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Pathogen research abs 1 || Pathogen research abs 2 || Pathogen research abs 3 || Pathogen research abs 4 || Pathogen research abs 5 || Hormone and endocrine research abs 1 || Hormone and endocrine research abs 2 || Hormone and endocrine research abs 3 || Hormone and endocrine research abs 4 || Hormone and endocrine research abs 5 || Follicle and follicular cells research abs 1 || Interferon research abs 1 || Hemoglobin research abs || Stem cell research abs





Blood. 2003 Mar 15;101(6):2246-9. Epub 2002 Nov 14.
Identification of 2 novel genes developmentally regulated in the mouse aorta-gonad-mesonephros region.

Orelio C, Dzierzak E.

Department of Cell Biology and Genetics, Erasmus University Medical Center, Rotterdam, The Netherlands.

The first adult-repopulating hematopoietic stem cells (HSCs) emerge in the mouse aorta-gonad-mesonephros (AGM) region at embryonic day 10.5 prior to their appearance in the yolk sac and fetal liver. Although several genes are implicated in the regulation of HSCs, there are gaps in our understanding of the processes taking place in the AGM at the time of HSC emergence. To identify genes involved in AGM HSC emergence, we performed differential display reverse transcriptase-polymerase chain reaction (DD RT-PCR). Differentially expressed genes included beta-catenin and homologs of human TM9SF2 and TAB2. We characterized the expression pattern of Wnt/beta-catenin signaling, mTM9SF2, and mTAB2 in the embryo and adult. Interestingly, the expression of mouse TAB2 (mTAB2) in the E11 dorsal aorta endothelium suggests a role for mTAB2 in HSC emergence and/or regulation. The identification of differentially expressed genes in the AGM region should yield further insights into the development of this tissue and into the emergence and regulation of HSCs.


online pharmacy ref. source: www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=12433684&dopt=Abstract



Blood. 2003 Mar 15;101(6):2159-66. Epub 2002 Nov 14.
Gene therapy for Wiskott-Aldrich syndrome: rescue of T-cell signaling and amelioration of colitis upon transplantation of retrovirally transduced hematopoietic stem cells in mice.

Klein C, Nguyen D, Liu CH, Mizoguchi A, Bhan AK, Miki H, Takenawa T, Rosen FS, Alt FW, Mulligan RC, Snapper SB.

Division of Molecular Medicine and Pediatric Hematology/Oncology, Howard Hughes Medical Institute, The Children's Hospital, Boston, MA, USA.

The Wiskott-Aldrich syndrome (WAS) is an X-linked primary immunodeficiency that is caused by mutations in the recently identified WASP gene. WASP plays an important role in T-cell receptor-mediated signaling to the actin cytoskeleton. In these studies we assessed the feasibility of using retroviral gene transfer into WASP-deficient hematopoietic stem cells (HSCs) to rescue the T-cell signaling defect that is characteristic of WAS. Upon transplantation of WASP-deficient (WKO) HSCs that have been transduced with WASP-expressing retroviruses, mature B and T cells developed in normal numbers. Most importantly, the defect in antigen receptor-induced proliferation was significantly improved in T cells. Moreover, the susceptibility of colitis by WKO HSCs was prevented or ameliorated in recipient bone marrow chimeras by retrovirus-mediated expression of WASP. A partial reversal of the T-cell signaling defect could also be achieved following transplantation of WASP-deficient HSCs expressing the WASP-homologous protein N-WASP. Furthermore, we have documented a selective advantage of WT over WKO cells in lymphoid tissue using competitive repopulation experiments and Southern blot analysis. Our results provide proof of principle that the WAS-associated T-cell signaling defects can be improved upon transplantation of retrovirally transduced HSCs without overt toxicity and may encourage clinical gene therapy trials.


online pharmacy ref. source: www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=12433691&dopt=Abstract



Blood. 2003 Apr 1;101(7):2704-10. Epub 2002 Nov 14.
Antigen presentation by mouse CD4+ T cells involving acquired MHC class II:peptide complexes: another mechanism to limit clonal expansion?

Tsang JY, Chai JG, Lechler R.

Department of Immunology, Division of Medicine, Hammersmith Campus of Imperial College Faculty of Medicine, London, United Kingdom.

Antigen presentation by activated human and rat CD4(+) T cells has long been known to induce hyporesponsiveness due to a combination of anergy and apoptosis. It has been assumed that no such phenomenon occurs in mice due to the inability of mouse T cells to synthesize major histocompatibility complex (MHC) class II molecules. There have been several recent descriptions of the transfer of molecules, including MHC molecules, from antigen-presenting cells (APCs) to T cells. Here, we describe the acquisition of MHC class II molecules by T-cell receptor (TCR)-transgenic T cells and T-hybridoma cells following culture with APCs. Acquisition was markedly enhanced by T-cell activation either due to cognate recognition of antigen or anti-CD3 activation. When activation was induced by antigen recognition, preferential acquisition of complexes of class II molecules displaying cognate peptide was observed; in contrast, following activation by anti-CD3 the acquisition of class II molecules was MHC unrestricted. T cells that had acquired MHC class II:peptide complexes were able to act as APCs and induced proliferation and interleukin-2 secretion by resting T cells. However, when activated T cells that had acquired MHC class II:peptide complexes engaged in T:T interactions, this led to an increase in apoptosis and the induction of hyporesponsiveness. These results raise the possibility that the acquisition of MHC class II:peptide complexes by T cells during an immune response may serve to limit clonal expansion, including that induced by alloantigen following tissue or stem cell transplantation.


online pharmacy ref. source: www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=12433692&dopt=Abstract



Blood. 2003 Mar 15;101(6):2215-8. Epub 2002 Nov 14.
Hematopoietic origin of glomerular mesangial cells.

Masuya M, Drake CJ, Fleming PA, Reilly CM, Zeng H, Hill WD, Martin-Studdard A, Hess DC, Ogawa M.

Department of Veterans Affairs Medical Center, Medical University of South Carolina, Charleston, SC, USA.

It was recently reported that crude bone marrow cells have the ability to differentiate into glomerular mesangial cells. However, the exact nature of the engrafting cells in the bone marrow was not known. We tested the hypothesis that hematopoietic stem cells are capable of reconstituting the mesangial cells by transplanting a clonal population of cells derived from a single stem cell. We cultured Lin(-), Sca-1(+), c-kit(+), CD34(-) bone marrow cells from transgenic enhanced green fluorescent protein (EGFP) mice (C57BL/6-Ly-5.2 background) individually for 1 week in the presence of interleukin-11 and steel factor. We then transplanted viable clones individually into lethally irradiated C57BL/6-Ly-5.1 mice. Kidneys from 5 recipient mice showing high levels (60%-90%) of multilineage hematopoietic reconstitution were examined 2 to 6 months later, using differential interference contrast and epifluorescence microscopy. EGFP(+) cells with a morphology characteristic of mesangial cells were evident within the glomeruli. Transplantation of 100 noncultured Lin(-), Sca-1(+), c-kit(+), CD34(-) bone marrow cells also generated mesangial cells. Cultured EGFP(+) glomerular cells from recipient mice contracted in response to angiotensin II. EGFP(+) mesangial cells seen in male-to-male transplants revealed only one Y-chromosome. These data demonstrate that a single hematopoietic stem cell is capable of differentiating into glomerular mesangial cells and that the process does not involve cell fusion.


online pharmacy ref. source: www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=12433693&dopt=Abstract



Blood. 2002 Dec 1;100(12):3877-86.
Graft-versus-host disease and outcome in HLA-identical sibling transplantations for chronic myeloid leukemia.

Gratwohl A, Brand R, Apperley J, Biezen Av A, Bandini G, Devergie A, Schattenberg A, Frassoni F, Guglielmi C, Iacobelli S, Michallet M, Kolb HJ, Ruutu T, Niederwieser D; Chronic Leukemia Working Party of the European Group for Blood and Marrow Transplantation (CLWP-EBMT).

Division of Hematology, Department of Internal Medicine, Kantonsspital Basel, Basel, Switzerland. hematologhbs.ch

Graft-versus-host disease in its acute (aGvHD) or chronic form (cGvHD) remains the most important posttransplantation factor influencing outcome after allogeneic hematopoietic stem cell transplantation (HSCT). It increases transplantation-related mortality (TRM) but reduces risk of relapse. The net effect of these 2 discordant effects determines survival. In view of current interests to exploit graft-versus-leukemia (GVL) effects, we analyzed 4174 HLA-identical sibling transplantations for chronic myeloid leukemia in first chronic phase, depending on the presence or absence and severity of GvHD with a landmark analysis. During the first 100 days, only aGvHD grades III and IV had an impact on TRM. During the time period day 100 to 3 years increasing severity of aGvHD is associated with increased TRM and decreased relapse incidence (RI) with hazard ratios (HRs) for TRM as follows: grade 0, HR = 1.0; grade I, HR = 1.52 (1.19-1.96); grade II, HR = 2.48 (1.95-3.14); grade III, HR = 5.76 (4.44-7.48); grade IV, HR = 14.7 (10.9-19.9) and likewise for RI: grade I versus 0, HR = 0.94 (0.76-1.16); grade II, HR = 0.60 (0.46-0.77); grade III, HR = 0.48 (0.29-0.81); grade IV, HR = 0.14 (0.02-0.99). Beyond 3 years, TRM and RI are determined by cGvHD. Limited cGvHD reduces RI to the same extent as extensive cGvHD but has no impact on TRM and, hence, results in best survival with an HR = 0.48 (0.32-0.71). aGvHD grade I has the highest likelihood of subsequent limited cGvHD, which results in cumulative incidence estimates of survival at 10 years being best for patients with initial aGvHD grade I: survival at 10 years grade 0 = 59%, I = 63%, II = 56%, III = 26%, IV = not applicable. These data clarify the role of GvHD in posttransplantation outcome. Considerations for long-term outcome are essential when short-term data of interventions on GvHD are analyzed.


online pharmacy ref. source: www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=12433695&dopt=Abstract







Hair loss is a problem in modern soceity. Examining the factors of hair growth may shed light on how hair loss might occur. How long can hair grow before it stops growing eventually if it does? Given that the hair growth rate is quite uniform and constant, somewhere between 0.3-0.5 millimeters per day, it's believed that the length of anagen, the growth phase, differs among individuals, and this is the major determinant to the maximum hair length. For some individuals, anagen may last ten years. Of course the length of the anagen is governed by genes, and the genetic background of the individuals. Non-genetic factors such as nutritional condition, weather, seasonal changes (hair may grow a bit faster during winter), taking medications, health condition may of course influence the rate of hair growth as well as hair loss. The shape of the hair, straight or curly, is dependent on the shape of the follicle. A circular or round hair follicle would generate straight hair, while the follicle with oval or elliptical shapes (in its cross-section) would produce a curly hair.












DHEA is a natural hormone, and it is produced in our body by the adrenal glands. DHEA has been suggested to provide numerous potential benefits. DHEA (or dehydroepiandrosterone) is converted into androgens (male hormones) or estrogens (female hormones) in the cells.





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