Applicability of using acrylic resins in post-embedding ultrastructural immunolabelling of human neutrophil granule proteins

Summary In this study, quantitative assessments were carried out, (1) by light microscopy during tissue preparation for electron microscopy and (2) by electron microscopy after on-grid immunogold staining, to determine the suitability of using LR White and Lowicryl K4M thin sections to identify lactoferrin and elastase in the granules of human neutrophil leucocytes. Quantitative assessment of the effect of fixation, dehydration and embedding on the preservation of antigenicity during tissue preparation for electron microscopy, using light microscopic peroxidase anti-peroxidase immunocytochemistry, enabled the selection of preparation conditions that adequately preserved both antigenicity and ultrastructure. OsO₄ post-fixation, following primary aldehyde fixation, improved the retention of antigenicity during dehydration and embedding and the preservation of fine structure. Partial rather than complete dehydration retained more of the antigenicity. The efficiency, sensitivity and resolution of immunolabelling and the ultrastructure and quality of sections achieved after embedding in LR White were superior to those obtained after embedding in Lowicryl K4M. Consequently room temperature embedding in LR White following double fixation and partial dehydration is a better and more reliable preparation technique than low-temperature embedding in Lowicryl K4M following single fixation and partial dehydration for localizing lactoferrin and elastase to the specific and primary granules respectively in human neutrophilic granulocytes by the on-grid immunogold staining method.     

Subcellular localization of Forssman glycolipid in epithelial MDCK cells by immuno-electronmicroscopy after freeze-substitution

Forssman antigen, a neutral glycosphingolipid carrying five monosaccharides, was localized in epithelial MDCK cells by the immunogold technique. Labeling with a well defined mAb and protein A-gold after freeze-substitution and low temperature embedding in Lowicryl HM20 of aldehyde-fixed and cryoprotected cells, resulted in high levels of specific labeling and excellent retention of cellular ultrastructure compared to ultra-thin cryosections. No Forssman glycolipid was lost from the cells during freeze-substitution as measured by radio-immunostaining of lipid extracts. Redistribution of the glycolipid between membranes did not occur. Forssman glycolipid, abundantly expressed on the surface of MDCK II cells, did not move to neighboring cell surfaces in cocultures with Forssman negative MDCK I cells, even though they were connected by tight junctions. The labeling density on the apical plasma membrane was 1.4-1.6 times higher than basolateral. Roughly two-thirds of the gold particles were found intracellularly. The Golgi complex was labeled for Forssman as were endosomes, identified by endocytosed albumin-gold, and lysosomes, defined by double labeling for cathepsin D. In most cases, the nuclear envelope was Forssman positive, but the labeling density was 10-fold less than on the plasma membrane. Mitochondria and peroxisomes, the latter identified by catalase, remained free of label, consistent with the notion that they do not receive transport vesicles carrying glycosphingolipids. The present method of lipid immunolabeling holds great potential for the localization of other antigenic lipids.     

Flavonol ring B-specific O-glucosyltransferases: purification, production of polyclonal antibodies, and immunolocalization.

UDP-glucose: flavonol 2'- and 5'-O-glucosyltransferases (E.C.2.4.1.-) from leaves of Chrysosplenium americanum were copurified to apparent homogeneity by successive chromatography on Sephacryl S-200, UDP-glucuronic acid-agarose, Mono P, Superose 12, and Mono Q columns. Both enzymes have similar properties except for their substrate specificity and stability (J. Chromatogr. 388, 235, 1987). The purified protein was used as the source of antigen to produce polyclonal antibodies in rabbits. In situ localization of the O-glucosyltransferases was studied by applying a postembedding immunogold labeling technique on ultrathin sections of Lowicryl K4M- and LR White-embedded tissues. Postfixation with osmium tetroxide followed by embedding in LR White resulted in good preservation of membrane ultrastructure, although protein antigenicity was greatly reduced. Leaf sections embedded in Lowicryl K4M had an extracted appearance; however, they retained a high degree of protein antigenicity revealing the deposition of gold particles in the periplasmic region of cells. Considering the compromise chosen in this study to retain antigenicity over preservation of membrane ultrastructure, the results suggest that the "easily solubilized" O-glucosyltransferases of C. americanum may actually be associated with vesicle-like structures and cytoplasmic membranes.     

Immunocytochemical demonstration of the secretory dynamics of zymogenic contents in rat gastric gland processed by high-pressure freezing/freeze substitution, with special references to phospholipase A2 and phospholipase Cγ1

High-pressure freezing/freeze substitution followed by Lowicryl K4M embedding provided an excellent morphology and antigenicity of the gastric glands, as well as the intraluminal fluid contents. Taking advantage of this, we histochemically investigated the secretory dynamics of the zymogenic contents in rat gastric gland, with special references to phospholipase A(2) (PLA(2)) and phospholipase Cgamma1 (PLCgamma1). The combination of immunogold labeling and KMnO4-uranyl acetate-lead citrate staining for zymogenic contents clearly demonstrated the rapid diffusion of PLA(2) molecules from the exocytosed zymogenic contents into the mucinous contents in gastric glandular lumens. In contrast, the exocytosed PLCgamma1 molecules remained within the zymogenic contents in the glandular lumens. These findings indicated the distinction between the exocytosed PLA(2) and PLCgamma1 in their diffusion rate. In addition, the mucinous contents surrounding the exocytosed zymogenic contents were intensely labeled with Griffonia simplicifolia II lectin which specifically recognizes the mucin of mucous neck cells. Interestingly, some of the PLA(2) immunolabeling on the mucinous contents was associated with the apical membranes of gastric epithelial cells, especially that of parietal cells. The secretory dynamics of the zymogenic contents in rat gastric glands, including their interaction with the mucinous contents are discussed.     

A Single Method for Cryofixation and Correlative Light, Electron Microscopy and Tomography of Zebrafish Embryos

The zebrafish is a powerful vertebrate system for cell and developmental studies. In this study, we have optimized methods for fast freezing and processing of zebrafish embryos for electron microscopy (EM). We show that in the absence of primary chemical fixation, excellent ultrastructure, preservation of green fluorescent protein (GFP) fluorescence, immunogold labelling and electron tomography can be obtained using a single technique involving high-pressure freezing and embedding in Lowicryl resins at low temperature. As well as being an important new tool for zebrafish research, the maintenance of GFP fluorescence after fast freezing, freeze substitution and resin embedding will be of general use for correlative light and EM of biological samples.     

Freeze-substitution and Lowicryl HM20 embedding of fixed rat brain: suitability for immunogold ultrastructural localization of neural antigens.

We examined the suitability of freeze-substitution and Lowicryl HM20 embedding of aldehyde-fixed rat brain to localize several neural antigens at the ultrastructural level. The following rabbit polyclonal and mouse monoclonal antibodies were used: affinity-purified polyclonal immunoglobulins G raised to B-50/GAP43 (a membrane-anchored, growth-associated protein); affinity-purified polyclonal immunoglobulins G to human glial fibrillary acidic protein (GFAP; a subunit of glial filaments); a polyclonal antiserum raised to adrenocorticotropic hormone[25-39] (a neuropeptide present in dense-core granules); a polyclonal antiserum raised to myelin basic protein (a protein present in compact myelin of the central nervous system); and mouse monoclonal antibodies to synaptophysin (an integral membrane protein of small synaptic vesicles). Rat mesencephalon was fixed by perfusion with buffered 2% glutaraldehyde and 4% paraformaldehyde, cryoprotected, and frozen in liquid nitrogen. Freeze-substitution of tissue was performed with anhydrous methanol and 0.5% uranyl acetate at -90 degrees C. Semi-thin Lowicryl sections were used for light microscopic visualization of B-50 in the ventromedial mesencephalic central gray substance. The procedure preserves well the ultrastructure of this region and the immunoreactivity of the selected antigens. This study shows that dehydration by freeze-substitution, combined with Lowicryl HM20 embedding at sub-zero temperature, provides a successful method of preparation of fixed brain tissue for ultrastructural studies, allowing immunogold localization of several neural antigens by double labeling in the same section and in serial sections.     

A method for using low-temperature embedding media for electron microscopy of cells grown on microporous supports.

Attempts were made to embed Madin-Darby canine kidney (MDCK) cells grown on nitrocellulose microporous supports in Lowicryl, a medium designed for the retention of antigenicity for electron microscopic immunocytochemical studies. It was found that the membrane fragmented during the prescribed embedding procedure leading to loss of the cell sample. This necessitated the formulation of a new combination of fixative and dehydration agents which would allow: (i) preservation of membrane and cellular integrity; (ii) infiltration and embedding in Lowicryl; and (iii) detection of a specific antigen in thin sections. The cellular monolayer and organelle profiles were best preserved with glutaraldehyde fixation at room temperature followed by ethanol dehydration. Since the latter was carried out at temperatures attainable with an ice-salt bath, there was no need for a special ultralow-temperature apparatus. This procedure was applied to a MDCK cell clone that consisted of stable secretors of human growth hormone (hGH), as a result of being transfected with a plasmid containing the hGH gene. Thus, it was demonstrated that hGH could be detected by immunogold labeling of thin sections and localized to specific cellular structures. The procedure developed in this report is applicable to cells grown on two other supports and may be extended further.     

Ultrastructural localization of HTLV-I gag proteins p19 and p24 by single and double immunogold labeling

We developed a post-embedding immunogold labeling procedure for the ultrastructural localization of the HTLV-I gag proteins p19 and p24 by the use of monoclonal antibodies (MAb). Both antigens were shown to withstand fixation with 1% glutaraldehyde. In addition, p19 antigenicity was found not to be affected by post-fixation with 1% osmium tetroxide. The choice of resin played a decisive role in the retention of antigenicity. P19 was preserved in Lowicryl K4M as well as in LR White, whereas p24 was preserved only in Lowicryl. Both p19 and p24 were found to be localized on the HTLV-I virions themselves, whereas no positive immunostaining could be observed on the infected cells. In Lowicryl-embedded samples, in which both antigens had been preserved, a double immunogold labeling procedure was performed that allowed the co-localization of p19 and p24 on the same section. In osmicated LR White-embedded samples the quality of ultrastructural preservation of HTLV-I virions was found to be comparable to results obtained with the traditional glutaraldehyde-osmium tetroxide-epoxy resin processing.     

Combined application of low temperature preparation and electron microscopic autoradiography for the localization of systemic fungicides

The intracellular localization of the sterol-biosynthesis-inhibiting (SBI) fungicide (3H)triadimenol A is investigated in vitro in the fungus Ustilago avenae. For this purpose low temperature preparation techniques (shock freezing, freeze substitution, embedding in Lowicryl HM20) are combined with conventional electron microscopic (EM) autoradiography. In particular the suitability of Lowicryl HM20 embedded specimens for EM autoradiography with regard to the finestructure preservation is shown. For the localization of (3H)triadimenol the filamentous grain development as well as the application of the gold latensification method resulting in the appearance of spherical silver grains is tested. Fungicide sensitive wild type sporidia of U. avenae are compared with fungicide resistant cells of the mutant r8. A quantitative analysis of the autoradiographs of the wild type developed according to the gold latensification process shows a relatively homogeneous distribution of silver grains over the entire cell. On the other hand, the resistant mutant is characterized by an accumulation of silver deposits over the vacuoles as compared with the lower density of grains over the cell walls and cytoplasm. The data are discussed in the context of possible resistance mechanisms against SBI-fungicides.     

Improved structural preservation in freeze-substituted sporidia ofUstilago avenae—a comparison with low-temperature embedding

Summary In the present study the cellular fine structure of freeze-substituted sporidia of the phytopathogenic fungusUstilago avenae is investigated by means of thin-section electron microscopy. A conventional embedding method using Spurr's low viscosity resin is compared with the recently developed methacrylate mixtures Lowicryl^® K 4 M and HM 20 resin. Generally, freeze-substitution yields improved preservation of fine structural details of the fungus compared to previously applied conventional fixation methods. Using double fixation during freeze-substitution prior to conventional embedding the fungal membrane system (plasmalemma, endoplasmic reticulum), organelles (mitochondria, nucleus etc.) and other cytoplasmic features (ribosomes, cytoskeleton) appear well resolved and smoothly contoured. Aldehyde fixed and Lowicryl embedded sporidia ofU. avenae resemble these double fixed fungal specimens fairly closely. The complete low-temperature preparation produces visualization of distinct cellular details although contrast reversal of cellular membranes (er, mitochondria etc.) is sometimes observed. In particular, fine structure resolution is enhanced in Lowicryl HM 20 embedded fungal cells. This is due also to significant improvement in staining of the cellular membranes, cytoskeleton (microfilaments and microtubules) and Golgi apparatus-like areas, using tannic acid. In case of the fungusU. avenae, freeze-substitution in combination with mild glutaraldehyde fixation and final low-temperature embedding in HM 20 resin prove suitable for improved preservation of cellular ultrastructure.Abbreviations cw cell wall - cy cytoplasm - FS freeze-substitution - FS-A GA/OsO₄ freeze-substitution and Spurr's LV-embedding - FS-B GA freeze-substitution and Lowicryl K 4 M LT-embedding - FS-C GA freeze-substitution and Lowicryl HM 20 LT-embedding - go Golgi apparatus-like body - GA glutaraldehyde - g glycogen deposit - l lipid droplet - LT low temperature - Lowicryl LT-embedding Lowicryl low-temperature embedding - Lowicryl LT-resin Lowicryl low-temperature resin - MeOH methanol - mf microfilament - mt microtubule - m mitochondrion - mvb multivesicular body - ne nuclear envelope - np nuclear pore - npl nucleoplasm - nu nucleolus - n nucleus - OsO₄ osmium tetroxide - pl plasmalemma - pr polyribosomes - Pb-citrate Reynolds' lead citrate - r ribosome - RT room temperature - rer rough endoplasmic reticulum - Spurr's LV-embedding Spurr's low viscosity embedding - Spurr's LV-resin Spurr's low viscosity resin - t tonoplast - Uac uranyl acetate - v vacuole     

Fluid dynamics of the excretory flow of zymogenic and mucin contents in rat gastric gland processed by high-pressure freezing/freeze substitution.

The high-pressure freezing/freeze substitution technique followed by Lowicryl K4M embedding provided an excellent ultrastructure and retention of antigenicity of rat gastric glands as well as the intraluminal fluid contents. By taking this advantage, we histochemically investigated the excretory flow of the zymogenic and mucin contents in rat gastric glandular lumen at the ultrastructural level. The combination of KMnO(4)-UA/Pb staining for zymogenic contents and Griffonia simplicifolia agglutinin-II (GSA-II) labeling for mucous neck cell (MNC) mucin distinguished the exocytosed zymogenic contents from the MNC mucin in the glandular lumen. Interestingly, at the base and neck regions, the zymogenic contents showed a droplet-like appearance, forming a distinct interface with the MNC mucin. At the pit region, the GSA-II labeling demonstrated restricted paths, designated as MNC mucous channels, which flowed into the surface mucous gel layer. It should be noted that the interface between exocytosed zymogenic contents and MNC mucin disappeared, and that the zymogenic contents merged into the MNC mucous channels. At the top pit region, the surface mucous gel layer showed laminated arrays of three types of gastric mucins. On the basis of these ultrastructural findings, we propose a model of the excretory flow in rat gastric gland.     

Effects of monomeric acrylic embedding media on the antigenicity of two epitopes of the MIC2-encoded Ewing's sarcoma cell membrane antigen.

Comparative electron microscopic studies of pre- and postembedding immunolabeling experiments have shown that the antigenicity of some epitopes is lost during acrylic resin embedding of the respective tissues. In the present investigation we have tested the sensitivities of two embedding-labile epitopes (HBA-71 and HBA-45) of the Ewing's sarcoma-associated MIC2-encoded E2 antigen to the effects of the different treatment steps, which are necessary for the preparation of ultrathin sections. The extent of antigenic retention was quantitated using flow cytometry and enzyme-linked immunosorbent assays (ELISA) of tumor cell lines, thymocytes and cell membrane extracts. Fixation, dehydration and high temperature treatment of MIC2-positive cells showed only minor effects on the reactivity with the HBA-71 and HBA-45 antibodies. However, exposure of the cells to the monomeric acrylic resins LR White (LRW), LR Gold (LRG) and Lowicryl K4M at 4 degrees C for 2-18 h resulted in a significant reduction of the HBA-71 and HBA-45 reactivities. In contrast, the antigenicity of both epitopes was maintained during treatment with the apolar Lowicryl HM20 embedding medium under these non-polymerizing conditions. The resins have no direct effect on the HBA-71/HBA-45 antigen, since it could be extracted in intact form from membranes of native, but not of fixed, tumour cells using LRW for membrane solubilization. These data indicate that the HBA-71/HBA-45 antigen remains in the cell membrane and is indirectly influenced by the extraction/modification of adjacent membrane constituents. The adverse effects of the polymerization process, in the case of embedding at low temperature in Lowicryl HM20, destroyed MIC2-antigenicity.(ABSTRACT TRUNCATED AT 250 WORDS)     

Combined application of low temperature preparation and electron microscopic autoradiography for the localization of systemic fungicides

Summary The intracellular localization of the sterol-biosynthesis-inhibiting (SBI) fungicide (³H)triadimenol A is investigated in vitro in the fungus Ustilago avenae. For this purpose low temperature preparation techniques (shock freezing, freeze substitution, embedding in Lowicryl HM20) are combined with conventional electron microscopic (EM) autoradiography. In particular the suitability of Lowicryl HM20 embedded specimens for EM autoradiography with regard to the finestructure preservation is shown. For the localization of (³H)triadimenol the filamentous grain development as well as the application of the gold latensification method resulting in the appearance of spherical silver grains is tested. Fungicide sensitive wild type sporidia of U. avenae are compared with fungicide resistant cells of the mutant r8. A quantitative analysis of the autoradiographs of the wild type developed according to the gold latensification process shows a relatively homogeneous distribution of silver grains over the entire cell. On the other hand, the resistant mutant is characterized by an accumulation of silver deposits over the vacuoles as compared with the lower density of grains over the cell walls and cytoplasm. The data are discussed in the context of possible resistance mechanisms against SBI-fungicides.     

Immunogold localization of peroxisomal enzymes in Epon-embedded liver tissue. Enhancement of sensitivity by etching with ethanolic sodium hydroxide

Epon-embedded biological materials exhibit well preserved ultrastructure but generally weak antigenicity. Brief etching of ultrathin Epon sections with resin solvent, ethanolic sodium hydroxide, brought about a nearly 2-fold increase in the immunogold labeling density of rat and human hepatic peroxisomes after incubation with antisera against catalase and 3 enzymes of lipid beta-oxidation: acyl-CoA oxidase, bifunctional protein (enoyl-CoA hydratase-3-hydroxyacyl-CoA dehydrogenase) and 3-ketoacyl-CoA thiolase. The etching was superior to pretreatment with an oxidant, sodium metaperiodate. Despite some deterioration of the cellular ultrastructure, the obtained enhancement of the sensitivity of the protein A-gold method may be helpful in cases when the antigenicity to be detected is strongly inhibited by epoxy resin embedding.     

Effects of monomeric acrylic embedding media on the antigenicity of two epitopes of the MIC2-encoded Ewing's sarcoma cell membrane antigen

Summary Comparative electron microscopic studies of pre- and postembedding immunolabeling experiments have shown that the antigenicity of some epitopes is lost during acrylic resin embedding of the respective tissues. In the present investigation we have tested the sensitivities of two embedding-labile epitopes (HBA-71 and HBA-45) of the Ewing's sarcoma-associated MIC2-encoded E2 antigen to the effects of the different treatment steps, which are necessary for the preparation of ultrathin sections. The extent of antigenic retention was quantitated using flow cytometry and enzyme-linked immunosorbent assays (ELISA) of tumor cell lines, thymocytes and cell membrane extracts. Fixation, dehydration and high temperature treatment of MIC2-positive cells showed only minor effects on the reactivity with the HBA-71 and HBA-45 antibodies. However, exposure of the cells to the monomeric acrylic resins LR White (LRW), LR Gold (LRG) and Lowicryl K4M at 4° C for 2–18 h resulted in a significant reduction of the HBA-71 and HBA-45 reactivities. In contrast, the antigenicity of both epitopes was maintained during treatment with the apolar Lowicryl HM20 embedding medium under these non-polymerizing conditions. The resins have no direct effect on the HBA-71/HBA-45 antigen, since it could be extracted in intact form from membranes of native, but not of fixed, tumour cells using LRW for membrane solubilization. These data indicate that the HBA-71/HBA-45 antigen remains in the cell membrane and is indirectly influenced by the extraction/modification of adjacent membrane constituents. The adverse effects of the polymerization process, in the case of embedding at low temperature in Lowicryl HM20, destroyed MIC2-antigenicity. In addition, the changes in tissue antigens induced by monomeric resins seem to be an important primary source of negative results in postembedding immunolabeling of integral glycosylated cell surface proteins by antibodies and lectins.     

Detection of Cell Surface Antigens in Tissue Sections by Means of Pre-Embedding Immunogold Staining

The immunogold technique has been used in electron microscopy to detect cytoplasmic and extracellular antigens by postembedding techniques. It has also been used to detect plasma-membrane-associated molecules on suspended cells and, recently, to visualise cell surface antigens in ultrathin sections of Lowicryl embedded specimens. In the present study, cell surface antigens of rat kidney and human skin were identified in tissue sections by using pre-embedding immunogold labeling. Brush border microvillar antigens and dermal lymphocyte antigens both bound numerous gold particles. The immunogold staining described here has the advantage over immunoperoxidase procedures that it is not subject to diffusion or reabsorption artifacts, and allows estimation of the antigen density on labeled cells. Furthermore, this pre-embedding immunogold technique is ideally suited to detecting cell surface-associated antigens since it preserves antigenicity, allows gold particle penetration and enhances cell membrane profiles.     

Detection of cell surface antigens in tissue sections by means of pre-embedding immunogold staining

The immunogold technique has been used in electron microscopy to detect cytoplasmic and extracellular antigens by postembedding techniques. It has also been used to detect plasma-membrane-associated molecules on suspended cells and, recently, to visualize cell surface antigens in ultrathin sections of Lowicryl embedded specimens. In the present study, cell surface antigens of rat kidney and human skin were identified in tissue sections by using pre-embedding immunogold labeling. Brush border microvillar antigens and dermal lymphocyte antigens both bound numerous gold particles. The immunogold staining described here has the advantage over immunoperoxidase procedures that is not subject to diffusion or reabsorption artifacts, and allows estimation of the antigen density on labeled cells. Furthermore, this pre-embedding immunogold technique is ideally suited to detecting cell surface-associated antigens since it preserves antigenicity, allows gold particle penetration and enhances cell membrane profiles.     

Comparison of LR white resin, Lowicryl K4M and Epon postembedding procedures for immunogold staining of actin in the testis

The efficiency of various postembedding procedures for actin immunogold detection was compared using testicular tissue as a model. Whatever the fixative, testes embedded in LR White resin or in Lowicryl K4M showed few differences as regard ultrastructural preservation and gave similar actin antigenicity preservation. A purified polyclonal antibody (IgG) and a monoclonal antibody (IgM) visualized with gold secondary antibody yielded high labeling intensity whereas the IgG-protein-A gold association was less efficient. Crude antisera gave a low specific staining/background ratio. Samples of testes, fixed in different conditions, were also embedded in Epon, omitting propylene oxide and lowering polymerization temperature to 40 degrees-50 degrees C. This slight modification improved ultrastructural preservation which was better than with hydrophilic resins, as well as made possible immunogold detection of actin though antigenicity preservation was lesser than with these resins. Thus, in Epon embedded samples actin labeling, using IgG antiactin-gold secondary antibody, was similar to that observed after hydrophilic resin-protein-A gold procedures. In addition to actin labeling of various somatic cells it was confirmed that actin is a consistent component of the subacrosomal space of spermatids during the greater part of spermiogenesis in rat.     

Immunodetection of low concentrations of ovalbumin in cryoprocessed quail oviduct cells by semi-automatic quantitative analysis

Summary— In a previous paper (Quintana et al, Biol Cell 72, (1991) 167–180) we reported the anti-ovalbumin antibody immunolabeling in the cytoplasm of tubular gland cells from cryofixed, cryosubstituted and acrylic-resin embedded quail oviduct. To confirm these preliminary visual observations, we have carried out a semi-automatic quantitative study of immunogold labeling. The quantitative results confirm the previous data. In addition, we found a significantly higher immunolabeling with low temperature Lowicryl K11M embedding procedure as compared with high temperature LR White embedding.     

Plasma lipoproteins: apolipoprotein structure and function

Plasma lipoprotein metabolism is regulated and controlled by the specific apolipoprotein (apo-) constituents of the various lipoprotein classes. The major apolipoproteins include apoE, apoB, apoA-I, apoA-II, apoA-IV, apoC-I, apoC-II, and apoC-III. Specific apolipoproteins function in the regulation of lipoprotein metabolism through their involvement in the transport and redistribution of lipids among various cells and tissues, through their role as cofactors for enzymes of lipid metabolism, or through their maintenance of the structure of the lipoprotein particles. The primary structures of most of the apolipoproteins are now known, and various functional domains of these proteins are being mapped using selective chemical modification, synthetic peptides, and monoclonal antibodies. Furthermore, the establishment of structure-function relationships has been greatly advanced by the identification of genetically determined variants of specific apolipoproteins that are associated with a disorder of lipoprotein metabolism. Future studies will rely heavily on the use of recombinant DNA technology and site-specific mutagenesis to elucidate further the correlations between structure and function and the role of specific apolipoproteins in lipoprotein metabolism.