Aggregation of feline lymphoma cells by hyaluronic acid

Wasteson, Åke; Westermark, Bengt; Lindahl, Ulf; Pontén, Jan

doi:10.1002/ijc.2910120118

Cited by 56 publications

(14 citation statements)

References 21 publications

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“…Although demonstrated by the aggregation of certain lymphoma cell lines many years before [39,40], the ability of hyaluronan to adhere to cell surfaces was confirmed by the discovery of the HYA-binding site on SV-3T3 cells [15]. As noted above, this binding site was later defined as CD44, which is responsible for the adhesion of HYA to endothelial cells [22] and human myeloid cell lines [26], and for the adhesion of B-lineage lymphocytes to stroma cells [25].…”

Section: Adhesionmentioning

confidence: 99%

Hyaluronan: fundamental principles and applications in cancer

Delpech

Girard

Bertrand

et al. 1997

Journal of Internal Medicine

146

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Section: Adhesionmentioning

confidence: 99%

Hyaluronan: fundamental principles and applications in cancer

Delpech

Girard

Bertrand

et al. 1997

Journal of Internal Medicine

146

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“…Hyaluronic acid has recently been implicated in such processes as cell aggregation (23,34) and mesenchymal cell mobility (17,31). Powars et al (24) have speculated that hyaluronic acid may be involved in the growth and control of metastasis of Wilms' tumor.…”

Section: Discussionmentioning

confidence: 99%

Glycosaminoglycan Synthesis by Wilms' Tumor

Hopwood

Dorfman

1978

Pediatr Res

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“…Cell surface-associated hyaluronate is involved in both cell-cell and cell-to sulfated glycosaminoglycan substratum adhesion of SV40-3T3 cells (7,71), attachment of chondrosarcoma cells to tissue culture surfaces (72), and the aggregation of a variety of other cell types (7,73,74). Cell surface-associated hyaluronate is involved in both cell-cell and cell-to sulfated glycosaminoglycan substratum adhesion of SV40-3T3 cells (7,71), attachment of chondrosarcoma cells to tissue culture surfaces (72), and the aggregation of a variety of other cell types (7,73,74).…”

Section: (I) Hyaluronatementioning

confidence: 99%

“…The presence of cell surface receptors for hyaluronic acid has been inferred by the ability of this polymer to aggregate cells (73,74) and by the binding of radiolabeled hyaluronate t6 fibroblasts (7,(127)(128)(129), which is time-dependent, saturable, reversable and specific. Furthermore, binding interactions of these endogenous receptors are of high affinity (K D = 10 -gM) (7) and are positively cooperative in nature (130).…”

Section: (A) Hyaluronic Acidmentioning

confidence: 99%

Proteoglycans and cell adhesion

Turley

1984

Cancer Metast Rev

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In this review, evidence that proteoglycans are involved in cell adhesion and related behavior is considered, together with their putative role(s) during tumorigenesis. Proteoglycans are large, carboxylated and/or sulfated structures that interact with specific binding sites on cell surfaces. Their distribution and synthesis in tissues alter with the onset of tumorigenesis so that hyaluronic acid is generally increased and heparan sulfate decreased in the developing tumor and surrounding tissue. However, the precise role of proteoglycans during the tumorigenic process is far from clarified. Data suggest any putative roles will be related to the adhesive properties that these molecules confer to cells. Hyaluronic acid and chondroitin sulfate appear to be weakly adhesive molecules that may promote 'transformed' characteristics when they occur on cells in large amounts. These characteristics include reduced cell spreading, increased cell motility, as well as reduced contact inhibition. Consistent with such properties, neither hyaluronic acid nor chondroitin sulfate are localized in specialized adhesion sites such as focal or close contacts. In contrast, heparan sulfate is associated with increased cell-substratum adhesion and is involved in the spreading of cells onto fibronectin and other substrata. Its presence is generally associated with reduced motility and with a well-spread morphology. Unlike hyaluronate and chondroitin sulfate, heparan sulfate is found in specialized contacts. These adhesive properties of proteoglycans predict an instructive role in tumor development, and recent experiments have defined an involvement of these molecules in metastatic arrest. Additional studies utilizing invasive and metastatic tumor variants including tumor cells that employ different mechanisms to invade are required to clarify the role of proteoglycans in tumor progression.

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Aggregation of feline lymphoma cells by hyaluronic acid

Cited by 56 publications

References 21 publications

Hyaluronan: fundamental principles and applications in cancer

Hyaluronan: fundamental principles and applications in cancer

Glycosaminoglycan Synthesis by Wilms' Tumor

Proteoglycans and cell adhesion

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