lewis-x-antigen and Leukocyte-Adhesion-Deficiency-Syndrome

Leukocyte trafficking from the blood stream to tissues is essential for continuous surveillance of foreign antigens. This dynamic process, designated as the leukocyte adhesion cascade, involves distinct steps. In leukocyte adhesion deficiency (LAD) I the firm adhesion of leukocyte to the endothelium is defective, due to mutations in the beta 2 integrin gene. LAD II is caused by mutations in the fucose transporter specific to the Golgi apparatus, leading to the absence of Sialyl Lewis X-the fucosylated ligand for the selectins-thus affecting the rolling phase, the first phase of the cascade. In LAD III, a primary activation defect occurs in beta integrins 1, 2, and 3. Recently, the genetic basis for LAD III has been revealed to involve mutations in kindlin-3, a newly recognized essential component of integrin activation-the second phase of the adhesion cascade. Until now, no human or animal models of defect in transmigration-the fourth and last phase of the cascade-has been described.

Topics: Animals; Carrier Proteins; Cell Adhesion; Endothelium; Golgi Apparatus; Humans; Integrin beta Chains; Leukocyte Rolling; Leukocyte-Adhesion Deficiency Syndrome; Leukocytes; Lewis X Antigen; Membrane Proteins; Neoplasm Proteins; Sialyl Lewis X Antigen

Adhesion molecules play a major role in the recruitment of neutrophils to the site of inflammation. Currently, two congenital hereditary Leukocyte Adhesion Deficiency (LAD) syndromes are recognized. LAD I is due to the absence of the beta subunit of the integrin molecule, while LAD II is caused by a deficiency of Sialy1 Lewis X, the neutrophil ligand for selectins. Clinically, both syndromes are characterized by recurrent bacterial infections, more severe in LAD I. Developmental abnormalities (growth and mental retardation) constitute a prominent feature of LAD II and may be attributed to a general defect found in fucose metabolism in LAD II. Neutrophil motility was found to be defective in both syndromes. Using activated umbilical endothelial cells, we showed that LAD I neutrophil do not bind to cells expressing ICAM-1, while LAD II cells do not bind to endothelial cells expressing E- or P-selectin. Skin window technique showed a marked decrease in margination in both syndromes. Using intravital microscopy we were able to show that the basic defect in LAD II is in the "rolling" phase, while in LAD I, firm adhesion and transmigration are defective. Studies of these two rare conditions emphasized the important in vivo roles of adhesion molecules in host defense mechanism.

Topics: Animals; Cell Adhesion Molecules; Disease Models, Animal; Humans; Leukocyte-Adhesion Deficiency Syndrome; Lewis X Antigen; Phenotype; Receptors, Leukocyte-Adhesion

Leucocyte adhesion deficiency (LAD) is a rare, innate autosomal recessive immunodeficiency with three subtypes. Twenty-nine patients with LADs were diagnosed and treated in Israeli Medical Centers and in the Palestinian Authority. We discuss the phenotypic, genotypic and biochemical features of LAD-I, LAD-II and LAD-III diagnosed during the neonatal period and early infancy in 18, 6 and 5 patients, respectively. Consanguinity was frequent. Common features were severe infections of variable aetiology, excessive leukocytosis and delayed umbilical cord detachment. In LAD-I, the integrin CD18 expression varied from negligible to normal. However, CD11a expression was negligible in all tested patients, suggesting both CD11a and CD18 should be used to assess this subtype. LAD-II patients showed distinctive facial features, physical malformations, short stature and developmental delay. These patients show defective expression of SLeX (CD15a) on cell surface glycoproteins and lack of H antigen on erythroid cell surfaces resulting in Bombay blood group (hh). LAD-III showed intact but inactive β

Topics: Antigens, Bacterial; Bacterial Infections; CD11 Antigens; CD18 Antigens; Cell Adhesion; Chemotaxis; Consanguinity; Erythroid Cells; Female; Humans; Infant; Infant, Newborn; Leukocyte-Adhesion Deficiency Syndrome; Leukocytosis; Lewis X Antigen; Male; Membrane Glycoproteins; Mutation; Mycoses; Neutrophils; Retrospective Studies; Treatment Outcome

Leukocyte adhesion deficiency type I (LAD I) is characterized by recurrent and fatal bacterial infections, and caused by the mutation of the CD18 gene. A 9-month-old infant whose umbilical cord separated at day 10 of life had sepsis, complicated otitis media and neutrophilia. Molecular analysis showed homozygous intron 7 (+1) g > a in the CD18 gene, resulting in three splicing transcriptions that inserted 64, 298 (5' end of intron 7), and 1157 (whole intron 7) nucleotides into the 300th amino acid of Ile and stopped at the 326th (inserted 64 and 1157 nucleotides) and the 344th (inserted 64 nucleotides), respectively. The two truncated mutations lost cysteine-rich, transmembrane, and cytoplasma domains. Increased susceptibility to infections correlated to polymorphonuclear cell dysfunction, including absent expression of adhesion molecule (CD11b/CD18), impaired chemotaxis, and decreased phagocytosis. Both his heterozygous parents revealed non-random skewing only to the wild type. The skewing pattern and severe phenotype make stem cell transplantation an optimal option.

Topics: CD18 Antigens; Chemotaxis, Leukocyte; Humans; Hydrogen Peroxide; Infant; Leukocyte-Adhesion Deficiency Syndrome; Lewis X Antigen; Macrophage-1 Antigen; Male; Mutation; Neutrophils; Phagocytosis; Umbilical Cord

Leukocyte adhesion deficiency II has been described in only 2 patients; herein we report extensive investigation of another patient. The physical stigmata were detected during prenatal ultrasonographic investigation. Sialyl-Lewis X (sLex) was absent from the surface of polymorphonuclear neutrophils, and cell binding to E- and P-selectin was severely impaired, causing an immunodeficiency. The elevation of peripheral neutrophil counts occurred within several days after birth. A severe hypofucosylation of glycoconjugates bearing fucose in different glycosidic links was present in all cell types investigated, demonstrating that leukocyte adhesion deficiency II is not only a disorder of leukocytes but a generalized inherited metabolic disease affecting the metabolism of fucose.

Topics: C-Reactive Protein; Carbohydrate Metabolism, Inborn Errors; Chromatography, Affinity; E-Selectin; Fetal Growth Retardation; Fucose; Humans; Infant; Leukocyte Count; Leukocyte-Adhesion Deficiency Syndrome; Lewis X Antigen; Male; Neutrophils; P-Selectin; Pedigree; Ultrasonography, Prenatal