Human Gb3/CD77 synthase (α1,4-galactosyltransferase) is the only known glycosyltransferase that changes acceptor specificity because of a point mutation. The enzyme, encoded by
A4GALT
locus, is ...responsible for biosynthesis of Gal(α1–4)Gal moiety in Gb3 (CD77, P
k
antigen) and P1 glycosphingolipids. We showed before that a single nucleotide substitution c.631C > G in the open reading frame of
A4GALT
, resulting in replacement of glutamine with glutamic acid at position 211 (substitution p. Q211E), broadens the enzyme acceptor specificity, so it can not only attach galactose to another galactose but also to
N
-acetylgalactosamine. The latter reaction leads to synthesis of NOR antigens, which are glycosphingolipids with terminal Gal(α1–4)GalNAc sequence, never before described in mammals. Because of the apparent importance of position 211 for enzyme activity, we stably transfected the 2102Ep cells with vectors encoding Gb3/CD77 synthase with glutamine substituted by aspartic acid or asparagine, and evaluated the cells by quantitative flow cytometry, high-performance thin-layer chromatography and real-time PCR. We found that cells transfected with vectors encoding Gb3/CD77 synthase with substitutions p. Q211D or p. Q211N did not express P
k
, P1 and NOR antigens, suggesting complete loss of enzymatic activity. Thus, amino acid residue at position 211 of Gb3/CD77 synthase is critical for specificity and activity of the enzyme involved in formation of P
k
, P1 and NOR antigens. Altogether, this approach affords a new insight into the mechanism of action of the human Gb3/CD77 synthase.
Geometric properties being the rearrangement counterparts of strict monotonicity, lower local uniform monotonicity and upper local uniform monotonicity in some symmetric spaces are considered. The ...relationships between strict monotonicity, upper local uniform monotonicity restricted to rearrangements and classical monotonicity properties (sometimes under some additional assumptions) are showed. It is proved that order continuity and lower uniform monotonicity properties for rearrangements of symmetric spaces together are equivalent to the classical lower local uniform monotonicity for any symmetric space over a
σ
-finite complete and non-atomic measure space. It is also showed that in the case of order continuous symmetric spaces over a
σ
-finite and complete measure space, upper local uniform monotonicity and its rearrangement counterpart shortly called
ULUM
* coincide. As an application of this result, in the case of a non-atomic complete finite measure a new proof of the theorem which is already known in the literature, giving the characterization of upper local uniform monotonicity of Orlicz–Lorentz spaces, is presented. Finally, it is proved that every rotund and reflexive space
X
such that both
X
and
X
* have the Kadec-Klee property is locally uniformly rotund. Some other results are also given in the first part of Sect. 2.
Glycophorins are heavily glycosylated sialoglycoproteins of human and animal erythrocytes. In humans, there are four glycophorins: A, B, C and D. Glycophorins play an important role in the invasion ...of red blood cells (RBCs) by malaria parasites, which involves several ligands binding to RBC receptors. Four Plasmodium falciparum merozoite EBL ligands have been identified: erythrocyte-binding antigen-175 (EBA-175), erythrocyte-binding antigen-181 (EBA-181), erythrocyte-binding ligand-1 (EBL-1) and erythrocyte-binding antigen-140 (EBA-140). It is generally accepted that glycophorin A (GPA) is the receptor for P. falciparum EBA-175 ligand. It has been shown that α(2,3) sialic acid residues of GPA O-glycans form conformation-dependent clusters on GPA polypeptide chain which facilitate binding. P. falciparum can also invade erythrocytes using glycophorin B (GPB), which is structurally similar to GPA. It has been shown that P. falciparum EBL-1 ligand binds to GPB. Interestingly, a hybrid GPB-GPA molecule called Dantu is associated with a reduced risk of severe malaria and ameliorates malaria-related morbidity. Glycophorin C (GPC) is a receptor for P. falciparum EBA-140 ligand. Likewise, successful binding of EBA-140 depends on sialic acid residues of N- and O-linked oligosaccharides of GPC, which form a cluster or a conformational structure depending on the presence of peptide fragment encompassing amino acids (aa) 36-63. Evaluation of the homologous P. reichenowi EBA-140 unexpectedly revealed that the chimpanzee homolog of human glycophorin D (GPD) is probably the receptor for this ligand. In this review, we concentrate on the role of glycophorins as erythrocyte receptors for Plasmodium parasites. The presented data support the long-lasting idea of high evolutionary pressure exerted by Plasmodium on the human glycophorins, which emerge as important receptors for these parasites.
Estimates of the characteristic of monotonicity in Köthe–Bochner function spaces
E
(
X
)
with some consequences are given. Characterizations of strict and uniform monotonicity of the sequence lattice
...e
(
(
X
n
)
n
=
1
∞
)
are obtained.
Malaria is caused by infection with protozoan parasites belonging to the genus Plasmodium, which have arguably exerted the greatest selection pressure on humans in the history of our species. Besides ...humans, different Plasmodium parasites infect a wide range of animal hosts, from marine invertebrates to primates. On the other hand, individual Plasmodium species show high host specificity. The extraordinary evolution of Plasmodium probably began when a free-living red algae turned parasitic, and culminated with its ability to thrive inside a human red blood cell. Studies on the African apes generated new data on the evolution of malaria parasites in general and the deadliest human-specific species, Plasmodium falciparum, in particular. Initially, it was hypothesized that P. falciparum descended from the chimpanzee malaria parasite P. reichenowi, after the human and the chimp lineage diverged about 6 million years ago. However, a recently identified new species infecting gorillas, unexpectedly showed similarity to P. falciparum and was therefore named P. praefalciparum. That finding spurred an alternative hypothesis, which proposes that P. falciparum descended from its gorilla rather than chimp counterpart. In addition, the gorilla-to-human host shift may have occurred more recently (about 10 thousand years ago) than the theoretical P. falciparum-P. reichenowi split. One of the key aims of the studies on Plasmodium evolution is to elucidate the mechanisms that allow the incessant host shifting and retaining the host specificity, especially in the case of human-specific species. Thorough understanding of these phenomena will be necessary to design effective malaria treatment and prevention strategies.
Hemophilia A (HA) is an inherited bleeding disorder caused by mutations in the F8 gene leading to a deficiency in coagulation factor VIII (FVIII). Treatment of patients with HA has centered around ...replacement of FVIII protein. Gene therapy provides the possibility of permanently altering the HA phenotype. Gene therapy for HA induces FVIII expression in hepatocytes, despite the well supported belief that FVIII is not made within hepatocytes but rather in liver sinusoidal endothelial cells (LSECs). Ectopic expression of FVIII in hepatocytes has been implicated in mild toxicities and FVIII decline observed in adeno-associated viral (AAV) vector-based gene therapy, the causes of which remain unknown. Extrahepatic production of FVIII, e.g. in lymphoid tissues, has been controversial. A better understanding of where FVIII is produced is needed to improve gene therapy for HA and inform development of other therapeutic interventions. We developed in collaboration with Jackson Laboratory a new strain of hemophilic mice on the C57BL/6J background expressing the fluorescent protein mScarlet under the endogenous F8 promoter. Using the CRISPR/Cas9 gene editing system, we inserted a transgene encoding mScarlet into exon 1 of the mouse F8 gene through homology-directed repair. We selected mScarlet for its relative brightness and stability, to maximize the chances of detecting its expression despite weak F8 promoter activity. The donor DNA consisted of two homology arms flanking the mScarlet-encoding transgene followed by the bovine growth hormone polyadenylation poly(A) signal. Insertion of the transgene at the first F8 codon in exon 1 and inclusion of poly(A) ensured knock-out of F8. Male animals showed a bleeding phenotype consistent with other HA mouse strains, such as C57BL/6J HA and B6/129 HA. We performed retro-orbital bleeding and tested mouse plasma samples using the activated partial thromboplastin time (aPTT) assay. Animals expressing mScarlet (n=4) and C57BL/6J HA mice (n=3) had similarly prolonged aPTT (mean 57 seconds) compared to non-hemophilic C57BL/6J mice (n=5, 41 seconds). Production of mScarlet was first evaluated in the hepatocytes and LSECs of mScarlet mice (n=3) using flow cytometry. The livers were perfused in situ via the portal vein with a perfusion and collagenase medium. The livers were then processed into single cell suspensions, and hepatocytes and LSECs were separated by centrifugation. An anti-CD31 antibody was used to identify LSECs. Hepatocytes were identified by exclusion of CD45.2 + cells. CD31 +cells from mScarlet mice but not from control C57BL/6J mice expressed mScarlet. Neither mouse strain had detectable mScarlet in hepatocytes. Flow cytometry was then used to evaluate mScarlet in the splenic endothelial cells (ECs) and leukocytes. Using in situtranscardiac perfusion, mScarlet or control C57BL/6J mice received a perfusion and collagenase medium. Following processing into single cell suspensions, ECs were isolated from other splenic cells by magnetic separation using CD31 microbeads. Anti-CD31 and anti-CD45.2 antibodies were used to identify ECs and splenic leukocytes, respectively. Neither cell type from mScarlet or control mice had detectable mScarlet. We next evaluated mScarlet expression via fluorescent microscopy of liver and spleen sections. Before sectioning, tissues were fixed using in situ transcardiac perfusion fixation. Since mScarlet fluorescence was not detectable in tissue sections, we employed an anti-mScarlet antibody. Anti-mScarlet binding was detectable in liver sections from mScarlet but not control C57BL/6J mice. The staining pattern was consistent with the sinusoidal arrangement of hepatic capillaries running between rows of hepatocytes toward central venules. We found the same staining pattern using an anti-CD31 antibody, supporting that the mScarlet-expressing cells were LSECs but not hepatocytes. No anti-mScarlet binding was detected in the spleens from either mScarlet or C57BL/6J mice. We propose that FVIII is produced in LSECs but not in hepatocytes, splenic endothelial cells, splenic or hepatic leukocytes. Our novel mouse model expressing a well-defined and readily detectable reporter protein overcomes the limitations of immunohistochemistry using anti-FVIII antibodies, which complicated previous studies on the cellular origins of FVIII. Further investigation of extrahepatic FVIII production is ongoing.
Duffy Antigen Receptor for Chemokines (DARC) plays multiple roles in human health as a blood group antigen, a receptor for chemokines and the only known receptor for Plasmodium vivax merozoites. It ...is the target of the murine anti-Fy6 monoclonal antibody 2C3 which binds to the first extracellular domain (ECD1), but exact nature of the recognized epitope was a subject of contradictory reports. Here, using a set of complex experiments which include expression of DARC with amino acid substitutions within the Fy6 epitope in E. coli and K562 cells, ELISA, surface plasmon resonance (SPR) and flow cytometry, we have resolved discrepancies between previously published reports and show that the basic epitope recognized by 2C3 antibody is 22FEDVW26, with 22F and 26W being the most important residues. In addition, we demonstrated that 30Y plays an auxiliary role in binding, particularly when the residue is sulfated. The STD-NMR studies performed using 2C3-derived Fab and synthetic peptide corroborated most of these results, and together with the molecular modelling suggested that 25V is not involved in direct interactions with the antibody, but determines folding of the epitope backbone.
Celotno besedilo
Dostopno za:
DOBA, IZUM, KILJ, NUK, PILJ, PNG, SAZU, SIK, UILJ, UKNU, UL, UM, UPUK
Despite the development of various methods of intraocular pressure (IOP) measurement, Goldmann applanation tonometry (GAT) is still the most popular. The measurement using GAT depends on the ...biomechanical properties of the cornea, such as the thickness, the radius of curvature, as well as the amount of the fluorescein used.
The aim of the study was to compare IOP values measured by GAT with those measured by applanation resonance tonometry (ART).
A total of 47 patients (94 eyes), including 28 patients with primary open-angle glaucoma (POAG) and 19 subjects from the control group, were examined at the Glaucoma Outpatient Clinic of the Department and Clinic of Ophthalmology at Wroclaw Medical University (Poland). The measurements of IOP were performed using GAT and a handheld version of ART. Also, the central corneal thickness (CCT) of all patients was measured.
The study showed that the IOP values measured by both tonometers were comparable, but ARTacquired values were higher than GAT-obtained values both in the glaucomatous group and in the control group. CCT had little impact on mean IOP difference between GATand ART-obtained values.
Applanation resonance tonometry is a precise method of IOP measurement and is less affected by biomechanical properties of the cornea than GAT. Our results show that ART is a new, promising, comfortable for both patients and doctors method of IOP measurement, which, in the future, can replace GAT.
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