Chromosomal localization of the human interleukin 1α (IL-1α) gene

The human interleukin 1α gene was assigned to chromosome 2 using Southern transfer analysis of human-rodent somatic cell hybrid DNAs. The gene was regionally localized to 2q12–21 using in situ hybridization to metaphase chromosomes. These results indicate that the IL-1α gene maps to the same general region on the long arm of chromosome 2 as the IL-1β gene, which has been previously assigned.     

A homology model for the human theta-class glutathione transferase T1–1

A manual threading approach is used to model the human glutathione transferase T1–1 based on the coordinates of the related Theta class enzyme T2–2. The low level of sequence identity (about 20%), found in the C-terminal extension in conjunction with a relative deletion of about five residues makes this a challenging modeling problem. The C-terminal extension contributes to the active site of the molecule and is thus of particular interest for understanding the molecular mechanism of the enzyme. Manual docking of known substrates and non-substrates has implicated potential candidates for the T1–1 catalytic residues involved in the dehalogenation and epoxide-ring opening activities. These include the conserved Theta class residues Arg 107, Trp 115, and the conserved GSTT1 subclass residue His 176. Also, the residue at position 234 is implicated in the modulation of T1–1 activity with different substrates between species. Proteins 33:444–454, 1998. © 1998 Wiley-Liss, Inc.     

New insights into the half‐of‐the‐sites reactivity of human aldehyde dehydrogenase 1A1

Aldehyde dehydrogenases (ALDHs) couple the oxidation of aldehydes to the reduction of NAD(P)⁺. These enzymes have gained importance as they have been related to the detoxification of aldehydes generated in several diseases involving oxidative stress. It has been determined that tetrameric ALDHs work only with two of their four active sites (half‐of‐the‐sites reactivity), but the mechanistic reason for this feature remains unknown. In this study, tetrameric human aldehyde dehydrogenase class 1A1 (ALDH1A1) was dimerized to study the correlation of the oligomeric structure with the presence of half‐of‐the‐sites reactivity. Stable dimers from ALDH1A1 were generated by combining the mutation of two residues of the dimer–dimer interface in the tetramer (previously shown to render a low‐active and unstable enzyme) and the fusion of green fluorescent protein (GFP) in the C‐terminus of the mutant. Some kinetic properties of the GFP‐fusion mutant resembled those of human aldehyde dehydrogenase class 3A1, a native dimer, in that the fusion dimer did not show burst in the generation of nicotinamide adenine dinucleotide (NADH) and was less sensitive to the action of specific modulators. The presence of primary isotope effect indicated that the rate‐limiting step changed from NADH release to hydride transfer. The mutant showed higher activity with malondialdehyde and acrolein and was more resistant to inactivation by acrolein compared with the wild type. The mutant kinetic profile showed two hyperbolic components when the substrates were varied, suggesting the presence of two active sites with different affinities and catalytic capacities. In conclusion, the ALDH1A1–GFP dimeric mutant exhibits full site reactivity, suggesting that only the tetrameric structure induces the half‐of‐the‐sites reactivity. Proteins 2013; 81:1330–1339. © 2013 Wiley Periodicals, Inc.     

Telocytes express PDGFRα in the human gastrointestinal tract

Telocytes (TC), a cell population located in the connective tissue of many organs of humans and laboratory mammals, are characterized by a small cell body and extremely long and thin processes. Different TC subpopulations share unique ultrastructural features, but express different markers. In the gastrointestinal (GI) tract, cells with features of TC were seen to be CD34‐positive/c‐kit‐negative and several roles have been proposed for them. Other interstitial cell types with regulatory roles described in the gut are the c‐kit‐positive/CD34‐negative/platelet‐derived growth factor receptor α (PDGFRα)‐negative interstitial cells of Cajal (ICC) and the PDGFRα‐positive/c‐kit‐negative fibroblast‐like cells (FLC). As TC display the same features and locations of the PDGFRα‐positive cells, we investigated whether TC and PDGFRα‐positive cells could be the same cell type. PDGFRα/CD34, PDGFRα/c‐kit and CD34/c‐kit double immunolabelling was performed in full‐thickness specimens from human oesophagus, stomach and small and large intestines. All TC in the mucosa, submucosa and muscle coat were PDGFRα/CD34‐positive. TC formed a three‐dimensional network in the submucosa and in the interstitium between muscle layers, and an almost continuous layer at the submucosal borders of muscularis mucosae and circular muscle layer. Moreover, TC encircled muscle bundles, nerve structures, blood vessels, funds of gastric glands and intestinal crypts. Some TC were located within the muscle bundles, displaying the same location of ICC and running intermingled with them. ICC were c‐kit‐positive and CD34/PDGFRα‐negative. In conclusion, in the human GI tract the TC are PDGFRα‐positive and, therefore, might correspond to the FLC. We also hypothesize that in human gut, there are different TC subpopulations probably playing region‐specific roles.     

Anti‐inflammaging effects of human alpha‐1 antitrypsin

Inflammaging plays an important role in most age‐related diseases. However, the mechanism of inflammaging is largely unknown, and therapeutic control of inflammaging is challenging. Human alpha‐1 antitrypsin (hAAT) has immune‐regulatory, anti‐inflammatory, and cytoprotective properties as demonstrated in several disease models including type 1 diabetes, arthritis, lupus, osteoporosis, and stroke. To test the potential anti‐inflammaging effect of hAAT, we generated transgenic Drosophila lines expressing hAAT. Surprisingly, the lifespan of hAAT‐expressing lines was significantly longer than that of genetically matched controls. To understand the mechanism underlying the anti‐aging effect of hAAT, we monitored the expression of aging‐associated genes and found that aging‐induced expressions of Relish (NF‐?B orthologue) and Diptericin were significantly lower in hAAT lines than in control lines. RNA‐seq analysis revealed that innate immunity genes regulated by NF‐kB were significantly and specifically inhibited in hAAT transgenic Drosophila lines. To confirm this anti‐inflammaging effect in human cells, we treated X‐ray‐induced senescence cells with hAAT and showed that hAAT treatment significantly decreased the expression and maturation of IL‐6 and IL‐8, two major factors of senescence‐associated secretory phenotype. Consistent with results from Drosophila,RNA‐seq analysis also showed that hAAT treatment significantly inhibited inflammation related genes and pathways. Together, our results demonstrated that hAAT significantly inhibited inflammaging in both Drosophila and human cell models. As hAAT is a FDA‐approved drug with a confirmed safety profile, this novel therapeutic potential may make hAAT a promising candidate to combat aging and aging‐related diseases.     

Meiotic findings in human reciprocal 1;3 translocation

Summary A balanced reciprocal translocation between chromosomes 1 and 3 was found in an infertile man. Meiotic analysis showed a ring quadrivalent in diakinesis and complete spermatogenic breakdown after the first meiotic division.     

Folding thermodynamics of the hybrid‐1 type intramolecular human telomeric G‐quadruplex

Guanine‐rich DNA sequences that may form G‐quadruplexes are located in strategic DNA loci with the ability to regulate biological events. G‐quadruplexes have been under intensive scrutiny owing to their potential to serve as novel drug targets in emerging anticancer strategies. Thermodynamic characterization of G‐quadruplexes is an important and necessary step in developing predictive algorithms for evaluating the conformational preferences of G‐rich sequences in the presence or the absence of their complementary C‐rich strands. We use a combination of spectroscopic, calorimetric, and volumetric techniques to characterize the folding/unfolding transitions of the 26‐meric human telomeric sequence d[A₃G₃(T₂AG₃)₃A₂]. In the presence of K⁺ ions, the latter adopts the hybrid‐1 G‐quadruplex conformation, a tightly packed structure with an unusually small number of solvent‐exposed atomic groups. The K⁺‐induced folding of the G‐quadruplex at room temperature is a slow process that involves significant accumulation of an intermediate at the early stages of the transition. The G‐quadruplex state of the oligomeric sequence is characterized by a larger volume and compressibility and a smaller expansibility than the coil state. These results are in qualitative agreement with each other all suggesting significant dehydration to accompany the G‐quadruplex formation. Based on our volume data, 432 ± 19 water molecules become released to the bulk upon the G‐quadruplex formation. This large number is consistent with a picture in which DNA dehydration is not limited to water molecules in direct contact with the regions that become buried but involves a general decrease in solute–solvent interactions all over the surface of the folded structure. © 2013 Wiley Periodicals, Inc. Biopolymers 101: 216–227, 2014.     

Membrane‐induced structure of novel human tachykinin hemokinin‐1 (hHK1)

PPT‐C encoded hemokinin‐1(hHK‐1) of Homo sapiens (TGKASQFFGLM) is a structurally distinct neuropeptide among the tachykinin family that participate in the NK‐1 receptor downstream signaling processes. Subsequently, signal transduction leads to execution of various effector functions which includes aging, immunological, and central nervous system (CNS) regulatory actions. However the conformational pattern of ligand receptor binding is unclear. The three‐dimensional structure of the hemokinin‐1 in aqueous and micellar environment has been studied by one and two‐dimensional proton nuclear magnetic resonance (2D 1H‐NMR spectroscopy) and distance geometry calculations. Data shows that hemokinin‐1 was unstructured in aqueous environment; anionic detergent SDS induces α‐helix formation. Proton NMR assignments have been carried out with the aid of correlation spectroscopy (gradient‐COSY and TOCSY) and nuclear Overhauser effect spectroscopy (NOESY and ROESY) experiments. The inter proton distances and dihedral angle constraints obtained from the NMR data have been used in torsion angle dynamics algorithm for NMR applications (CYANA) to generate a family of structures, which have been refined using restrained energy minimization and dynamics. Helical conformation is observed from residue K3‐M11. The conformational range of the peptide revealed by NMR studies has been analyzed in terms of characteristic secondary features. Observed conformational features have been compared to that of Substance P potent NK1 agonist. Thus the report provides a structural insight to study hHK‐1‐NK1 interaction that is essential for hHK1 based signaling events. © 2015 Wiley Periodicals, Inc. Biopolymers 103: 702–710, 2015.     

Nucleocytoplasmic transit of human α1‐antichymotrypsin in tobacco leaf epidermal cells†

Recently, we have observed a nuclear localization for human α₁‐antichymotrypsin (AACT) expressed in the cytosol of transgenic Bright Yellow‐2 (BY‐2) tobacco cultured cells (see accompanying paper: Benchabane, M., Saint‐Jore‐Dupas, C., Bardor, M., Faye, L., Michaud, D. and Gomord, V. (2008a) Targeting and post‐translational processing of human α₁‐antichymotrypsin in BY‐2 tobacco cultured cells. Plant Biotechnol. J. doi: 10.1111/j.1467‐7652.2008.00382.x). In the present article, we assess whether the intrinsic DNA‐binding activity of AACT can explain its nuclear localization, and whether this same activity has an impact on its protease inhibitory potency and stability in planta. An engineered form of AACT with no DNA‐binding activity, rAACTΔK, was compared with the wild‐type polypeptide, rAACT, in terms of chymotrypsin inhibitory potency, stability in planta and distribution in tobacco cells. In accordance with available data reporting distinct sites for protease inhibition and DNA binding, rAACT and rAACTΔK showed similar antichymotrypsin activity, similar to the activity of native AACT purified from human plasma. As observed for AACT in BY‐2 tobacco cells, a green fluorescent protein (GFP)‐AACT fusion transiently expressed in the cytosol of tobacco leaf epidermal cells was detected mainly in the nucleus by confocal laser microscopy. By contrast, rAACTΔK expressed as a GFP fusion showed a balanced distribution between the cytosol and the nucleus, similar to the distribution pattern of free GFP exhibiting no DNA‐binding affinity. In line with immunodetection data showing higher accumulation levels for GFP‐AACT in tobacco leaf cells, rAACTΔK was more susceptible than rAACT to tryptic digestion in the presence of DNA. Overall, these observations suggest the following: (i) a retention effect of DNA on AACT in the nucleus; and (ii) a stabilizing effect of the AACT–DNA interaction on rAACT challenged with non‐target proteases, which, possibly, may be useful in protecting this protein in plant expression platforms.     

Infection of human pericytes by HIV‐1 disrupts the integrity of the blood–brain barrier

Human immunodeficiency virus type 1 (HIV‐1) infection of the central nervous system (CNS) affects cross‐talk between the individual cell types of the neurovascular unit, which then contributes to disruption of the blood–brain barrier (BBB) and the development of neurological dysfunctions. Although the toxicity of HIV‐1 on neurons, astrocytes and brain endothelial cells has been widely studied, there are no reports addressing the influence of HIV‐1 on pericytes. Therefore, the purpose of this study was to evaluate whether or not pericytes can be infected with HIV‐1 and how such an infection affects the barrier function of brain endothelial cells. Our results indicate that human brain pericytes express the major HIV‐1 receptor CD4 and co‐receptors CXCR4 and CCR5. We also determined that HIV‐1 can replicate, although at a low level, in human brain pericytes as detected by HIV‐1 p24 ELISA. Pericytes were susceptible to infection with both the X4‐tropic NL4‐3 and R5‐tropic JR‐CSF HIV‐1 strains. Moreover, HIV‐1 infection of pericytes resulted in compromised integrity of an in vitro model of the BBB. These findings indicate that human brain pericytes can be infected with HIV‐1 and suggest that infected pericytes are involved in the progression of HIV‐1‐induced CNS damage.     

In vitro characterization of the full-length human dynein-1 cargo adaptor BicD2

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