Early development of the kelp fly,Coelopa frigida (Diptera). II. Morphology of cleavage and blastoderm formation

Cleavage and blastoderm formation in Coelopa frigida are extremely rapid developmental processes. In short (6–7 minutes) successive cell cycles, nuclei multiply and spread out through the egg. The movement seems to be aided by endoplasmic vesicles and cisternae which are in direct contact with the nuclear membrane. The first cells to separate from the egg plasmodium in early superficial cleavage stages are the pole cells. Precursor material from multivesicular bodies forms the pole cell membranes. The primary nuclei from the posterior pole region are removed from the blastoderm by the pole cell segregation. Blastoderm nuclei from the regions adjacent to the posterior pole migrate into the residual periplasm after pole cell segregation has been completed and constitute the blastoderm nuclei in that region of the egg. Nucleoli are not revealed during internal cleavage. They appear in pole cells shortly after their segregation. The generation time of the blastoderm nuclei increases after the twelfth cleavage. Concurrently, nucleoli form in the blastoderm nuclei and permanent cell membranes separate individual blastoderm cells. After blastoderm cells have been separated from each other, they remain in contact with the interior yolk sac by means of cytoplasmic canals. This contact is maintained at least during the early phases of blastokinesis. Observations on nuclear migration and rapid membrane formation are discussed as examples of protein assembly from subunits as an alternative to de novo protein synthesis in early stages of development.     

Calcium waves along the cleavage furrows in cleavage-stage Xenopus embryos and its inhibition by heparin

Calcium signaling is known to be associated with cytokinesis; however, the detailed spatio-temporal pattern of calcium dynamics has remained unclear. We have studied changes of intracellular free calcium in cleavage-stage Xenopus embryos using fluorescent calcium indicator dyes, mainly Calcium Green-1. Cleavage formation was followed by calcium transients that localized to cleavage furrows and propagated along the furrows as calcium waves. The calcium transients at the cleavage furrows were observed at each cleavage furrow at least until blastula stage. The velocity of the calcium waves at the first cleavage furrow was approximately 3 microns/s, which was much slower than that associated with fertilization/egg activation. These calcium waves traveled only along the cleavage furrows and not in the direction orthogonal to the furrows. These observations imply that there exists an intracellular calcium-releasing activity specifically associated with cleavage furrows. The calcium waves occurred in the absence of extracellular calcium and were inhibited in embryos injected with heparin an inositol 1,4,5-trisphosphate (InsP3) receptor antagonist. These results suggest that InsP3 receptor-mediated calcium mobilization plays an essential role in calcium wave formation at the cleavage furrows.     

The bases for and timing of regional specification during larval development in Phoronis

A fate map has been constructed for Phoronis vancouverensis. The animal pole of the egg gives rise to the apical plate in the hood of the actinotroch larva. The vegetal pole of the egg marks the site of gastrulation. During the initiation of gastrulation the cells of the animal pole of the embryo are directly opposite those at the vegetal pole of the embryo. The plane of the first cleavage always goes through the animal-vegetal pole of the egg. In about 70% of the cases the plane of the first cleavage is perpendicular to the future anterior-posterior axis of the actinotroch larva; in the remaining cases the plane of the first cleavage is either oblique with reference to, or occurs along, the future anterior-posterior axis of the larva. Following gastrulation catecholamine-containing cells first make their appearance in the apical plate and gut cells first produce esterase. The timing of regional specification in these embryos has been examined by isolating animal or vegetal, anterior or posterior, or lateral regions at different time periods between the initiation of cleavage and gastrulation and examining their ability to differentiate. Animal halves isolated from early cleavage through late blastula stages do not gastrulate and do not form catecholamine-containing cells. When animal halves are isolated with endoderm during gastrulation, they differentiate catecholamine-containing cells. Vegetal halves isolated at the 8- to 16-cell stage gastrulate and form normal actinotroch larvae with esterase-positive gut and catecholamine-containing apical plate cells. When this same region is isolated at blastula stages it does not gastrulate and does not differentiate these cell types. Vegetal halves isolated during gastrulation subsequently form esterase-positive gut cells, but they do not form catecholamine-containing apical plate cells. When presumptive anterior, posterior, or lateral halves are isolated from early cleavage through blastula stages, each half forms a normal actinotroch larva. Lateral halves isolated during gastrulation also form normal larvae. Anterior halves isolated during late gastrulation differentiate only the anterior end of the actinotroch larva. These isolates have a hood with catecholamine-containing apical plate cells and the first part of an esterase-positive gut but lack the anlagen of the intestine and protonephridia. Posterior halves isolated during late gastrulation differentiate only the posterior end of the actinotroch which lacks a hood with catecholamine-containing cells but has an esterase-positive gut, protonephridia, and the anlagen of the intestine.(ABSTRACT TRUNCATED AT 400 WORDS)     

前寒武纪瓮安生物群具围卵腔结构的胚胎及其发育序列

通过对贵州瓮安新元古代陡山沱组瓮安微型球状化石SEM的观察,发现代表未分裂卵,和2、4、8、16不同分裂阶段的胚胎。这些未分裂的卵和处于不同发育阶段的胚胎化石不仅大小和卵壳表面装饰相同,而且它们均具明显的围卵腔和球形卵裂等特征,清楚表明这些卵和胚胎均为同一物种的产物。由于这些卵的表面装饰与现生某些甲壳类休眠卵极其相似,曾被解释为动物的休眠卵;当前不同卵裂阶段胚胎的发现表明它们不是休眠卵,而是处于发育过程的卵。围卵腔不仅是现生两侧对称动物早期胚胎的常见构造,而且具围卵腔构造的未分裂卵和不同卵裂阶段的胚胎化石在瓮安动物群也十分常见。除了以上具表面装饰胚胎化石的大量发现外,文中还报道围卵腔构造在表面光滑胚胎化石中的发现。这些具围卵腔结构的胚胎化石主要为两侧对称动物的胚胎。     

Cleavage and blastoderm formation in normal and experimentally deformed naked eggs of a dipteran insect

Summary The eggs of the gall midgeHeteropeza pygmaea develop parthenogenetically inside of the mother larva. They lack a chorion and remain enveloped by the follicular epithelium. After experimental elimination of the follicular epithelium naked eggs are formed, which reach the blastoderm stage but remain spherical instead of assuming an elongated shape. To analyze this peculiar egg development and the roles of egg shape and envelope during development, the ultrastructure of cleaving normal and naked eggs was investigated. It was shown that the number of elements of Golgi apparatus and endoplasmic reticulum strongly increases during early cleavage. Their association with cleavage furrows and nuclei suggests that these organelles play a dominant role in membrane production. Egg yolk consists of lipids and glycogen, wheareas no proteins are found. Cleaving eggs contain numerous vesicles with lysosomal characteristics, indicating intense autophagic processes. Cleavage furrow formation occurs independently from the positioning of cleavage nuclei. The numerous microtubules, which are associated with cleavage furrows and nuclei and located in the egg periphery, the intercellular bridges, and in the central part of the egg, suggest that the cytoskeleton has an important role in cleavage furrow formation, blastoderm layer establishment, and yolk localization. Since these processes are accurately accomplished in naked spherical eggs, they can be considered as independent of normal egg shape and the follicular epithelium.     

Muscle lineage cytoplasm can change the developmental expression in epidermal lineage cells of ascidian embryos

Cytoplasm from muscle lineage blastomeres of an ascidian embryo can cause cells of a nonmuscle lineage to produce larval tail muscle acetylcholinesterase. Muscle cytoplasm was partitioned microsurgically into epidermal lineage blastomeres at the eight-cell stage. Posterior half-embryos (the two B3 cells) of Ascidia nigra were obtained first by separating the anterior and posterior blastomere pairs at the four-cell stage. At third cleavage, the two B3 cells divide into an ectodermal cell pair that gives rise solely to epidermal tissues, and a mesodermal-endodermal blastomere pair from which the tail muscle cells are derived. When the ectodermal and mesendodermal blastomere pairs were isolated from one another by microsurgery and reared as partial embryos, only cells originating from the mesendodermal blastomeres produced a histochemical acetylcholinesterase reaction. Immediately after cleavage of the isolated B3 cells into ectodermal and mesendodermal cell pairs, the cleavage furrows could be made to disappear by pressing firmly on the mesendodermal cells with a microneedle. Repeated up and down pressure with the microneedle at a new position across the mesendodermal cells caused furrows to reestablish in the new position, thereby incorporating mesodermal cytoplasm and increasing the size of the ectodermal cells. The cytoplasmically altered ectodermal blastomere pairs, which became detached from the mesendodermal cells by this microsurgical procedure, continued to divide and were reared to “larval” stages. One-third of these epidermal partial larvae produced patches of cells containing acetylcholinesterase. These results lend further support to the theory that choice of particular differentiation pathways (embryonic determination) in ascidian embryos is mediated by segregation of specific egg cytoplasmic determinants.     

Furrow-related contractions are inhibited but furrow-unrelated contractions are not affected in af mutant eggs of Xenopus laevis

In embryos from af mutant females of Xenopus laevis, the cleavage furrows stayed on the surface and cytoplasmic divisions did not take place at all, while nuclear divisions continued (Kubota et al., 1991). To gain insights into the roles of the normal product of af on early development, contractile events which have been observed in the period from fertilization until first cleavage in wild-type eggs were examined in af mutant eggs. Activation waves, activation contraction, and surface contraction waves which were identical to those in wild-type eggs were observed in af eggs by time-lapse video recording. However, second polar body elimination was inhibited in af eggs, although a sign of the polar body formation was indicated by the cytoplasmic bulge of the egg surface as seen by light and electron microscopy. These results indicate that the normal product of af regulates furrow-related contractile events which involve formation of the contractile ring, but exerts no effects on furrow-unrelated contractions in early Xenopus eggs.     

Organization of the surface and adhesive properties of cleavage furrows in loach (Misgurnus fossilis) eggs

The experiments with chimerous embryos of teleost loach (Misgurnus fossilis) have shown that before furrows of the 1st cleavage appeared, the eggs were completely nonadhesive. At the stages of cleavages II-IV whole eggs were able to adhere and then make extended junctions in the blastodisc region. Adhesive domains of blastomeres were discovered by using carmine dye particles which attached primarily in the region of blastomere cleavage furrows. Scanning electron microscopy (SEM) showed that the cells in the depth of the cleavage furrows have domains with a smoother relief than their outer surface with numerous folds. Moreover, most adhesive flat lamellar formations (ruffles) with microvilli at their ends were discovered in the furrow region, particularly in its apical part (in the sites of intercellular contact formation and carmine absorption). Colchicine (5 X 10(-4) M) treatment affects the reorganization of the cleavage furrow surface, and the eggs, one by one, lose their ability to adhere, and then to attach dye particles. Mechanisms of formation of an adhesive contact between divided cells are discussed.     

Localization of caldesmon and its dephosphorylation during cell division

Mitosis-specific phosphorylation by cdc2 kinase causes nonmuscle caldesmon to dissociate from microfilaments during prometaphase. (Yamashiro, S., Y. Yamakita, R. Ishikawa, and F. Matsumura. 1990. Nature (Lond.). 344:675-678; Yamashiro, S., Y. Yamakita, H. Hosoya, and F. Matsumura. 1991. Nature (Lond.) 349:169-172). To explore the functions of caldesmon phosphorylation during cytokinesis, we have examined the relationship between the phosphorylation level, actin- binding, and in vivo localization of caldesmon in cultured cells after their release of metaphase arrest. Immunofluorescence studies have revealed that caldesmon is localized diffusely throughout cytoplasm in metaphase. During early stages of cytokinesis, caldesmon is still diffusely present and not concentrated in contractile rings, in contrast to the accumulation of actin in cleavage furrows during cytokinesis. In later stages of cytokinesis, most caldesmon is observed to be yet diffusely localized although some concentration of caldesmon is observed in cortexes as well as in cleavage furrows. When daughter cells begin to spread, caldesmon shows complete colocalization with F- actin-containing structures. These observations are consistent with changes in the levels of microfilament-associated caldesmon during synchronized cell division. Caldesmon is missing from microfilaments in prometaphase cells arrested by nocodazole treatment, as shown previously (Yamashiro, S., Y. Yamakita, R. Iskikawa, and F. Matsumura. 1990. Nature (Lond.). 344:675-678). The level of microfilament- associated caldesmon stays low (12% of that of interphase cells) when some cells start cytokinesis at 40 min after the release of metaphase arrest. When 60% of cells finish cytokinesis at 60 min, the level of microfilament-associated caldesmon is recovered to 50% of that of interphase cells. The level of microfilament-associated caldesmon is then gradually increased to 80% when cells show spreading at 120 min. Dephosphorylation appears to occur during cytokinesis. It starts when cells begin to show cytokinesis at 40 min and completes when most cells finish cytokinesis at 60 min. These results suggest that caldesmon is not associated with microfilaments of cleavage furrows at least in initial stages of cytokinesis and that dephosphorylation of caldesmon appears to couple with its reassociation with microfilaments. Because caldesmon is known to inhibit actomyosin ATPase and/or regulate actin assembly, its continued dissociation from microfilaments may be required for the assembly and/or activation of contractile rings.     

Holoblastic early cleavage of Tetrodontophora bielanensis (Collembola) eggs, with special reference to its irregularity.

The fertilized eggs of Tetrodontophora bielanensis start to cleave 6 to 8 days after oviposition and initially only karyokineses occur. The cytokinesis begins after two karyokineses, when four nuclei are observed in the ooplasm. Two cleavage furrows, perpendicular to each other, appear simultaneously at the egg poles where polar bodies are located and gradually the furrows encompass the whole egg diameter. The furrow formation is initiated by the bundle of microfilaments that contract and pull superficial fragments of the oolemma into the yolk and subsequently new membranes, separating the daughter cells, start to form. However, they do not grow towards the egg centre but bifurcate, leaving the central part of the ooplasm outside of the newly formed blastomeres. Starting from the fourth or fifth cleavage division, the bifurcations permanently occur and multiple cleavage furrows are formed on the embryo surface. Moreover, fragments of the ooplasm, enclosed within the cell membrane but devoid of cell nucleus are observed. During further development such cell fragments become reincorporated into the embryo. This mode of cleavage leads eventually to the formation of cellular blastoderm on the embryo surface. The results presented in the paper suggest that the control of cleavage in T. bielanensis acts not at the level of cytoplasmic determinants but rather at the level of positional information of blastomeres.     

Effect of microinjected N-ethylmaleimide-modified heavy meromyosin on cell division in amphibian eggs

N-Ethylmaleimide-modified heavy meromyosin (NEM-HMM) microinjected into amphibian eggs inhibits cytokinesis and the cortical contractions associated with wound closure. Injection of NEM-HMM into two-cell Rana pipiens embryos produces a zone of cleavage inhibition around the point of injection. Early furrows followed by time-lapse microcinematography are seen to slow and stop as they enter the NEM-HMM-injected zone. Arrested furrows slowly regress, leaving a large region of cytoplasm uncleaved. Few nuclei are found in these regions of cleavage inhibition. Wound closure is often inhibited by NEM-HMM, especially when this inhibitor is injected just beneath the egg cortex. We observe that the surface of an unfertilized Rana egg is covered with microvilli that disappear during the course of development. The surfaces of NEM- HMM-inhibited zones remain covered with microvilli and resemble the unfertilized egg surface.     

The hen's egg test for micronucleus induction (HET-MN): Novel analyses with a series of well-characterized substances support the further evaluation of the test system

The hen's egg test for micronucleus induction (HET-MN) combines the use of the commonly accepted genetic endpoint “formation of micronuclei” with the well-characterized and complex model of the incubated hen's egg, which enables metabolic activation, elimination and excretion of xenobiotics—including those that are mutagens or promutagens. This assay procedure is in line with demands for animal protection. In three previous publications we presented the scientific rationale and methodological aspects for this assay as well as results for some well-characterized mutagens and promutagens. Here we present the results of new experiments involving further genotoxic and non-genotoxic model substances. Making a comparison with published data we have to date not found any false negatives or false positives in the experiments presented here and in trials published before, thus demonstrating a promising predictivity of genotoxic effects with this assay.We could confirm relevant genotoxicity for the following substances in the HET-MN: acetylamino-fluorene (2-AAF), acrylamide (ACM), cytarabine (AraC), methotrexate (MTX), cadmium chloride (CD), dipotassium monochromate (DPC), and epirubicine (EPI). Negative results were obtained for azorubin (E122), orange G (OG) and starch (STRC).The micronucleus frequencies (MNE II) of the concurrent negative controls were in agreement with the values of the historical negative control (0.87‰ ± 0.87; average ± s.d.). This value is based upon the scoring of 556,500 erythrocytes from 445 eggs. In historical positive controls the administration of 0.05 mg cyclophosphamide/egg at d8 resulted in an MNE II-frequency of 12.4‰ ± 6.8 (average ± s.d.) at d 10.5. This value is based upon the scoring of 249,250 erythrocytes from 223 eggs.     

Evolutionary Correlations Between Early Development and Life History in Plethodontid Salamanders and Teleost Fishes

SYNOPSIS. This study compares the relationships among earlydevelopment and life history characters between two monophyleticgroups, salamanders and teleost fishes. Plethodontid salamandershave large eggs and slow development. Large egg size in plethodontidsalamanders has been shown to influence several aspects of earlydevelopment, including: (1) time of holoblastic cleavage, (2)thickness of the blastocoel roof, (3) gastrulation (morphogeneticprocesses and timing), (4) early developmental rate, (5) formationof an embryonic disk, and (6) percentage of egg volume contributingto embryonic structures. Egg size is just one of several factorsthat influence the rate of development. While the slow developmentof plethodontids may have evolutionary implications for timingof oviposition, the lack of a clear correlation between thesevariables indicates that other life history characters needto be studied. Comparisons of the timing of oviposition in 28plethodontid species reveal that oviposition in the fall orwinter is the derived condition. On the basis of six early developmentaland six life history characters examined, there do not appearto be strong relationships between these two character sets.Evolutionary increases in egg size that delay when the egg cleavesholoblastically in some amphibian lineages (such as plethodontids)have been considered to be analogous to the changes that ledto the evolution of meroblastic cleavage in such lineages asamniotes. However, teleosts provide an interesting contrastto this standard scenario: The evolution of meroblastic cleavageis not correlated with an increase in egg size, but rather,with a decrease in egg size. Changes in early development ofteleosts that led to the evolution of meroblastic cleavage mayhave significant relationships with life history traits becauseof osmotic influences and could qualify as a key innovation.     

Microinjection of Ca2+ store-enriched microsome fractions to dividing newt eggs induces extra-cleavage furrows via inositol 1,4,5-trisphosphate-induced Ca2+ release.

The cleavage signal transferred to the future cleavage cortex during anaphase has been proposed as "cleavage stimulus," but no signal has proved to induce cleavage furrows. The local Ca2+ transient along the cleavage furrow has been reported, but the Ca2+ source has remained unknown. To address these questions, we studied functions of Ca2+ stores in dividing newt eggs and found that microinjection of the Ca2+ store-enriched microsome fraction to the dividing newt egg induced a local extra-cleavage furrow at the injection site in 64-67% of the injected newt eggs while coinjection with inositol 1,4, 5-trisphosphate receptor (IP(3)R) antagonists heparin or anti-type 1-IP(3)R antibody clearly suppressed this induction (5 and 11% in induction rates, respectively). Injection of cerebellar microsomes from the type 1-IP(3)R-deficient mice induced extracleavage furrows albeit at a low rate (19%). Our observations strongly suggest that Ca2+ stores with IP(3)R induce and position a cleavage furrow via IP(3)-induced Ca2+ release (IICR) as Ca(2+)-releasing machinery and putative cleavage stimulus itself.     

Differential Protein Distribution Related to Dorsoventral Polarity in Pleurodeles waltl Cleaving Egg

The molecular basis for the initial specification of dorsoventral polarity in the Amphibian egg prior to the mid-blastula transition still remains an open question. Regional differences in the protein pattern of Pleurodeles egg were investigated during early cleavage (8- and 512-cell stages, prior to the mid-blastula transition). Animal-dorsal, animal-ventral, vegetal-dorsal and vegetal-ventral quarters were separated and proteins were analyzed by 2D-electrophoresis. The comparison of acidic protein patterns from dorsal and ventral quarters revealed differences between vegetal cells but no difference was detected between animal cells. One protein (p11, 30 kDa) was characterized in the dorsal side as early as the 8-cell st. and two dorsal spots were detected at the 512-cell st. (p11 and p5, 65 kDa). Similarly one protein (p7b, 46 kDa) appears to be ventral-specific from the 8-cell st. The p11 spot was shown to appear in ventral cells as a consequence of a dorsalizing LiCl-treatment at the 32-cell stage. Conversely, p11 disappeared from dorsal cells and p5 did not appear at 512-cell stage after UV-irradiation of the uncleaved egg, which results in the expression of the ventral-specific protein p7b in the dorsal part of the egg. Therefore differential protein expression is already present at very early cleavage stages. Its significance needs further investigation.     

An electron microscopic study of the development of amphioxus,Branchiostoma belcheri tsingtauense: Cleavage

Development of the Asian amphioxus, Branchiostoma belcheri tsingtauense, was investigated by scanning and transmission electron microscopy (SEM and TEM) from the fertilized egg through the blastula stage. The fertilized egg is spherical (mean diameter 115 μm after SEM preparation) and is covered with microvilli. Throughout cleavage, the second polar body remains attached to the animal pole. The cleavage type in this species is essentially radial, as revealed by SEM observations. At the third cleavage or 8-cell stage, and at later stages, a size difference between blastomeres in the animal and the vegetal halves is clearly discernible, but less marked than that reported for the European amphioxus, B. lanceolatum. During the period spanning the third to the fifth cleavage (8–32-cell) stages, blastomeres are arranged in tiers along the animal-vegetal axis. After the sixth cleavage, or 64-cell stage, the tiered arrangement of the blastomeres is no longer seen. At the 4-cell stage, the blastocoel or cleavage cavity is seen as an intercellular space, opening to the outside. The blastocoel remains open at the animal and the vegetal poles in later stages. Throughout early development, the cytoplasm of the blastomeres includes yolk granules, mitochondria, Golgi complexes, and rough and smooth endoplasmic reticulum. Chromatin in the interphase nucleus is not clearly demonstrated, and chromosomes in the mitotic phase are also extremely difficult to detect. As yet, regional differences have not been found in distribution and organization of cytoplasmic components with respect to prospective ectodermal, mesodermal, and endodermal areas in the fertilized egg and later cleaved embryos, although there are possibly fewer yolk granules in the region of the animal pole than in the vegetal polar zone.     

Orientation in Systems with Asymmetric Density Distribution

The hen's egg is a convenient and suitable model for biological systems in which mass is asymmetrically distributed. Under the influence of an acceleration field (such as provided by gravity on earth), such systems will become oriented, and this may have biological significance. However, depending upon the viscous and elastic properties of the system, some minimal force, i.e. a threshold, will be necessary for movement in the system. This threshold, and the restraining properties of the yolk-albumen boundary, have been evaluated for the hen's egg and are reported herein.     

Early embryo orientation with respect to the cardinal points in natural clutches of two ranidae species inhabiting geographically distant regions

The azimuth (the least angle with the north-south direction) of the first cleavage furrow and anteroposterior axes of neurula was measured on projections of photographs of natural clutches. The azimuth distribution of the craniocaudal axis ofRana dalmatina neurulae in clutches from southern Italy and the first cleavage furrows ofR. arvalis embryos in clutches from central Russia proved identical. Both craniocaudal axes and first cleavage furrows were mostly oriented from west to east. The azimuth distribution of the craniocaudal axis ofR. arvalis neurulae in clutches subjected to repeated cold shock proved to be random. The causes and mechanisms of predominant orientation of the embryos in natural clutches of frogs are discussed. We propose that magnetic sensitivity is acquired by cytoskeleton elements, most likely microtubules, during reorganization in the course of normal development or due to experimental influences.     

Proliferative responses towards native,heat-denatured and pepsin-treated ovalbumin by peripheral blood mononuclear cells from patients with hen's egg-sensitive atopic dermatitis

In order to clarify the mechanism of food-antigen recognition, the proliferative responses of peripheral blood mononuclear cells (PBMCs) to native, heat-denatured or pepsin-treated ovalbumin (OA) were investigated in 16 hen's egg-sensitive patients with atopic dermatitis (AD). Seven of them had hypersensitivity to boiled hen's egg and others had not. The responses of PBMCs to heat-denatured OA were lower than those to native OA in the patients without hypersensitivity to boiled hen's egg. However, there were no differences of the responses of PBMCs between heat-denatured OA and native OA in the patients with hypersensitivity to boiled hen's egg. Moreover, the reduction of the responses of PBMCs to pepsin-treated OA was recognized in six out of seven patients. The primary structure of OA did not change by heating or pepsin treatment according to sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE). These results suggested that the secondary structure of OA changed in connection with the reduction of the responses of PBMCs to denatured OA. In addition, we demonstrated the suppressive effect of anti-HLA-DR and anti-HLA-DQ monoclonal antibodies on the proliferative response of PBMCs to OA. The results suggested that the proliferative responses of PBMCs to OA were restricted by HLA-DR or HLA-DQ in hen's egg-sensitive patients with AD.Abbreviations AD atopic dermatitis - BSA bovine serum albumin - OA ovalbumin - PBMC peripheral blood mononuclear cell - SDS-PAGE sodium dodecyl sulfate polyacrylamide gel electrophoresis