Comparative Therapeutic Effects of Velaglucerase Alfa and Imiglucerase in a Gaucher Disease Mouse Model

Gaucher disease type 1 is caused by the defective activity of the lysosomal enzyme, acid β-glucosidase (GCase). Regular infusions of purified recombinant GCase are the standard of care for reversing hematologic, hepatic, splenic, and bony manifestations. Here, similar in vitro enzymatic properties, and in vivo pharmacokinetics and pharmacodynamics (PK/PD) and therapeutic efficacy of GCase were found with two human GCases, recombinant GCase (CHO cell, imiglucerase, Imig) and gene-activated GCase (human fibrosarcoma cells, velaglucerase alfa, Vela), in a Gaucher mouse, D409V/null. About 80+% of either enzyme localized to the liver interstitial cells and <5% was recovered in spleens and lungs after bolus i.v. injections. Glucosylceramide (GC) levels and storage cell numbers were reduced in a dose (5, 15 or 60 U/kg/wk) dependent manner in livers (60–95%) and in spleens (∼10–30%). Compared to Vela, Imig (60 U/kg/wk) had lesser effects at reducing hepatic GC (p = 0.0199) by 4 wks; this difference disappeared by 8 wks when nearly WT levels were achieved by Imig. Anti-GCase IgG was detected in GCase treated mice at 60 U/kg/wk, and IgE mediated acute hypersensitivity and death occurred after several injections of 60 U/kg/wk (21% with Vela and 34% with Imig). The responses of GC levels and storage cell numbers in Vela- and Imig-treated Gaucher mice at various doses provide a backdrop for clinical applications and decisions

Correlating corneal arcus with atherosclerosis in familial hypercholesterolemia

Abstract Background A relationship between corneal arcus and atherosclerosis has long been suspected but is controversial. The homozygous familial hypercholesterolemia patients in this study present a unique opportunity to assess this issue. They have both advanced atherosclerosis and corneal arcus. Methods This is a cross-sectional study of 17 patients homozygous for familial hypercholesterolemia presenting to the Clinical Center of the National Institutes of Health. Plasma lipoproteins, circumferential extent of arcus, thoracic aorta and coronary calcific atherosclerosis score, and Achilles tendon width were measured at the National Institutes of Health. Results Patients with corneal arcus had higher scores for calcific atherosclerosis (mean 2865 compared to 412), cholesterol-year score (mean 11830 mg-yr/dl compared to 5707 mg-yr/dl), and Achilles tendon width (mean 2.54 cm compared to 1.41 cm) than those without. Corneal arcus and Achilles tendon width were strongly correlated and predictive of each other. Although corneal arcus was correlated with calcific atherosclerosis (r = 0.67; p = 0.004), it was not as highly correlated as was the Achilles tendon width (r = 0.855; p Conclusion Corneal arcus reflects widespread tissue lipid deposition and is correlated with both calcific atherosclerosis and xanthomatosis in these patients. Patients with more severe arcus tend to have more severe calcific atherosclerosis. Corneal arcus is not as good an indicator of calcific atherosclerosis as Achilles tendon thickness, but its presence suggests increased atherosclerosis in these hypercholesterolemic patients.</p

Monoclonal antibody Ki-M4 specifically recognizes human dendritic reticulum cells (follicular dendritic cells) and their possible precursor in blood

Ki-M4, a new IgG3 monoclonal antibody, selectively recognizes dendritic reticulum cells (DRC; follicular dendritic cells) in all human lymphatic organs, as tested by the immunoperoxidase method on the light and electron microscopic level. This antibody was raised against separated lysosomes of the 12–0-tetradecanoyl phorbol-13-acetate (TPA) stimulated permanent cell line, U-937, derived from a human histiocytic lymphoma. No cross-reactivity was encountered in epithelial and mesenchymal cells, including macrophages and other cells detectable in bronchial and peritoneal lavages. In the nonadherent fraction of the mononuclear blood cells collected from the interphase of a Ficoll- Urografin gradient (density = 1.077 g/ml), 0.1 per million of the cells hitherto not classified as monocytes or lymphocytes showed a strong reaction. All other separated blood cell types were devoid of any reactivity. The observation that DRC share a highly restricted, and thus specific, antigen with a small but distinct subpopulation of mononuclear leukocytes implies their blood derivation.</jats:p

Monoclonal antibody Ki-M4 specifically recognizes human dendritic reticulum cells (follicular dendritic cells) and their possible precursor in blood

Abstract Ki-M4, a new IgG3 monoclonal antibody, selectively recognizes dendritic reticulum cells (DRC; follicular dendritic cells) in all human lymphatic organs, as tested by the immunoperoxidase method on the light and electron microscopic level. This antibody was raised against separated lysosomes of the 12–0-tetradecanoyl phorbol-13-acetate (TPA) stimulated permanent cell line, U-937, derived from a human histiocytic lymphoma. No cross-reactivity was encountered in epithelial and mesenchymal cells, including macrophages and other cells detectable in bronchial and peritoneal lavages. In the nonadherent fraction of the mononuclear blood cells collected from the interphase of a Ficoll- Urografin gradient (density = 1.077 g/ml), 0.1 per million of the cells hitherto not classified as monocytes or lymphocytes showed a strong reaction. All other separated blood cell types were devoid of any reactivity. The observation that DRC share a highly restricted, and thus specific, antigen with a small but distinct subpopulation of mononuclear leukocytes implies their blood derivation.</jats:p

The protooncogene c-fos is transcriptionally active in normal human granulocytes

Abstract Total cellular RNA of highly purified normal human blood cell populations was analyzed for the expression of the protooncogene c-fos, the cellular counterpart of the transforming FBJ virus. In marked contrast to previous findings based on in vitro studies with permanent leukemic cell lines, c-fos transcription was restricted to granulocytes. Neither blood monocytes nor blood lymphocytes or alveolar macrophages revealed detectable levels of c-fos transcription. Whereas this cellular oncogene is constitutively expressed in granulocytes, the monocytic cell line U-937 showed a transient c-fos transcription only after induction of differentiation. The contradiction between the results found in vivo and in vitro is discussed.</jats:p

Monoclonal antibody Ki-B3 detects a formalin resistant antigen on normal and neoplastic B cells

Abstract A new monoclonal antibody Ki-B3 produced by a fusion with leukemic cells of a centroblastic/centrocytic lymphoma (m.l. follicular) is introduced. This antibody predominantly recognizes B cells of follicular mantle and germinal center cells, as well as plasma cells in normal lymphoid tissue. Furthermore, 80% of all low- and high-grade B cell lymphomas are stained, whereas among T cell lymphomas, only four of 15 T lymphoblastic lymphomas were positive to Ki-B3. All peripheral T cell lymphomas showed a negative reaction. Additionally, Ki-B3 detects a small percentage of monocytes and some myelomonocytic leukemias. All epithelial tissues as well as all sarcomas tested were invariably negative. Ki-B3 precipitates a 220 kiloDalton (kD) molecular weight antigen similar to the leukocyte common antigen. Presumably Ki- B3 detects a subtype of the leukocyte common antigen that is predominantly expressed on mature and immature B cells. As the antigen is formalin resistant, Ki-B3 can be used in routine hematology on paraffin sections for the detection and differential diagnosis of B cell lymphomas.</jats:p

Clonal granulocytes and bone marrow cells in the cellular phase of agnogenic myeloid metaplasia

Abstract Myelofibrosis with myeloid metaplasia (MMM) belongs to the group of myeloproliferative syndromes. It is characterized by a sustained proliferation of megakaryocytes and increased medullary reticulin fibers. Until now the cellular phase at onset of the disease has not been analyzed for clonality of the hematopoietic cells. In this study we used X-linked restriction length polymorphism (RFLP) analysis to investigate the clonality of granulocytes and bone marrow cells from the cellular phase and advanced stages of the disease. In each of 12 heterozygous females, monoclonality of granulocytes or total bone marrow cells could be demonstrated. These results show that the cellular phase represents a monoclonal, and hence a probably neoplastic, proliferation of a pluripotent stem cell. The monoclonality of granulocytes present at the onset of disease should allow analysis of DNA of these easily accessible peripheral cells for the detection of specific clonal aberrations.</jats:p