Week 14 - Non-Malignant Leukocyte Disorders (PDF)
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This document is lecture notes on non-malignant leukocyte disorders. It covers a range of topics related to the disorders, and their symptoms. The different types of leukocytes disorders are covered.
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NON-MALIGNANT LEUKOCYTE DISORDERS Not caused by clonal or neoplastic changes in hematopoietic precursor cells Causes can be genetic or acquired and involve one or more lineages: neutrophil, lymphocyte, monocyte, eosinophil, and basophil, affecting the number of circulating cells, morpholog...
NON-MALIGNANT LEUKOCYTE DISORDERS Not caused by clonal or neoplastic changes in hematopoietic precursor cells Causes can be genetic or acquired and involve one or more lineages: neutrophil, lymphocyte, monocyte, eosinophil, and basophil, affecting the number of circulating cells, morphology, or both Many of these disorders are associated with significant clinical manifestations, although some are benign in nature TYPES: QUALITATIVE NON-MALIGNANT QUANTITATIVE NON-MALIGNANT/REACTIVE STATES QUALITATIVE NON-MALIGNANT LEUKOCYTE DISORDERS MORPHOLOGICAL ABNORMALITIES INVOLVING NEUTROPHILS DEFECTIVE LEUKOCYTE MOTILITY/MOVEMENT DEFECTIVE RESPIRATORY BURST LYSOSOMAL STORAGE DISORDERS INHERITED DISORDERS OF LYMPHOCYTES MORPHOLOGICAL ABNORMALITIES INVOLVING NEUTROPHILS HYPERSEGMENTATION ALDER-REILLY ANOMALY MAY-HEGGLIN ANOMALY CHEDIAK-HIGASHI SYNDROME PELGER-HUET ANOMALY PSEUDO/ACQUIRED PELGER-HUET PELGER-HUET ANOMALY (PHA) Autosomal dominant disorder characterized by decreased nuclear segmentation and distinctive coarse chromatin clumping pattern Affects all leukocytes, although morphologic changes are most obvious in mature neutrophils Mutations in the lamin B-receptor gene The lamin B receptor is an inner nuclear membrane protein that combines β- type lamins and heterochromatin and plays a major role in leukocyte nuclear shape changes that occur during normal maturation TYPES: HETEROZYGOUS PHA normal individuals, pince-nez appearance of the nucleus HOMOZYGOUS PHA cognitive impairment, heart defects, and skeletal abnormalities may occur; single nuclei ALDER-REILLY ANOMALY Is a rare inherited disorder characterized by granulocytes (monocytes and lymphocytes less often) with large, darkly staining metachromatic cytoplasmic granules AR anomaly was initially reported in patients with gargoylism; however, it can be seen in otherwise healthy individuals Granulations are also seen in mucopolysaccharidoses (MPSs) MAY-HEGGLIN ANOMALY A rare, autosomal dominant disorder characterized by variable thrombocytopenia, giant platelets, and large Dohle body-like inclusions in neutrophils, eosinophils, basophils, and monocytes Caused by a mutation in the MYH9 gene with disordered production of myosin heavy chain type IIA, which affects megakaryocyte maturation and platelet fragmentation CHEDIAK-HIGASHI SYNDROME A rare autosomal recessive disease of immune dysregulation Mutation in the CHS1 LYST gene Many types of cells in the body are affected and exhibit abnormally large lysosomes, which contain fused dysfunctional granules Clinical manifestations begin in infancy with partial albinism and severe recurrent life- threatening bacterial infections Patients often have bleeding issues as a result of abnormal dense granules in platelets; death occurs before the age of 10 years MORPHOLOGICAL ABNORMALITIES INVOLVING NEUTROPHILS DEFECTS IN MOTILITY/MOVEMENT JOB’S SYNDROME LAZY LEUKOCYTE SYNDROME LEUKOCYTE ADHESION DISORDERS (LADs) WHIM SYNDROME JOB’S SYNDROME Normal random movement ; abnormal CHEMOTACTIC/DIRECTIONAL MOTILITY Patient suffer from persistent boils and recurrent “cold” staphylococcal abscesses Associated with increased IgE LAZY-LEUKOCYTE SYNDROME Abnormal random and chemotactic movement Cells failed to respond to inflammatory stimuli but have normal phagocytic and bactericidal activity LEUKOCYTE ADHESION DISORDERS (LADs) Are rare autosomal recessive inherited conditions resulting in the inability of neutrophils and monocytes to move from circulation to the site of inflammation (called extravasation) Consequences of these disorders are recurrent severe bacterial and fungal infections Hematopoietic stem cell transplant is the only curative treatment TYPES: LAD I, II, III, others (Shwachman-Bodian Diamond syndrome) LEUKOCYTE ADHESION DISORDERS LAD I (LADs) Mutation in the ITGB2 gene ; gene that encodes CD18 subunit of b2 integrins, resulting in either a decreased or truncated form of the β2integrin, which is necessary for adhesion to endothelial cells, recognition of bacteria, and outside-in signaling Shortly after birth, patients suffer from recurrent infections, often affecting skin and mucosal infections Lymphadenopathy, splenomegaly, and neutrophilia are common findings LAD II Mutation in the SLC35C1 gene ; leukocytes have normal β2 integrins Defective fucose transporter and selectin synthesis Patients have recurring infections, neutrophilia, growth retardation, a coarse face, and other physical deformities LAD III Caused by mutations in Kindlin-3 ; Kindlin-3 protein along with talin are required for activation of β integrin and leukocyte rolling Leukocytes and platelets have normal expression of integrins; however, there is failure in response to external signals that normally results in leukocyte activation LAD III patients experience a mild LAD I-like immunodeficiency with recurrent infections Additionally, there is decreased platelet glycoprotein IIb/IIIa, resulting in bleeding WHIM SYNDROME WHIM warts, hypogammaglobulinemia, infections, and myelokathexis syndrome Defect in intrinsic and innate immunity Mutations in the CXCR4 gene CXCR4 protein regulates movement of white blood cells between the bone marrow and peripheral blood Neutrophils accumulate in the bone marrow (myelokathexis), which results in low numbers of circulating neutrophils In addition to neutropenia, lymphopenia, monocytopenia, and hypogammaglobulinemia are present; as a result, patients experience recurrent bacterial infections and are highly susceptible to human papillomavirus (HPV) infection, which leads to warts DEFECTIVE RESPIRATORY BURST CHRONIC GRANULOMATOUS DISEASE (CGD) CONGENITAL C3 DEFICIENCY G-6PD DEFICIENCY MYELOPEROXIDASE (MPO) DEFICIENCY CHRONIC GRANULOMATOUS DISEASE (CGD) A rare condition caused by the decreased ability of neutrophils to undergoa respiratory burst after phagocytosis of foreign organisms Can be X-linked recessive (60%) or autosomal recessive (40%) Caused by mutations in genes responsible for proteins that make up the reduced form of nicotinamide adenine dinucleotide phosphate (NADPH) oxidase (NADPH oxidase deficiency) Patients experience life-threatening catalase-positive bacterial and fungal infections DETECTION OF RESPIRATORY BURST Chemiluminescense uses dihydrorhodamine to measure intracellular production of reactive oxygen species Nitroblue NORMAL tetrazolium PATIENTS:(NBT) test REDUCED NBT of respiratory because NBT is a yellow, of water-soluble the dye generation burst (+BLUE FORMAZAN) PATIENTS WITH CGD: UNREDUCED (COLORLESS- YELLOW) CONGENITAL C3 DEFICIENCY Autosomal recessive Heterozygous: Carriers have half the normal C3 activity (adequate for disease resistance) Homozygous: Repeated severe infections with encapsulated bacteria which are poorly recognized and inefficiently phagocytized because of failure of G-6-PD opsonisation by C3 DEFICIENCY Absence affect the HEXOSE MONOPHOSPHATE SHUNT Leukocytes are unable to produce a respiratory burst, resulting in a DEFECTIVE BACTERICIDAL ACTIVITY G6PD is needed for the production of NADPH oxidase MYELOPEROXIDASE (MPO) DEFICIENCY Autosomal recessive ; also known as ALIUS-GRIGNASHI ANOMALY MPO is low or absent in neutrophils and monocytes but not in eosinophils Absence of MPO slows down bactericidal killing LYSOSOMAL STORAGE DISEASES (LSDs) Are a group of more than 50 inherited enzyme deficiencies resulting from mutations in genes that code for the production of lysosomal enzymes The result is flawed degradation of phagocytized material and buildup of undigested substrates within lysosomes This causes cell dysfunction, cell death, and a range of clinical symptoms; all cells containing lysosomes can be affected LSDs are classified according to the underdegraded macromolecule that accumulates in the cell EXAMPLES: LIPID STORAGE DISEASE/SPHINGOLIPIDOSES MUCOPOLYSACCHARIDOSES LIPID STORAGE DISEASES/SPHINGOLIPIDOSES Are qualitative disorders involving monocytes and macrophages The macrophages are particularly prone to accumulate undegraded lipid products, which subsequently leads to an expansion of the reticuloendothelial tissue EXAMPLES: GAUCHER’S DISEASE NIEMANN-PICK’S DISEASE GAUCHER’S DISEASE Most common of the lysosomal lipid storage diseases ; at least 1 in 17 Ashkenazi Jews are carriers It is an autosomal recessive disorder caused by a defect or deficiency in the catabolic enzyme beta-glucocerebrosidase Accumulation in sphingolipid glucocerebroside in macrophages throughout the body, including osteoclasts in bone and microglia in the brain Bone marrow replacement by Gaucher cells contribute to anemia and thrombocytopenia Pseudo-Gaucher cells can be found in bone marrow of some patients with thalassemia, chronic myeloid leukemia, acute lymphoblastic leukemia, non- Hodgkin lymphoma, and plasma cell neoplasms GAUCHER’S DISEASE NIEMANN-PICK’S DISEASE Characterized by accumulation of sphingomyelin in cellular lysosomes in the liver, spleen, and lungs Deficiency in the enzyme acid sphingomyelinase (ASM) Associated with foam cells and sea-blue histiocytes in the bone marrow TYPES: TYPE A NP TYPE B NP TYPE C NP TYPE A Acute neuronopathic form ; affects mostly Eastern European Jews 7-8 x 10 9/L Acute infectious—bacterial, some viral, fungal, parasitic Drugs, toxins, metabolic—corticosteroids, growth factors, uremia, Ketoacidosis Tissue necrosis—burns, trauma, MI, RBC hemolysis Physiologic—stress, exercise, smoking, pregnancy Neoplastic—carcinomas, sarcomas, myeloproliferative disorders NEUTROPENIA Drugs—cancer chemotherapy, chloramphenicol, sulfas/other antibiotics, Absolute count: 0.3x109/L Allergic—food, drugs, foreign proteins Infectious—variola, varicella Chronic hemolytic anemia—especially post splenectomy Inflammatory—collagen vascular disease, ulcerative colitis MONOCYTOSIS Infectious—tuberculosis, subacute bacterial endocarditis, syphilis, Absolute count: >0.9x109/L protozoan, rickettsial Recovery from neutropenia Hematologic—leukemias, myeloproliferative disorders, lymphomas, multiplemyeloma Inflammatory—collagen vascular disease, chronic ulcerative colitis, sprue, myositis, polyarteritis, temporal arteritis Others—solid tumor, immune thrombocytopenic purpura, sarcoidosis LYMPHOCYTOSIS Infectious—many viral, pertussis, tuberculosis, toxoplasmosis, Absolute lymphocyte count rickettsial in: Chronic inflammatory—ulcerative colitis, Crohn’s Adults: >4.0x109/L Immune mediated—drug sensitivity, vasculitis, graft rejection, infants and young Graves’, Sjögren’s children: Hematologic—ALL, CLL, lymphoma EN D