Angela Damiano scite author profile

The cytolytic pore-forming protein (PFP, perforin) of lymphocyte granules has recently been isolated and characterized. The lytic activities expressed by both the isolated granules and the purified PFP require the presence of Ca2+. Here, we report on the extracellular release of PFP after stimulation of lymphocytes with the Ca2+ ionophore A23187, which degranulates the cells. The secreted protein associates with lipid to form structural and functional channels and supramolecular complexes that partially resist dissociation by sodium dodecyl sulfate and reducing agents. Immunoblots of the released material reveal positive identification with antibodies specific for mouse PFP and human complement component C9, indicating cross-reactivity between these two molecules. By using these specific antibodies as immunoadsorbents, the lymphocyte PFP has been affinity purified from the supernatant of stimulated cells. The extracellular release of PFP is associated with simultaneous formation of functional ion-nonselective channels with conductances of 550-600 pS in 0.15 M NaCl, as measured in planar model bilayers. In the absence of extracellular Ca2+, 15% of the maximal release activity is observed. Ca2+ appears to be required to elicit both secretion by lymphocytes and the assembly of the released PFP into tubular polymers. Similar secretion of PFP may occur during cell killing by lymphocytes, resulting in its assembly on target membranes to form tubular transmembrane lesions.The cytolysis mediated by cytotoxic T lymphocytes and natural killer (NK)-like cells involves the formation of circular lesions on target cell membranes (reviewed in refs.

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Dissociation of membrane binding and lytic activities of the lymphocyte pore-forming protein (perforin).

Young¹,

Damiano²,

Dinome³

et al. 1987

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Granules isolated from CTL and NK cells contain a cytolytic pore-forming protein (PFP/perforin). At low temperatures (on ice), PFP binds to erythrocyte membranes without producing hemolysis. Hemolysis occurs when the PFP-bound erythrocytes are warmed up to 37 degrees C, which defines a temperature-dependent, lytic (pore-formation) step distinct from the membrane-binding event. Ca2+ and neutral pH are required for both membrane binding and pore formation by PFP. Serum, LDL, HDL, and heparin inhibit the hemolytic activity of PFP by blocking its binding to lipid membranes. Lysis by PFP that has bound to erythrocyte membranes is no longer susceptible to the effect of these inhibitors. The hemolytic activities associated with intact granules and solubilized PFP show different requirements for Ca2+ and pH, indicating that cytolysis produced by isolated granules may involve an additional step, possibly fusion of granules with membranes. It is suggested that three distinct Ca2+- and pH-dependent events may be involved during cell killing by CTL and NK cells: fusion of cytoplasmic granules of effector cells with their plasma membrane, releasing PFP from cells; binding of the released PFP to target membranes; and insertion of monomers and the subsequent formation of lytic pores in the target membrane. The serum-mediated inhibition of membrane binding by PFP could prevent the accidental injury of bystander cells by cell-released PFP, but would allow cytolysis to proceed to completion once PFP has bound to the target membrane.

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Cytolytic Pore-Forming Proteins

Young¹,

Liu²,

Leong³

et al. 1988

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Analysis of enzymatic activities of subcellular and chromatographic fractions by an automated colorimetric microassay system

Young

Damiano

Leong

et al. 1986

Analytical Biochemistry

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Angela Damiano

Isolation and characterization of a serine esterase from cytolytic T cell granules

Extracellular release of lymphocyte cytolytic pore-forming protein (perforin) after ionophore stimulation.

Dissociation of membrane binding and lytic activities of the lymphocyte pore-forming protein (perforin).

Cytolytic Pore-Forming Proteins

Analysis of enzymatic activities of subcellular and chromatographic fractions by an automated colorimetric microassay system

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