted to a 59-bedded psychiatric hospital in West Sussex.Results There was an improvement in monitoring rates for most audit standards. The greatest improvement was seen in measurement of random plasma glucose and cholesterol levels. Rates improved irrespective of the risk of metabolic dysfunction. However, prolactin measurement remained static and the ECG recording deteriorated.Clinical implications There appears to be a growing awareness of the need to screen for metabolic dysfunction among patients prescribed regular antipsychotic medication. A high-visibility prompt and educational programme helps to increase monitoring rates. However, more needs to be done to improve the mortality and morbidity rates among this patient subpopulation.     

Taxonomic importance of seed macro‐ and micro‐morphology in Abelmoschus (Malvaceae)

Seed morphology of Abelmoschus is known to be variable, but patterns of variation have never been critically studied. We studied seed macro‐ and micro‐morphological characters, including seed shape/size, seed coat pattern and trichome density/structure in multiple samples to evaluate the taxonomic significance of seed characters. Among the studied characters, seed shape and trichome structure were found to have major taxonomic importance and proved to be valuable characters for separating taxa. Two main seed types were present: seeds with deciduous trichomes and seeds with persistent trichomes. These characters offer significant evidence to the distinctness of certain species (A. esculentus, A. moschatus subsp. moschatus, A. moschatus subsp. tuberosus, A. crinitus and A. angulosus). Further, our results indicate that A. moschatus subsp. tuberosus should be maintained as a separate subspecies while A. manihot subsp. tetraphyllus var. pungens may be merged in A. angulosus. No significant intraspecific variation was observed, except in A. esculentus. We conclude that seed coat sculpturing and seed trichomes do indeed provide stable and diagnostic characters for many morphologically closely related taxa of Abelmoschus and that LM/SEM techniques can be useful in solving systematic problems and management of Abelmoschus genetic resources.     

Triamterene-β-cyclodextrin systems: Preparation,characterization and in vivo evaluation

The purpose of this research was to improve the solubility and therefore dissolution and bioavailability of triamterene, a poorly water soluble diuretic, by complexation with β-cyclodextrin. Triamterene has been reported to show low bioavailability after oral administration, with wide intersubject variation. This study presents the formulation of solid dispersions of triamterene with β-cyclodextrin—by cogrinding, kneading, and coevaporation, using low pH conditions—and their characterizations, evaluation of improvement in dissolution profiles, and in vivo advantage. Phase solubility studies indicated complex with possible stoichiometry of 1∶1 and a stability constant of 167.67M⁻¹. The solid dispersions were characterized by Fourier transform infrared spectroscopy, nuclear magnetic resonance, x-ray diffraction, and differential scanning calorimetry studies. The characterization studies confirmed inclusion of the phenyl ring of triamterene within the nonpolar cavity of β-cyclodextrin in the coevaporate. Remarkable improvement in in vitro drug release profiles in 0.1 N HCl and pH 6.8 phosphate buffer was observed with all dispersions, especially the coevaporate. The coevaporate, when administered orally in rats, also exhibited improved in vivo activity, as measured by net sodium ion excretion, as compared with triamterene powder. Thus, coevaporation of the drug and β-cyclodextrin from acidified alcohol provide the optimum condition for inclusion complexation to give a binary system with remarkable improvement in in vitro drug release profile and in vivo performance.     

De novo design of peptide immunogens that mimic the coiled coil region of human T-cell leukemia virus type-1 glycoprotein 21 transmembrane subunit for induction of native protein reactive neutralizing antibodies

Peptide vaccines able to induce high affinity and protective neutralizing antibodies must rely in part on the design of antigenic epitopes that mimic the three-dimensional structure of the corresponding region in the native protein. We describe the design, structural characterization, immunogenicity, and neutralizing potential of antibodies elicited by conformational peptides derived from the human T-cell leukemia virus type 1 (HTLV-1) gp21 envelope glycoprotein spanning residues 347-374. We used a novel template design and a unique synthetic approach to construct two peptides (WCCR2T and CCR2T) that would each assemble into a triple helical coiled coil conformation mimicking the gp21 crystal structure. The peptide B-cell epitopes were grafted onto the epsilon side chains of three lysyl residues on a template backbone construct consisting of the sequence acetyl-XGKGKGKGCONH2 (where X represents the tetanus toxoid promiscuous T cell epitope (TT) sequence 580-599). Leucine substitutions were introduced at the a and d positions of the CCR2T sequence to maximize helical character and stability as shown by circular dichroism and guanidinium hydrochloride studies. Serum from an HTLV-1-infected patient was able to recognize the selected epitopes by enzyme-linked immunosorbent assay (ELISA). Mice immunized with the wild-type sequence (WCCR2T) and the mutant sequence (CCR2T) elicited high antibody titers that were capable of recognizing the native protein as shown by flow cytometry and whole virus ELISA. Sera and purified antibodies from immunized mice were able to reduce the formation of syncytia induced by the envelope glycoprotein of HTLV-1, suggesting that antibodies directed against the coiled coil region of gp21 are capable of disrupting cell-cell fusion. Our results indicate that these peptides represent potential candidates for use in a peptide vaccine against HTLV-1.