In vitro complement binding on cytoplasmic structures in normal human skin: immunoelectronmicroscopic studies

Purification of natural antikeratin autoantibodies from normal human serum and their effect on human keratinocytes cultured in vitro

BACKGROUND

Antikeratin (AK) autoantibodies, circulating antibodies against epidermal keratins, have been detected in all normal human sera. However, direct evidence on the biological significance of AK autoantibodies is still lacking.

OBJECTIVES

To purify AK autoantibodies from human serum and to make a preliminary study of their biological effects on human keratinocytes.

METHODS

We first extracted keratin polypeptides from human stratum corneum and analysed their purity using sodium dodecyl sulphate-polyacrylamide gel electrophoresis (SDS-PAGE). Next, a keratin affinity column was prepared with the extracted keratins, and AK autoantibodies were purified from pooled normal human serum. Antibodies obtained were identified with SDS-PAGE, enzyme-linked immunosorbent assay, immunoperoxidase staining, immunoelectron microscopy and Western blotting. The biological effect of AK autoantibodies on cultured human keratinocytes was studied using a DNA synthesis assay, 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) colorimetric determination and cell cycle analysis.

RESULTS

On average, 1.83 +/- 0.24 mg of antibodies could be purified from 10 mL of pooled human serum. High-titre IgG (about 1 : 70) and low-titre IgM (about 1 : 30) AK autoantibodies were obtained. The DNA synthesis assay and MTT colorimetric determination demonstrated that AK autoantibodies have a significant dose-dependent inhibitory effect on cultured keratinocytes. Correlation coefficients in the two experiments were - 0.583 and - 0.797, respectively. Cell cycle analysis indicated that a small dose of AK autoantibodies leads to inhibition of proliferation of cultured keratinocytes, whereas a large dose of AK autoantibodies causes a visible hypodiploid peak, suggesting apoptosis of keratinocytes.

CONCLUSIONS

The present research lays a solid foundation for further investigation into the biological significance of natural AK autoantibodies.

Polarized expression and basic fibroblast growth factor-induced down-regulation of the alpha 6 beta 4 integrin complex on human microvascular endothelial cells

Endothelial cells rest on a basement membrane that anchors them to the vessel wall. The alpha 6 beta 4 integrin complex has been described on epithelial cells, frequently localizes to basement-membrane structures, and appears to play a role in binding epithelial cells to laminin. We have determined that human microvascular endothelial cells express the beta 4 integrin chain in vivo and that it preferentially localizes to the endothelial basement membrane. Human microvascular endothelial cells and human umbilical vein endothelial cells also express cell-surface beta 4 in vitro. In addition, the expression of beta 4 appears to be polarized to the undersurface of endothelial cell monolayers in vitro, mimicking its in vivo localization. Stimulation of microvascular endothelial cells with basic fibroblast growth factor or phorbol 12-myristate 13-acetate, agents previously shown to induce endothelial cell migration in vitro, resulted in a marked decrease in cell-surface expression of the beta 4 integrin chain, associated with a decrease in beta 4 mRNA. These data demonstrate that human endothelial cells express the beta 4 integrin chain in vivo and in vitro, the expression of this integrin chain is polarized, and its expression is regulated on microvascular endothelial cells by factors important in wound healing and vascular regeneration.

Vitronectin shows complement-independent binding to isolated keratin filament aggregates

Keratinocyte cell death, whether produced by skin disease or by physiologic apoptosis in normal skin, may result in formation of dermal keratin bodies, consisting mainly of keratin intermediate filament aggregates. Vitronectin, a multifunctional plasma and tissue glycoprotein, which inhibits the complement membrane attack complex and promotes cell attachment and spreading, is, like amyloid P component, associated with keratin bodies in vivo. To investigate a potential role for vitronectin in the removal of keratin bodies, we studied the interaction of vitronectin with keratin intermediate filaments in normal human skin and in Hep-2 cells, as well as with isolated keratin intermediate filament aggregates in vitro. Following pre-incubation of skin sections and Hep-2 cells with normal human serum (as a source of vitronectin), cytoplasmic staining of keratinocytes and of cytoskeletal filaments in Hep-2 cells was observed by immuno-fluorescence staining with polyclonal and monoclonal anti-vitronectin antibodies. Vitronectin binding to keratin intermediate filament aggregates extracted from normal human epidermis was demonstrated by immunofluorescence and by immunoblotting, and was not dependent on complement activation, because it occurred even when heat-inactivated human serum or C4-deficient serum was used as a source of vitronectin. Amyloid P component shows Ca++- dependent binding to keratin intermediate filament aggregates. does not involve amyloid P component because it occurred when binding of the latter protein was inhibited by EDTA buffer. Moreover, purified vitronectin also bound to keratin intermediate filament aggregates in immunofluorescence studies. Vitronectin binding to keratin intermediate filaments may play a role both in limiting complement-mediated tissue damage (because keratin bodies may activate complement) and in promoting removal of keratin bodies by fibroblasts and/or macrophages.

IgG binding to cytoskeletal intermediate filaments activates the complement cascade

The cellular plasma membrane becomes permeable to macromolecules during the cell injury process. This results in exposure of the interior of the cell to plasma proteins and to high-affinity binding of the Fc part of IgG to intermediate filaments (Hansson, G K, Starkebaum, G A, Benditt, E P & Schwartz, S M, Proc natl acad sci USA 81 (1984) 3103). Such IgG binding could be an early step in a process that serves to eliminate the injured cell. We have now identified its effect on the complement system. Intermediate filaments were reconstituted in vitro from purified vimentin, and incubated with plasma proteins. Cross-linker experiments showed binding of the heavy chain of IgG to vimentin, indicating that the vimentin protein carries an Fc-binding site. In contrast, no direct binding of complement factor Clq to vimentin could be detected. Binding of both IgG and Clq could, however, be detected by immunofluorescence when cytoskeletons of cultured endothelial cells were incubated with fresh serum. Therefore, IgG binding to filaments in the presence of serum is accompanied by Clq binding to IgG. This was in turn followed by fixation of C4 and C3 to intermediate filaments in a process that was dependent on both Ca2+, Mg2+ and Clq, indicating that it was part of a complement activation via the classical pathway. Exposure of fresh serum to intermediate filaments also resulted in production of the anaphylatoxic complement cleavage fragment. C3a, with a dose-response relationship between the amount of filaments present and the amount of C3a generated. Chemotactic activity towards granulocytes and monocytes was also generated by exposure of serum to intermediate filaments, and this activity was dependent on the presence of complement factor C5 and on the classical complement activation cascade, implying that it was due to the C5a peptide. Exposure of the interior of the cell to plasma proteins thus results in binding of IgG to intermediate filaments and activation of the complement cascade via the classical pathway. This, in turn generates bioactive mediators which may recruit leukocytes to the injured cell (C5a) and have profound effects on vascular permeability (C3a, C5a). We propose that this is part of a scavenger mechanism for the elimination of damaged cells.

Phagocytosis of keratin filament aggregates following opsonization with IgG-anti-keratin filament autoantibodies

IgG-anti-keratin intermediate filament autoantibodies occur in low titers in all normal human sera. These same antibodies are present in high titers in the sera of patients who have diseases in which cells containing keratin intermediate filaments (KIF) have been damaged, such as systemic lupus erythematosus, graft-versus-host disease, and cutaneous tumors. Since some human autoantibodies are thought to function in part as opsonins promoting the removal of insoluble cellular proteins after tissue injury, we investigated the influence of IgG-anti-KIF autoantibodies on the phagocytosis of insoluble KIF aggregates by human monocytes and polymorphonuclear neutrophils (PMN). Keratin intermediate filaments assembled in vitro were reconstituted into dense spherical KIF aggregates 0.3-2.5 microns in diameter by dialysis against phosphate-buffered saline. Immunoelectron microscopy revealed that, as expected, human IgG-anti-KIF autoantibodies bound to the KIF aggregates. Human monocytes or PMN were incubated either with nonopsonized KIF aggregates or with KIF aggregates that had been reacted with IgG-anti-KIF autoantibodies. The uptake of KIF aggregates was visualized by indirect immunofluorescence, immunoperoxidase staining, and immunoelectron microscopy. Monocytes rapidly and efficiently bound and phagocytosed KIF aggregates that had been coated with IgG-anti-KIF autoantibodies. Nonopsonized KIF aggregates, in contrast, were taken up much less efficiently. Differences were most marked at 4 degrees C for 60 min with phagocytosis of opsonized KIF aggregates by 23 +/- 8% of monocytes in contrast to phagocytosis by only 0.2 +/- 3% monocytes when nonopsonized KIF aggregates were used. Similar results occurred at 37 degrees C for 5 min with phagocytosis by 38 +/- 28% vs 1.8 +/- 0.4% of monocytes of opsonized and nonopsonized KIF aggregates, respectively. A high percentage of PMN also phagocytosed opsonized KIF aggregates, whereas nonopsonized KIF aggregates were ingested less avidly. These data indicate that the opsonization of extracellular KIF aggregates by IgG-anti-KIF autoantibodies plays an important role in promoting the phagocytosis of KIF aggregates. The subsequent phagocytosis represents a rapid and very effective mechanism for the removal of insoluble KIF following keratinocyte cell death.

Apoptotic keratin bodies as autoantigen causing the production of IgM-anti-keratin intermediate filament autoantibodies

The presence of numerous keratin bodies in the upper dermis is a characteristic finding in skin lesions of patients with various dermatoses such as cutaneous graft-versus-host disease, lichen planus, or chronic discoid lupus erythematosus. These keratin bodies are generated by apoptotic keratinocyte death, consist largely of keratin intermediate filaments (KIF), and are constantly covered with immunoglobulins, mainly IgM. Apoptosis is also thought to occur under physiologic conditions in the skin as it does in other organs, but keratin bodies are not frequently reported as being found in nonlesional skin. In order to assess the frequency of keratin bodies in normal skin, we examined serial sections of 10 normal human skin specimens and 5 dermal sheets prepared from normal human skin for the presence of keratin bodies. They were visualized by direct immunofluorescence using a fluorescein isothiocyanate (FITC) rabbit antihuman IgM conjugate. In addition the KIF origin of keratin bodies was demonstrated by a double-staining immunofluorescence procedure using a FITC-conjugated rabbit antihuman IgM followed by a mouse monoclonal antibody against keratin and a sheep antimouse immunoglobulin conjugated with Texas Red. One specimen was also examined for keratin bodies at the ultrastructural level. In serial sections, all 10 normal human skin specimens had numerous keratin bodies as assessed by visualization of globular IgM deposits. Evaluated on dermal sheets, the number of keratin bodies ranged from 39-262 per mm2. Nearly all keratin bodies also stained with the antikeratin antibodies. Ultrastructurally the remarkable number of keratin bodies, which consist of filaments measuring approximately 10 nm in diameter or of more granular material, in normal human skin was confirmed. In order to investigate the capacity of KIF material in keratin bodies to function as autoantigen, we examined the sera of the 10 skin donors and, in addition, of 30 normal healthy individuals and 10 patients with rheumatoid arthritis for the occurrence and specificity of IgM-anti-KIF autoantibodies by an enzyme-linked immunosorbent assay and by immunoblot. IgM-anti-KIF autoantibodies were found in all 50 test sera. In the majority of the sera the specificity of these autoantibodies included the 51 kD and the 58 kD KIF protein, which are constituents of KIF in keratin bodies and basal keratinocytes. Quantitatively, the antibody activity of the IgM-anti-KIF autoantibodies varied from serum to serum, being highest in the sera of patients with rheumatoid arthritis.(ABSTRACT TRUNCATED AT 400 WORDS)

Activation of the alternative pathway of complement by skin immune deposits

Skin immune deposits at the basement membrane zone have been demonstrated by functional assays to activate complement. This important biologic function has not yet been explored for immune deposits present in other locations mainly because many cytoplasmic structures in the skin have the capacity to activate the complement cascade by the classical pathway. In this study the capacity of immune deposits to activate directly the alternative pathway was examined using a functional guinea pig C3 binding test. This test was devised so as to avoid complement activation by normal cutaneous structures, thus it did not examine the capacity of immune reactants to activate the classical pathway. The main findings were that alternative pathway activation could be demonstrated only when human C3 deposits were seen by direct immunofluorescence, but not all C3 deposits were found to activate the alternative pathway; such activation was restricted to vascular deposits; the phlogistic potential of the immune deposits correlated with serologic evidence of ongoing immune reactions, i.e., hypocomplementemia and circulating immune complexes. It is suggested that this test provides data on one aspect of the phlogistic potential of skin immune deposits not detectable by direct immunofluorescence.

In vitro complement binding in human skin cells with altered differentiation

Exposure of cytoskeletal intermediate-sized filaments (ISF) of various cell populations in normal human skin to normal human serum (NHS) results in the deposition of C3 upon these structures; this phenomenon most likely occurs antibody-independently, is initiated by Clq binding to ISF, and is followed by the activation of the classical complement pathway. In the present study we investigated the cytoplasmic C3-binding properties of skin cells undergoing altered differentiation. Incubation of cryostat skin sections of dermal melanocytic nevi with NHS and, subsequently, with fluorescein isothiocyanate-conjugated rabbit antihuman C3 resulted in a bright cytoplasmic staining of the vast majority of nevus cells. Immunoelectron microscopic studies demonstrated that ISF within nevus cells represented the only cytoplasmic C3-binding structures. In contrast, ISF within melanoma cells, basal cell carcinoma cells, and keratinocytes constituting psoriatic lesions lacked C3-binding properties. We propose that changes in structure and subunit protein composition of ISF in certain cells undergoing altered differentiation results in a decrease or loss of their C3-binding capacity.