RNA-dependent Amplification of Mammalian mRNA Encoding Extracellullar Matrix Proteins: Identification of Chimeric RNA Intermediates for α1, β1, and γ1 Chains of Laminin

ABSTRACTThe aim of the present study was to test for the occurrence of key elements predicted by the previously postulated mammalian RNA-dependent mRNA amplification model in a tissue producing massive amounts of extracellular matrix proteins. At the core of RNA-dependent mRNA amplification, until now only described in one mammalian system, is the self-priming of an antisense strand and extension of its 3’ terminus into a sense-oriented RNA containing the protein-coding information of a conventional mRNA. The resulting product constitutes a new type of biomolecule. It is chimeric in that it contains covalently connected antisense and sense sequences in a hairpin configuration. Cleavage of this chimeric intermediate in the loop region of a hairpin structure releases mRNA which contains an antisense segment in its 5’UTR; depending on the position of self-priming, the chimeric end product may encode the entire protein or its C-terminal fragment. The occurrence of such composite chimeric molecules is unique for this type of mRNA amplification and represents a conclusive “identifier” of this process. We report here the detection, by next generation sequencing, of such chimeric junction sequences for mRNAs molecules encoding αl, β1, and γ1 chains of laminin in cells of the extracellular matrix-generating Engelbreth-Holm-Swarm (EHS) mouse tumor, best known for producing extraordinarily large amounts of “Matrigel”.

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Distribution of VLA-5 and VLA-4 fibronectin receptors in human monocytes demonstrated by immunofluorescence, immunocytochemistry, and autoradiography

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100147375 ◽

1993 ◽

Vol 51 ◽

pp. 306-307

Author(s):

Robert Williams ◽

Che-Hung Lee ◽

Sara E. Quella ◽

David M. Harlan ◽

Yuan-Hsu Kang

Keyword(s):

Present Report ◽

Matrix Proteins ◽

Extracellular Matrices ◽

Human Monocytes ◽

Integrin Receptors ◽

Morphological Evaluation ◽

The Matrix ◽

Specific Receptors ◽

Cytokine Stimulation ◽

Monocyte Adherence

Monocyte adherence to endothelial or extracellular matrices plays an important role in triggering monocyte activation in extravascular sites of infection, chronic inflammatory disorders, and tissue damage. Migration of monocytes in the tissues involves the response to a chemoattractant and movement by a series of attachments and detachments to the extracellular matrices which are regulated by expression and distribution of specific receptors for the matrix proteins such as fibronectin (FN). The VSAs (very late antigens or beta integrins), a subfamily of the transmembrane heterodimeric integrin receptors, have been thought to play a major role in monocyte adherence to the extracellular matrices and cells. In this subfamily, VLA-5 and VLA-4 are believed to be the most essential integrins mediating monocyte adherence to FN. In the present report, we have established and compared different procedures for morphological evaluation of the expression and distribution of the FN receptors on human monocytes in order to investigate their response to endotoxin or cytokine stimulation.

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Development of an in vitro Model for the Study of the Response of Equine Tendon Fibroblasts to Injury and Medication

Veterinary and Comparative Orthopaedics and Traumatology ◽

10.1055/s-0038-1632561 ◽

1997 ◽

Vol 10 (01) ◽

pp. 6-11 ◽

Cited By ~ 3

Author(s):

R. F. Rosenbusch ◽

L. C. Booth ◽

L. A. Dahlgren

Keyword(s):

Electron Microscopy ◽

Extracellular Matrix ◽

Light Microscopy ◽

Light And Electron Microscopy ◽

Tendon Healing ◽

Matrix Proteins ◽

Isolated Cells ◽

Superficial Digital Flexor Tendon ◽

Vitro Model

SummaryEquine tendon fibroblasts were isolated from explants of superficial digital flexor tendon, subcultured and maintained in monolayers. The cells were characterized by light microscopy, electron microscopy and radiolabel studies for proteoglycan production. Two predominant cell morphologies were identified. The cells dedifferentiated toward a more spindle shape with repeated subcultures. Equine tendon fibroblasts were successfully cryopreserved and subsequently subcultured. The ability to produce proteoglycan was preserved.The isolated cells were identified as fibroblasts, based on their characteristic shape by light microscopy and ultrastructure and the active production of extracellular matrix proteins. Abundant rough endoplasmic reticulum and the production of extracellular matrix products demonstrated active protein production and export. Proteoglycans were measurable via liquid scintillation counting in both the cell-associated fraction and free in the supernatant. This model is currently being utilized to study the effects of polysulfated glycosaminoglycan on tendon healing. Future uses include studying the effects of other pharmaceuticals, such as hyaluronic acid, on tendon healing.A model was developed for in vitro investigations into tendon healing. Fibroblasts were isolated from equine superficial digital flexor tendons and maintained in monolayer culture. The tenocytes were characterized via light and electron microscopy. Proteoglycan production was measured, using radio-label techniques. The fibroblasts were cryopreserved and subsequently subcultured. The cells maintained their capacity for proteoglycan production, following repeated subculturing and cryopreservation.

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