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Query: UMLS:C0001511 (
Adhesion
)
5,955
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
CD54/Intercellular
Adhesion
Molecule-1 (ICAM-1) is a cell adhesion molecule largely distributed among normal and neoplastic tissues. Through the binding to its ligand(s) CD54 plays a key role in cell to cell interactions leading to the immune response. Recently, CD54 expression has been investigated on hematopoietic cells: the antigen is predominantly expressed in the early stages of normal hematopoiesis and during the activation of blood cells. As regards to hematological malignancies, CD54 is strongly expressed on neoplastic cells from "stem cell derived" neoplasms. In
AML
, CD54 expression is related with other differentiation-linked molecules such as CD34 and HLA-DR and is significantly correlated with FAB morphological classification. In lymphoproliferative disorders, a high CD54 expression is associated with germinal centre lymphomas. This review summarizes our current understanding of CD54 with emphasis on recent advances and reference to unresolved issues such as its prognostic role in the clinical outcome of oncohematological diseases.
...
PMID:Expression and functional role of CD54/Intercellular Adhesion Molecule-1 (ICAM-1) on human blood cells. 136 19
Adhesion
molecules are involved in cell-cell interactions and therefore probably play a role in the differentiation and egress of cells from the bone marrow, which might be potentially important in the biology of acute promyelocytic leukemia (APL). All-trans retinoic acid (ATRA) is known to induce in vitro and in vivo differentiation of APL cells and to favor their release from the bone marrow into the blood at initiation of therapy. In order to determine whether these effects might be mediated in part by modifications of beta1-integrin and pseudoimmunoglobulin expression on APL cells, the expression of these adhesion molecules on bone marrow (BM) blast cells from 24 APL patients was assayed at diagnosis by an indirect immunofluorescence method. CD49b, CD49d, CD49e, CD49f, CD54, CD58, and CD56 were expressed respectively on 18%+/-20% (0-66%), 40%+/-31% (0-96%), 48%+/-32% (0-97%), 29%+29% (1-94%), 51%+/-30% (5-98%), 37%+/-24% (1-85%) and 32%+/-31% (0-97%) of APL cells, with respectively 39%, 71%, 79%, 50%, 70%, 70%, and 53% positive cases (> or = 20% positive cells). Despite a wide variability between individual samples, the expression of beta1-integrins and that of pseudo-immunoglobulins tended to be higher in APL in comparison with that of a cohort of 63 patients with other
AML
subtypes with significant differences for CD54 expression (51%+/-30% vs 28%+/-27%, P=0.006) and CD56 expression (37%+/-24% vs 17%+/-19%, P=0.0003). An in vitro differentiation assay was performed in nine cases. Cells were harvested after 4-7 days of culture and studied for the expression of adhesion molecules. Granulocytic differentiation was marked by persistence of CD15 expression. Antigen expression was decreased after culture with ATRA for all beta1-integrins (except CD49b and CD49f) and pseudoimmunoglobulins (except CD54) tested. However, changes were statistically significant only for CD56 (P=0.04), CD49d (P=0.02) and CD49e (P=0.01). The modifications in the expression of the beta1-integrins and pseudo immunoglobulins were not specific to ATRA-induced differentiation, but commonly observed with differentiation. Furthermore, the modifications in the adhesive properties of APL cells to extracellular matrix proteins, observed on adhesion assays, were not statistically significant after ATRA-induced differentiation. Overall, the level of expression of beta1-integrins and pseudo-immunoglobulins was higher in APL than in other
AML
subtypes, and appeared modified with induced differentiation. This was not specific of ATRA, but might be involved in the general differentiation phenomenon. The modulation of adhesion molecules does not seem a sufficient requisite for the development of the retinoic acid syndrome, but could nevertheless be part of the increase in leukocyte counts observed during the first days of ATRA therapy.
...
PMID:Expression of beta1-integrins and pseudo-immunoglobulins on acute promyelocytic leukemia cells and its modifications during in vitro differentiation. 958 81
Minimally differentiated acute myeloid leukemia (
AML
-M0) is a rare FAB subtype (2-3% of AMLs) of poor prognosis. The aim of our study was to characterize
AML
-M0 expression and regulation of adhesion/costimulatory molecule involved in immune recognition, to test blast in vitro immunogenicity, and to determine the percentage of leukemia progenitor cells. Here, we demonstrate that alloimmune recognition of
AML
-M0 in primary mixed lymphocyte reaction, as evaluated by IL-2 secretion of responding T cells, is reduced in comparison with more differentiated subtypes (128 +/- 95 pg/ml vs304 +/- 159 pg/ml, P < 0.05). These data are in line with low blast cell expression of major histocompatibility complex (MHC) class II DR molecules, and of the CD28 ligand B7-2, which plays an important role in
AML
immune recognition.
Adhesion
/costimulatory molecules were up-regulated by leukemic cell stimulation via CD40, and, although less efficiently, by gamma-IFN; both stimuli improved blast cell immunogenicity. We also demonstrate that
AML
-M0 have a very high percentage (40% +/- 30) of CD34+/CD38- leukemic clonogenic precursors in comparison with more differentiated AMLs (2.5% +/- 2) or non-leukemic CD34+hematopoietic precursors (1.8% +/- 0.8). Since the presence of a leukemic cell population at an early differentiation stage has been identified as a poor prognostic factor, we conclude that the high frequency of CD34+/CD38- blasts in
AML
-M0 may converge with already identified poor prognosis factors such as chemotherapy resistance and cytogenetic abnormalities. The clinical implications of
AML
-M0 impaired in vitroimmunogenicity and a high percentage of CD34+/CD38- blasts will require comparative analysis of additional patients. The increased immunogenicity of blast cells after CD40 triggering provide interesting clues for
AML
-M0 immunotherapy, that have to be confirmed with an in vivo leukemia model in mice.
...
PMID:The immunophenotype of minimally differentiated acute myeloid leukemia (AML-M0): reduced immunogenicity and high frequency of CD34+/CD38- leukemic progenitors. 1051 51
An increasing body of evidence has shown that hematologic malignancies, alike normal hematopoiesis, has a hierarchical structure including a stem cell compartment with self renewal capability, endowed in a neoplastic niche bearing resemblance to its normal hematopoietic counterpart. According to experimental data on NOD-SCID mice, leukemic stem cells are characterized by a CD34+/CD38- surface profile and account for 1 in 10(3) to 1 in 10(6) of the total amount of leukemic cells. The available knowledge about leukemic stem cells (LSC) has arisen the question as to whether some targeting of LSC is achieved by current treatments; the answer is dubitative at best, with the possible exception of arsenic trioxide in promyelocytic leukemia. On the other side, the unsatisfactory results in the treatment of many hematological neoplasms has prompted many research groups to find out whether direct targeting of LSC, possibly in its niche, would result in an improvement in cure rates. This approach implies the identification of LSC specific markers, clearly distinct from their normal counterpart in order to spare normal hematopoietic stem cells.
Adhesion
/surface antigens, metabolic pathways involved in LSC survival and renewal, telomerase, commonly mutated genes and epigenetic phenomena have been investigated as candidate targets for newer therapeutic strategies. So far, most of the possibly effective agents have been studied in experimental models only. FLT-3 inhibitors account for a notable exception since they have resulted effective in vivo in
AML
with mutated, but not over expressed, FLT-3. A main task for the future is to find out whether some common LSC specific markers would be identifiable in a substantial proportion of
AML
cases, or whether each
AML
case shows a unique fingerprint of markers. In the latter event, targeting of LSC could result in an arduous task.
...
PMID:Cancer stem cells in hematological disorders: current and possible new therapeutic approaches. 2104 4
