A Previously Unrecognized Site of Local Accumulation of Mononuclear CellsWaltner-Romen, Maria; Falkensammer, Gerda; Rabl, Walter; Wick, Georg
doi: 10.1177/002215549804601202pmid: 9815275
In recent years our laboratory has developed an immunological hypothesis for the pathogenesis of atherosclerosis. We have shown that cellular and humoral immune reactions against heat shock proteins (Hsps) 60/65 expressed on the surface of stressed endothelial cells comprise the initial event in the pathogenesis of this disease. In the course of these studies, we also investigated normal, unaffected arteries for control purposes (carotid bifurcations from children aged 8 weeks to 10 years). This investigation led to the unexpected and previously unknown finding that mononuclear cells pre-exist in the intima at bifurcation sites. Our findings can be summarized as follows: Mononuclear cells are always found in the intima, primarily at sites subjected to major hemodynamic stress. Although the proportion of macrophages vs CD3+ T-cells differs, overall the latter clearly predominate. Most of the T-cells express the T-cell receptor (TCR)α/β, but TCRγ/δ cells are also present. We also identified dendritic cells and mast cells in the intima. Analogous to the mucosaassociated lymphoid tissue (MALT) we coined the designation “vascular-associated lymphoid tissue” (VALT) for these newly discovered cellular aggregates in the arterial intima.
In Vivo Dose-related Receptor Binding of the Vitamin D Analogue [3H]-1,25-dihydroxy-22-oxavitamin D3 (OCT) in Rat Parathyroid, Kidney Distal and Proximal Tubules, Duodenum, and Skin, Studied by Quantitative Receptor AutoradiographyKoike, Nobuo; Hayakawa, Naohiko; Kumaki, Kenji; Stumpf, Walter E.
doi: 10.1177/002215549804601203pmid: 9815276
1,25-Dihydroxy-22-oxavitamin D3 (OCT) is a new synthetic analogue of 1,25(OH)2D3 with a low calcemic effect. This study utilized quantitative receptor autoradiography to determine the dose-related receptor binding and saturation among the vitamin D target cells: parathyroid chief cells, kidney distal and proximal tubule epithelium, duodenal absorptive epithelium, and epidermal keratinocytes. Rats were injected with 0.25, 0.5, 1.0, 2.0, 4.0, 8.0, or 16.0 μg/kg bw of [26-3H]-OCT and sacrificed 1 hr afterwards. Then autoradiographs were prepared under identical conditions. In these target cells, nuclear uptake of radioactivity increased with dose and then achieved a plateau. However, their saturation doses showed differences: parathyroid chief cells 1-2 μg; duodenal absorptive epithelium, distal tubule epithelium, and epidermal keratinocytes 4-6 μg; proximal tubule epithelium 8 μg (per kg bw). In contrast, in nontarget cells, such as liver and duodenal smooth muscle, radioactivity did not concentrate in the nuclei but increased in the cytoplasm with dose, without plateauing. These results provide the first information on the relative saturabilities of various target cell populations with a vitamin D ligand. Parathyroid chief cells required the relatively lowest receptor saturation dose. This suggests a high sensitivity and response to OCT treatment with related therapeutic potential for the regulation of parathyroid function.
Immunohistochemical Localization of Carboxypeptidases E and D in the Human Placenta and Umbilical CordReznik, Sandra E.; Salafia, Carolyn M.; Lage, Janice M.; Fricker, Lloyd D.
doi: 10.1177/002215549804601204pmid: 9815277
Carboxypeptidase E (CPE) is highly concentrated in neuroendocrine tissues and is the only carboxypeptidase detected in mature secretory vesicles. Carboxypeptidase D (CPD), a carboxypeptidase with CPE-like activity, is widely distributed in tissues and is present in the trans-Golgi network. Previous work had shown that both CPE and CPD are expressed in the human placenta and that CPD is expressed at much higher levels than CPE. The present work provides evidence for the co-localization of CPE and CPD to basal plate extravillous trophoblasts and maternal uteroplacental vascular endothelial cells, chorionic villous endothelial cells, amnionic epithelial cells, and umbilical venous and arterial smooth muscle cells. Whereas the intensity of CPD immunostaining is similar in the placenta and umbilical cord, CPE staining in the placenta is much weaker than in the umbilical cord, suggesting that CPD plays a more important role in the processing of placental peptides. Immunoelectron microscopy of umbilical venous smooth muscle cells shows subcellular localization of both enzymes to the rough endoplasmic reticulum. In addition, CPE is present just subjacent to the cell membrane. The difference in cellular and subcellular localization between the two enzymes indicates that they perform distinct functions in the processing of placental peptides and proteins.
Confocal Scanning Microspectrofluorometry Reveals Specific Anthracyline Accumulation in Cytoplasmic Organelles of Multidrug-resistant Cancer CellsBelhoussine, Rajae; Morjani, Hamid; Millot, Jean Marc; Sharonov, Sergei; Manfait, Michel
doi: 10.1177/002215549804601205pmid: 9815278
We used confocal microspectrofluorometry to investigate intracellular distribution of pirarubicin or THP-DOX in parental K562, CEM, and LR73 tumor cells and their corresponding multidrug-resistant (MDR) strains. Each spectrum of a recorded image was considered as a combination of cell autofluorescence and fluorescence of the drug. In the cytoplasm of parental K562, CEM, and LR73 cells, THP-DOX fluorescence emission profile was similar to that of free drug in aqueous buffer. The (I550nm/I600nm) ratio was 0.50 ± 0.1. However, in the cytoplasm of resistant cells the 550-nm band profile was modified. The I550nm/I600nm ratio was 0.85 ± 0.2 in MDR K562 cells, which is significantly different from the ratio in sensitive cells (p<0.01). This appeared first to correspond to accumulation and selfoligomerization of THP-DOX in cytoplasmic organelles of MDR cells. Transfection of LR73 cells with the mdr1 gene conferred this characteristic on the resistant LR73R cells. Bodipyceramide, a trans-Golgi probe, was co-localized with the typical fluorescence emission peak at 550 nm observed in the cytoplasm of MDR cells. This organelle has been shown to be more acidic in MDR cells. Moreover, this specific pattern was similar to that observed when anthracycline is complexed with sphingomyelin. The typical fluorescence emission peak at 550 nm decreased in MDR cells incubated simultaneously in the presence of the drug and quinine, verapamil, or S9788. Growth inhibitory effect and nuclear accumulation of THPDOX data obtained on LR73R and LR73D cell lines showed that only during reversion of resistance by verapamil and S9788 was an increase of nuclear THP-DOX accumulation observed. Our data suggest that characteristics of molecular environment, such as higher pH gradient or lipid structures, would be potential mechanisms of multidrug-resistance via the sequestration of anthracyclines.
Widespread Expression of Serum Amyloid A in Histologically Normal Human Tissues: Predominant Localization to the EpitheliumUrieli-Shoval, Simcha; Cohen, Patrizia; Eisenberg, Shlomit; Matzner, Yaacov
doi: 10.1177/002215549804601206pmid: 9815279
Serum amyloid A (SAA) is an acute-phase reactant whose level in the blood is elevated to 1000-fold as part of the body's responses to various injuries, including trauma, infection, inflammation, and neoplasia. As an acute-phase reactant, the liver has been considered to be the primary site of expression. However, limited extrahepatic SAA expression was described in mouse tissues and in cells of human atherosclerotic lesions. Here we describe nonradioactive in situ hybridization experiments revealing that the SAA mRNA is widely expressed in many histologically normal human tissues. Expression was localized predominantly to the epithelial components of a variety of tissues, including breast, stomach, small and large intestine, prostate, lung, pancreas, kidney, tonsil, thyroid, pituitary, placenta, skin epidermis, and brain neurons. Expression was also observed in lymphocytes, plasma cells, and endothelial cells. RT-PCR analysis of selected tissues revealed expression of the SAA1, SAA2, and SAA4 genes but not of SAA3, consistent with expression of these genes in the liver. Immunohistochemical staining revealed SAA protein expression that colocalized with SAA mRNA expression. These data indicate local production of the SAA proteins in histologically normal human extrahepatic tissues.
Specificity of Antibodies to Nitric Oxide Synthase Isoforms in Human, Guinea Pig, Rat, and Mouse TissuesCoers, Wilko; Timens, Wim; Kempinga, Claudia; Klok, Pieter A.; Moshage, Han
doi: 10.1177/002215549804601207pmid: 9815280
Ten commercially available rabbit polyclonal anti-NOS antibodies were tested for their immunohistological applicability in normal human, guinea pig, rat, and mouse organs. Most antibodies reacted as expected and described in the literature with various tissues of the investigated species. Several antibodies did not react with the expected cell populations in a certain species, or reacted in previously unknown patterns. In addition, different antibodies to the same isoform rarely detected identical cell populations, even within one species. Most of these unexpected immunoreactivities were observed in bronchial epithelial, glomerular epithelial, and vascular smooth muscle cells. These unexpected results usually occurred when the antibodies were tested in other organs or species than that to which they were originally raised. We therefore strongly recommend the use of anti-NOS antibodies only after careful immunohistological and biochemical analysis of their reactivity in the organ and species to be studied.
Localization of Monoamine Oxidase mRNA in Human PlacentaAuda, Ghazi R.; Kirk, Sandra H.; Billett, Michael A.; Billett, E. Ellen
doi: 10.1177/002215549804601208pmid: 9815281
Monoamine oxidase (MAO) oxidatively deaminates vasoactive and biogenic amines and exists in two distinct forms (A and B), coded for by separate genes, which exhibit distinct substrate specificities and inhibitor sensitivities. Using specific primers for MAO-A and MAO-B mRNA in a reverse transcription-polymerase chain reaction (RT-PCR) on RNA from human liver, the predicted products for both enzymes were detected. Furthermore, RT-PCR on RNA from human placenta, believed to contain predominantly (or only) MAO-A protein, also indicated the presence of both A and B gene transcripts. The cellular distribution of MAO mRNA in placental tissue was analyzed by in situ hybridization of MAO-A and MAO-B mRNA-specific cRNA probes on paraffin sections. MAO-A mRNA was mainly evident in the syncytiotrophoblastic layer. None was detected in the vascular endothelium/smooth muscles. Significantly, MAO-B mRNA signal was also evident in the placental villi, notably in the syncytiotrophoblasts, intermediate trophoblasts, cytotrophoblasts, and the vascular endothelium. To our knowledge, this is the first demonstration of the cellular distribution of MAO mRNA in human placenta via in situ hybridization. The expression of MAO-B in placental tissue rather than in blood elements within placenta is also unequivocally demonstrated. These highly specific cRNA probes can now be used to study the distribution of MAO-A and MAO-B expression in other tissues.
Distinct Patterns of NCAM Expression Are Associated with Defined Stages of Murine Hair Follicle Morphogenesis and RegressionMüller-Röver, Sven; Peters, Eva J. M.; Botchkarev, Vladimir A.; Panteleyev, Andrei; Paus, Ralf
doi: 10.1177/002215549804601209pmid: 9815282
Hair follicle development, growth (anagen), and regression (catagen) largely result from bidirectional epithelial-mesenchymal interactions whose molecular basis is still unclear. Because adhesion molecules are critically involved in pattern formation and because the fundamental importance of neural cell adhesion molecule (NCAM) for feather development has been demonstrated, we studied the protein expression patterns of NCAM during hair follicle development and regression in the C57BL/6 mouse model. During murine hair follicle development, NCAM immunoreactivity (IR) was first detected on epithelial hair placodes and later on selected keratinocytes in the distal outer root sheath. Mesenchymal NCAM immunoreactivity (IR) was noted on fibroblasts of the future dermal papilla (DP) and the perifollicular connective tissue sheath. Fetal hair follicle elongation coincided with strong, ubiquitous dermal NCAM IR, which remained strong until the follicles entered into their first neonatal catagen. At this time, the strong interfollicular dermal NCAM IR decreased substantially. During consecutive hair cycles, mesenchymal NCAM IR was seen exclusively on DP and perifollicular connective tissue sheath fibroblasts and on the trailing cells of regressing catagen hair follicles. These highly restricted and developmentally controlled expression patterns suggest an important role for NCAM in hair follicle topobiology during morphogenesis and cyclic remodeling of this miniorgan.