Novel aspects of Kindlin-3 function in humans based on a new case of leukocyte adhesion deficiency III.

BACKGROUND: Kindlin-3 is a novel integrin activator in hematopoietic cells, and its deficiency leads to immune problems and severe bleeding, known as leukocyte adhesion deficiency III (LAD-III). Our current understanding of Kindlin-3 function primarily relies on analysis of animal models or cell lines. OBJECTIVES: To understand the functions of Kindlin-3 in human primary blood cells. PATIENTS/METHODS: We analyzed primary and immortalized hematopoietic cells obtained from a new LAD-III patient with immune problems, bleeding, a history of anemia, and abnormally shaped red blood cells. RESULTS: The patient's white blood cells (WBCs) and platelets showed defects in agonist-induced integrin activation and botrocetin-induced platelet agglutination. Primary leukocytes from this patient exhibited abnormal activation of ß(1) integrin. Integrin activation defects were responsible for the observed deficiency in the botrocetin-induced platelet response. Analysis of patient genomic DNA revealed a novel mutation in the Kindlin3 gene. The mutation abolished Kindlin-3 expression in primary WBCs and platelets, owing to abnormal splicing. Kindlin-3 is expressed in red blood cells (RBCs), and its deficiency is proposed to lead to abnormally shaped RBCs. Immortalized patient WBCs expressed a truncated form of Kindlin-3 that was not sufficient to support integrin activation. Expression of Kindlin-3 cDNA in immortalized patient WBCs rescued integrin activation defects, whereas overexpression of the truncated form did not. CONCLUSIONS: Kindlin-3 deficiency impairs integrin function, including activation of ß(1) integrin. Abnormalities in glycoprotein Ib-IX function in Kindlin-3-deficient platelets are secondary to integrin defects. The region of Kindlin-3 encoded by exon 11 is crucial for its ability to activate integrins in humans.

Presentation of atopic disease in a large cohort of pediatric liver transplant recipients.

Atopic disease occurs in solid organ transplant recipients with an increasingly recognized frequency. The time course for the development of these atopic diseases in liver transplantation has not been described. The objective was to characterize the atopic manifestations of children receiving chronic immunosuppression after orthotopic liver transplantation (OLT). Chart review and follow-up questionnaire were utilized for 176 OLT pediatric recipients at a single institution for manifestations of allergic disease. Atopic disease was present in 25 (14.2%) patients. Median age at transplant was 16 months with a median follow-up of 63 months. Food allergy and non-food related atopic symptoms presented at a median of 11.5 (IQR, 6-28) and 19 (IQR, 5-41) months post-transplantation, respectively. The median age at transplant of the non-atopic children was 72 months, higher than patients with atopy (p < 0.001). Food allergy and atopic skin disease symptoms were present in 40% and 56% of cases, respectively. Asthma, allergic rhinitis, or both were found in 66% of cases. The onset of symptoms of food allergy and eczema (median, 12 months post-transplantation) preceded symptoms of allergic rhinitis and asthma. (median of 27 and 30 months post-transplantation, respectively). Atopy occurs in ∼14% of pediatric liver transplant recipients, with manifestations including food allergy, eczema, allergic rhinitis, and asthma.

Infecciones e inmunodeficiencia en el síndrome de Down / No disponible

Las personas con síndrome de Down pueden tener una alta frecuencia de infecciones, por lo general de las vías respiratorias superiores, que se caracterizan por aumento en la gravedad y prolongación en la duración de la enfermedad, que se suele atribuir en parte a los defectos de su sistema inmunitario. Las anomalías de este sistema en el síndrome de Down comprenden: ligera a moderada linfopenia de los linfocitos T y B, alteración en la proliferación de células T inducida por mitógeno, reducción en las respuestas de anticuerpos específicos a la inmunización, defectos en la quimiotaxis de neutrófilos. Se ha postulado también la inmunodeficiencia secundaria a otros factores metabólicos o nutricionales. Hay otros factores no inmunológicos, como son las anomalías de las estructuras anatómicas y el reflujo gastroesofágico, que pueden influir también en el aumento de las infecciones de las vías respiratorias. Conocer los factores inmunológicos y no inmunológicos implicados en la patogenia de las enfermedades infecciosas puede reducir la susceptibilidad a las infecciones de las personas con síndrome de Down (AU)

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Infections and immunodeficiency in Down syndrome.

Down syndrome (DS) is the most common genetic disease and presents with cognitive impairment, cardiac and gastrointestinal abnormalities, in addition to other miscellaneous clinical conditions. DS individuals may have a high frequency of infections, usually of the upper respiratory tract, characterized by increased severity and prolonged course of disease, which are partially attributed to defects of the immune system. The abnormalities of the immune system associated with DS include: mild to moderate T and B cell lymphopenia, with marked decrease of naive lymphocytes, impaired mitogen-induced T cell proliferation, reduced specific antibody responses to immunizations and defects of neutrophil chemotaxis. Limited evidence of genetic abnormalities secondary to trisomy of chromosome 21 and affecting the immune system is available, such as the potential consequences of gene over-expression, most significantly SOD1 and RCAN1. Secondary immunodeficiency due to metabolic or nutritional factors in DS, particularly zinc deficiency, has been postulated. Non-immunological factors, including abnormal anatomical structures (e.g. small ear canal, tracheomalacia) and gastro-oesophageal reflux, may play a role in the increased frequency of respiratory tract infections. The molecular mechanisms leading to the immune defects observed in DS individuals and the contribution of these immunological abnormalities to the increased risk of infections require further investigation. Addressing immunological and non-immunological factors involved in the pathogenesis of infectious diseases may reduce the susceptibility to infections in DS subjects.

Decline of CD3-positive T-cell counts by 6 months of age is associated with rapid disease progression in HIV-1--infected infants.

Because HIV-1 infected infants with rapid progression (RP) of disease might benefit from early and intense antiretroviral therapy, the identification of predictive factors of RP becomes extremely important. Currently, the best predictive factors of RP in HIV-1 infected children are HIV-1 RNA levels and CD4-positive T-cell counts. A decrease in CD3-positive T-cell count has been identified as a predictive factor of AIDS development in HIV-1 infected adults. Our objective was to evaluate decreased number of CD3-positive T-cells as a predictive factor of RP in infants. Peripheral blood lymphocytes from HIV-1 infected infants (up to 6 months of age) were analyzed for an association of lymphocyte subsets with RP, which was defined as the occurrence of AIDS or death before 18 months of age. In infants with RP (n = 32), CD3-positive T-cell counts were 3093 cells/microL at <1 month of age, 3092 cells/microL at 1 to 3 months, and 2062 cells/microL at 3 to 6 months. Non-RP infants (n = 49) maintained their CD3-positive T-cells counts at approximately 4000 cells/microL for at least 6 months of life. CD3-positive and CD4-positive T-cell counts were significantly associated with RP. Our results suggest that a decreased CD3-positive T-cell count may be used to predict RP in HIV-1 infected infants (RR = 2.16, P =.001).

Protection of primary human T cells from HIV infection by Trev: a transdominant fusion gene.

Gene therapy is one of several approaches that are being tested in the search for an effective anti-human immunodeficiency virus (HIV) treatment. In this strategy, a "protective" gene would be introduced into target cells, rendering them relatively resistance to the virus-induced cytopathicity. Tat and Rev are viral proteins essential for HIV gene expression. Tat increases viral gene transcription and Rev is responsible for the nuclear export of mRNA encoding structural viral proteins. A fusion protein (Trev) was constructed, joining Tat and Rev transdominant mutant gene sequences. Previously, we showed that Trev inhibits both Tat and Rev activities in Jurkat T cells. To determine whether Trev could inhibit HIV replication in primary cells, we transferred the trev gene to peripheral blood lymphocytes and challenged them with different HIV strains. Levels of HIV p24 antigen (Ag) were reduced 4- to 15-fold in cultures of Trev-CD4+ T cells infected with two HIV primary clinical isolates and were not detectable in cultures infected with HIV strains NL4-3 and SF2. In contrast, cultures of nontransduced CD4+ T cells infected with the same viruses had levels of HIV p24 Ag up to 10 ng/ml. Trev-transduced CD4+ T cells demonstrated increased survival following HIV challenge for the length of the experiments (30 days). We did not observe rapid emergence of Trev-resistant HIV in our cultures. Following HIV challenge, cell-associated Trev protein was increased, supporting the hypothesis that cells surviving Trev expression provided a cell survival advantage. This work showed that Trev was able to inhibit HIV replication in primary CD4+ T cells, and, therefore the trev gene could be a candidate for gene therapy against HIV.

Inhibition of HIV-1 by a double transdominant fusion gene.

A double transdominant fusion gene (trev) designed to inhibit two essential HIV functions simultaneously was constructed by linking tat and rev transdominant mutants. Trev independently inhibited both Tat and Rev functions, localized within the nucleus and cells transfected with trev showed a stable inhibition of HIV-1-mediated cytopathicity. A retroviral vector of trev was made and shown also to confer protection from HIV cytopathic effects. Simultaneous inhibition of two essential viral genes presents significant advantages for potential gene therapy treatment of HIV infection over conventional single effect molecules.

A sensitive reporter cell line for HIV-1 tat activity, HIV-1 inhibitors, and T cell activation effects.

The production and characterization of a cell line for quantitative HIV-1 Tat function and T cell activation assays is described. 1G5 is a clonal cell line derived from Jurkat T cells stably transfected with a luciferase gene driven by an HIV-1 long terminal repeat (HIV-LTR). The 1G5 clone was selected for low basal luciferase activity, susceptibility to HIV infection, and high responsiveness to Tat and T cell activation signals. A 10 to 1000-fold increase in luciferase activity after transfection or infection with tat-expressing vectors or HIV was observed. Equivalent levels of expression were detected after stimulation with T cell mitogens. The characteristics of 1G5 make it a valuable reagent for studies of HIV infection, HIV regulatory agents, and other T cell or HIV-activating factors, and for screening potential anti-HIV therapeutic agents.