Isolation of a viral agent causing hematopoietic neoplasia in the soft-shell clam,Mya arenaria

A virus from neoplastic soft-shell clams, Mya arenaria, has been isolated. Its morphological and physical properties are similar to those of B-type retroviruses. It is enveloped, pleomorphic, averaging 120 nm in size with an eccentric nucleoid. Possible A-type particles have also been observed. The bouyant density of the particle ranged from 1.17 to 1.18 g/cm³ and the ultraviolet absorption $\text{260}\text{280}\text{-}\text{nm}$ ratio was 1.23. The virus has been shown to cause a hematopoietic neoplasm in Mya. Purified virus from neoplastic clams was innoculated into nonneoplastic clams. Most of these clams developed tumors within 2 months. Virus isolated from inoculated clams which developed neoplasia was inoculated into nonneoplastic clams. Most of these clams also developed neoplasia thus completing Koch's postulates.     

Accuracy of blood cytological screening techniques for the diagnosis of a possible hematopoietic neoplasm in the bivalve mollusc,Mya arenaria

The two in vivo bleeding techniques currently in use in our laboratory to diagnose a hematopoietic neoplasm in Mya arenaria are: (1) phase-contrast microscopy with fresh unstained hemocytes, and (2) bright-field microscopy with Giemsa-stained hemocytes. All in vivo diagnoses were checked by histopathological studies on tissues of the same mollusc. For both methods the correct diagnosis (true + or true ?) was made in 94 out of 100 clams examined. A gradation of tissue involvement was observed in the diseased clams and the accuracy of the in vivo diagnosis is related to the disease severity. There is a positive correlation between the degree of tissue involvement and the number of circulating neoplastic cells. For this reason the more extensive the neoplasm the better is the ability to diagnose the neoplasm by the in vivo bleeding techniques. Depending on the percentage of neoplastic cells present in the hemolymph, the neoplasm was graded from level 1 to 5, with 5 being the most severe. In general, at level 1, the accuracy of a single in vivo diagnosis varied from 66 to 71% and at level 2, the accuracy of diagnosis varied from 76 to 93%, while at all other levels the accuracy was 100%. The percentage of diseased clams detected by the in vivo bleeding technique was 89–91% and the percentage of nondiseased clams detected was 95%. These values can be further improved by combining the two tests and/or through multiple bleedings. Between the two types of in vivo tests, the Giemsa-stained hemocytes provided better precision of diagnosis than the fresh unstained cells, although the differences were slight.     

Impaired defense mechanisms in bay mussels, Mytilus edulis, with hemic neoplasia

Immunocompetence of bay mussels, Mytilus edulis, with hemic neoplasia was investigated with an in vitro yeast phagocytosis assay and by in vivo clearance from the blood of injected Cytophaga sp. bacteria. The yeast phagocytosis assay was conducted with hemocytes maintained in 90% plasma. Neoplastic hemocytes, characterized by enlarged nuclei and scant cytoplasm, failed to phagocytose yeast cells. In contrast, greater than 90% of hemocytes from unaffected animals and morphologically normal hemocytes from mussels with the disease phagocytosed yeast. Substitution of normal plasma with that from a mussel with advanced disease (essentially 100% neoplastic hemocytes) did not affect the phagocytic capability of normal hemocytes. Conversely, normal plasma did not enhance the phagocytic capabilities of neoplastic cells. Mussels with advanced disease showed reduced bacterial clearance; control or lightly affected mussels (less than 11% neoplastic hemocytes) cleared greater than 90% of injected bacteria in 4 hr, while mussels with advanced disease cleared 44-83%. These experiments indicate that mussels with advanced hemic neoplasia have compromised defense systems. This may account for the reported mortality in mussels and other bivalve molluscs with hemic neoplasia.     

Changes of gill and hemocyte-related bio-indicators during long term maintenance of the vent mussel Bathymodiolus azoricus held in aquaria at atmospheric pressure

The deep-sea hydrothermal vent mussel Bathymodiolus azoricus has been the subject of several studies aimed at understanding the physiological adaptations that vent animals have developed in order to cope with the particular physical and chemical conditions of hydrothermal environments. In spite of reports describing successful procedures to maintain vent mussels under laboratory conditions at atmospheric pressure, few studies have described the mussel's physiological state after a long period in aquaria. In the present study, we investigate changes in mucocytes and hemocytes in B. azoricus over the course of several months after deep-sea retrieval. The visualization of granules of mucopolysaccharide or glycoprotein was made possible through their inherent auto-fluorescent property and the Alcian blue-Periodic Acid Schiff staining method. The density and distribution of droplets of mucus-like granules was observed at the ventral end of lamellae during acclimatization period. The mucus-like granules were greatly reduced after 3 months and nearly absent after 6 months of aquarium conditions. Additionally, we examined the depletion of endosymbiont bacteria from gill tissues, which typically occurs within a few weeks in sea water under laboratory conditions. The physiological state of B. azoricus after 6 months of acclimatization was also examined by means of phagocytosis assays using hemocytes. Hemocytes from mussels held in aquaria up to 6 months were still capable of phagocytosis but to a lesser extent when compared to the number of ingested yeast particles per phagocytic hemocytes from freshly collected vent mussels. We suggest that the changes in gill mucopolysaccharides and hemocyte glycoproteins, the endosymbiont abundance in gill tissues and phagocytosis are useful health criteria to assess long term maintenance of B. azoricus in aquaria. Furthermore, the laboratory set up to which vent mussels were acclimatized is an applicable system to study physiological reactions such as hemocyte immunocompetence even in the absence of the high hydrostatic pressure found at deep-sea vent sites.     

Effect of acclimatization on hemocyte functional characteristics of the Pacific oyster (Crassostrea gigas) and carpet shell clam (Ruditapes decussatus)

Most experimental procedures on molluscs are done after acclimatization of wild animals to lab conditions. Similarly, short-term acclimation is often unavoidable in a field survey when biological analysis cannot be done within the day of sample collection. However, acclimatization can affect the general physiological condition and particularly the immune cell responses of molluscs. Our aim was to study the changes in the hemocyte characteristics of the Pacific oyster Crassostrea gigas and the carpet shell clam Ruditapes decussatus acclimated 1 or 2 days under emersed conditions at 14 ± 1 °C and for 1, 2, 7, or 10 days to flowing seawater conditions (submerged) at 9 ± 1 °C, when compared to hemolymph withdrawn from organisms sampled in the field and immediately analyzed in the laboratory (unacclimated). The hemocyte characteristics assessed by flow cytometry were the total (THC) and differential hemocyte count, percentage of dead cells, phagocytosis, and reactive oxygen species (ROS) production. Dead hemocytes were lower in oysters acclimated both in emersed and submerged conditions (1%-5%) compared to those sampled in the field (7%). Compared to oysters, the percentage of dead hemocytes was lower in clams (0.4% vs. 1.1%) and showed a tendency to decrease during acclimatization in both emersed and submerged conditions. In comparison to organisms not acclimated, the phagocytosis of hemocytes decreased in both oysters and clams acclimated under submerged conditions, but was similar in those acclimated in emersed conditions. The ROS production remained stable in both oysters and clams acclimated in emersed conditions, whereas in submerged conditions ROS production did not change in both the hyalinocytes and granulocytes of oysters, but increased in clams. In oysters, the THC decreased when they were acclimated 1 and 2 days in submerged conditions and was mainly caused by a decrease in granulocytes, but the decrease in THC in oysters acclimated 2 days in emersed conditions was caused by a decrease in hyalinocytes and small agranular cells. In clams, the THC was significantly lower in comparison to those not acclimated, regardless of the conditions of the acclimatization. These findings demonstrate that hemocyte characteristics were differentially affected in both species by the tested conditions of acclimatization. The phagocytosis and ROS production in clams and phagocytosis in oysters were not different in those acclimated for 1 day under both conditions, i.e. emersed and submerged, and those sampled in the field (unacclimated). The THC was significantly affected by acclimatization conditions, so the differences between clams and oysters should be considered in studies where important concentrations of hemocytes are required. The difference in the immune response between both species could be related to their habitat (epifaunal vs. infaunal) and their ability of resilience to manipulation and adaptation to captivity. Our results suggest that functional characteristics of hemocytes should be analyzed in both oysters and clams during the first 1 or 2 days, preferably acclimated under emersed rather than submerged conditions.     

Immunophenotyping of Mya arenaria neoplastic hemocytes using propidium iodide and a specific monoclonal antibody by flow cytometry

Disseminated neoplasia (DN) is a disorder referred to as hemic neoplasia (HN) in the soft-shell clam Mya arenaria. Traditionally, diagnosis is performed by hematocytology or histology. The intensity of the disease is generally given as the percentage of transformed neoplastic cells out of total number of hemocytes. Flow cytometry techniques have found a field of application in diagnosis of HN with analysis of ploidy. Hemocytes of the soft-shell clams with HN display tetraploid DNA content, as shown by propidium iodide staining. This feature makes difficult HN diagnosis in the soft-shell clam, especially for early stages of the condition, since the percentage of normal circulating cells undergoing mitosis, which also are tetraploid, remains unknown in molluscs. Use of specific monoclonal antibodies in a flow cytometry assay was foreseen as a way to overcome the difficulty. The purpose of this study was to develop a double staining protocol using propidium iodide for hemocyte cycle analysis and the MAb 1E10 for staining of HN cells. Our results showed a correlation between tetraploid and MAb 1E10-stained hemocytes in a single clam with moderate HN. This protocol offers some potential for further investigation of this cell disorder. However, a validation step will be necessary to confirm our preliminary results.     

Inhibition of apoptotic signalling in spermine‐treated vascular smooth muscle cells by a novel glutathione precursor

CKD (chronic kidney disease) is a public health problem, mediated by haemodynamic and non‐haemodynamic events including oxidative stress. We investigated the effect of two GSH (glutathione) precursors, NAC (N‐acetylcysteine) and cystine as the physiological carrier of cysteine in GSH with added selenomethionine (F1) in preventing spermine (uraemic toxin)‐induced apoptosis in cultured human aortic VSMC (vascular smooth muscle cells). VSMCs exposed to spermine (15 μM) with or without antioxidants (doses 50, 100, 200 and 500 μg/ml) were assessed for apoptosis, JNK (c‐Jun‐NH₂‐terminal kinase) activation and iNOS (inducible nitric oxide synthase) induction and activation of intrinsic pathway signalling. Spermine exposure resulted in activation of JNK and iNOS induction and apoptosis. NAC and F1 (dose range 50–500 μg/ml) attenuated spermine‐induced acceleration of VSMC apoptosis but only F1 (at 200 and 500 μg/ml) maintained spermine‐induced apoptosis at control levels. Spermine‐induced JNK activation was prevented by 200 μg/ml of both NAC and F1, while iNOS induction was blocked only by F1. Notably, the adverse effects of spermine on BAX/BCL‐2 ratio, cytochrome c release and caspase activation was fully attenuated by F1. In conclusion, F1 was more effective than NAC in preventing spermine‐induced apoptosis and downstream changes in related signal transduction pathways in VSMCs. Further studies are needed to examine the effect of these compounds in preventing CKD‐associated vascular disease.     

β-葡聚糖对小鼠单核巨噬细胞系RAW264.7的免疫刺激作用

目的研究β-葡聚糖的应用对Balb/c小鼠巨噬细胞株RAW264.7的刺激作用。方法将不同浓度（0～150μg/ml）的β-葡聚糖与Balb/c小鼠来源的巨噬细胞株RAW264.7作用1～7d后,以四甲基偶氮唑蓝（MTT）法检测细胞的增殖情况并绘制细胞生长曲线。结果β-葡聚糖在50～75μg/ml的浓度范围内能够明显地刺激细胞发生增殖。结论适当剂量的β-葡聚糖作用足够时间,RAW264.7细胞系可以发生显著的生长促进效应。     

The sulfide tolerance of milkfish and tilapia in relation to fish kills in farms and natural waters in the Philippines

Fish kills of milkfish Chanos chanos and tilapia Oreochromis spp. now occur frequently in brackish, marine, and freshwater farms (ponds, pens, and cages) in the Philippines. Aquafarms with high organic load, limited water exchange and circulation, no aeration, and high stocking and feeding rates can become oxygen-depleted and allow sulfide from the sediments to appear in the water column and poison free-swimming fish. The sulfide tolerance of 2–5 g milkfish and 5–8 g O. mossambicus was determined in 25-liter aquaria with flow-through sea water (100 ml min-1) at 26–30 °C and sulfide stock solutions pumped in at 1ml min-1. Total sulfide concentrations in the aquaria were measured by the methylene blue method and used in the regression against the probits of % survival. Four experiments showed that the two species have similar sulfide tolerance. In sea water of pH 8–8.5, about 163 ± 68 μM or 5.2 ± 2.2 mg l-1 total sulfide (mean ± 2 se) or 10 μM or 313 μg l-1 H2S was lethal to 50% of the fish in 4–8 h, and 61 ± 3 μM total sulfide or 4 μM H2S in 24–96 h (to convert all sulfide concentrations: 1 μM = 32 μg l-1). Earthen pond bottoms had 0–382 μM total dissolved sulfide (mean ± sd = 54 ± 79 μM, n = 76); a tenth of the samples had >200 μM. The water column may have such sulfide levels under hypoxic or anoxic conditions. To simulate some of the conditions during fish kills, 5–12 g milkfish were exposed to an abrupt increase in sulfide, alone or in combination with progressive respiratory hypoxia and decreasing pH. The tests were done in the same flow-through set-up but with sulfide pumped in at 25 ml min-1. The lethal concentration for 50% of the fish was 197 μM total sulfide or 12 μM H2S at 2 h, but 28–53 μM sulfide allowed fish to survive 6–10 h. Milkfish in aquaria with no aeration nor flow-through sea water died of respiratory hypoxia in 5–8 h when oxygen dropped from 6 to 1 mg l-1. Under respiratory hypoxia with 30–115 μM sulfide, the fish died in 2.5–4 h. Tests with low pH were done by pumping a weak sulfuric acid solution at 25 ml min-1 into aquaria with flow-through sea water such that the pH dropped from 8 to 4 in 5 h. Under these conditions, milkfish died in 7–9 h when the pH was 3.5. When 30–93 μM sulfide was pumped in with the acid, the fish died in 2–6 h when the pH was still 4.5–6.3. Thus, sulfide, hypoxia, and low pH are each toxic to milkfish at particular levels and aggravate each other's toxicity. Aquafarms must be well oxygenated to prevent sulfide toxicity and fish kills. This revised version was published online in July 2006 with corrections to the Cover Date.     

A preliminary survey of organic pollution of shellfish in Tolo Harbour,Hong Kong

A preliminary survey on the contamination of clams and sea-waters in various towns in Tolo Harbour was carried out using bacteriological tests. The ‘percentage clean’ method and the ‘most probably number’ method were employed. The pH, salinity and temperature of the seawater were also tested in the field. It was discovered that the number of coliform bacteria obtained by the ‘percentage clean’ was zero in both seawater and clams from all sites including the control. The ‘most probable number’ indicated that the water and the clam tissue collected in the three sites in Tolo Harbour ranged from 15–1,100/100 ml in the water and 825–11,000/g in the clams compared with 0/100 ml and 115/g of the control site. Due to the high level of organic pollution in Tolo Harbour, improvement of the sanitary situation is urged. Cultivation of clams collected in this area in clean and sterilized water for a few days before consumption is recommended.     

Accumulation and Elimination of Coliphage S-13 by the Hard Clam, Mercenaria mercenaria

Accumulation and elimination of viral particles by hard clams, Mercenaria mercenaria, were studied with the coliphage S-13 as a working model. Escherichia coli uptake and elimination were simultaneously monitored. Clams were exposed to low levels of S-13 (7 particles/ml) in running seawater for several days, achieving titers in tissues from 2 to more than 1,000 times the levels to which they had been exposed. Bacterial accumulation (previously established by other workers) was comparable. Upon exposure to virus-free running water, clams polluted to relatively low levels (100 plaque-forming units/ml) eliminated most of their bacterial contaminants in 24 to 48 hr. Viral contaminants, however, persisted for several days to weeks even under ideal conditions for clam activity, provided that the temperature remained below the inactivation threshold for the virus. Most of the accumulated virus appeared to be sequestered in the digestive gland. These sequestered particles are refractory to those mechanisms responsible for elimination of bacterial contaminants. This discrepancy points out the need for caution in evaluating the efficiency of shellfish depuration processes, especially if only a bacterial criterion is used as a monitoring system.     

Field and laboratory comparisons of mortality in normal and neoplastic Mya arenaria

The results of a 6-month mark and recapture experiment involving approximately 900 adult Mya arenaria demonstrated that under natural conditions, significantly higher (P much less than .001, chi 2 test) mortality occurred among animals with neoplasia than those diagnosed as normal. Using a blood screening technique, the clams were diagnosed and placed in one of three diagnostic groups based on the severity of the disease (the percentage neoplastic cells per total number of blood cells): Nonneoplastic (NN), 0%; low severity neoplastic (LSN), less than 50%; and high severity neoplastic (HSN), greater than 50%. Fifty-one percent of those clams initially diagnosed as HSN died by the end of the test period as compared to 8% of the LSN clams and only 3% of the normals. Both progression and remission of the disease were also evident. Approximately 10% of the clams in the NN and LSN groups progressed to a LSN or HSN condition, whereas 16% of those clams initially identified as LSN, and that were recovered alive, underwent complete remission during the test period. Comparison of the field results with those of an 18-week laboratory study suggests that studies of mortality done under laboratory conditions may not provide useful data for the interpretation of the quantitative effects of a disease process, such as molluscan neoplasia, on the natural population of the animal studied.     

双歧杆菌及其完整肽聚糖对脐血来源树突状细胞分泌IL-12的影响

目的探讨两歧双歧杆菌和不同剂量双歧杆菌的完整肽聚糖（WPG）对脐血来源树突状细胞（DC）分泌IL-12的影响。方法以双歧杆菌全菌（量）和不同剂量双歧杆菌WPG（1-8μg/ml）与脐血来源树突状细胞共培养,用ELISA的方法测定培养上清中IL-12的量。结果双歧杆菌和其WPG（1-6μg/ml）与树突状细胞共培养后,树突状细胞分泌的IL-12的量显著高于阴性对照组（P〈0.01）,当WPG量为1-5μg/ml时树突状细胞分泌的IL-12的量呈剂量依赖性,其中WPG量为5μg/ml时作用最为显著,WPG量为6μg/ml时分泌IL-12量减少,WPG量为8μg/ml时,分泌的IL-12量与阴性对照组差异无显著性（P〉0.05）。结论两歧双歧杆菌及其WPG能够刺激脐血来源的树突状细胞IL-12分泌;双歧杆菌WPG的免疫刺激作用呈一定的量效关系     

Postingestive selection in the sea scallop, Placopecten magellanicus (Gmelin): the role of particle size and density

Suspension-feeding bivalves can influence the energy value of their food supply by particle selection at various stages from particle clearance to production of feces. Previous workers have found that some bivalve species (Mercenaria mercenaria, Mytilus edulis) are capable of postingestive selection within the stomach. Few studies, however, have attempted to isolate the factors that influence postingestive selection. In this study, we examined the ability of the sea scallop Placopecten magellanicus to select particles within the stomach on the basis of physical properties. Scallops were presented with a mixture of three sizes of beads (5, 10 and 20 μm) or with a mixture of beads of different densities (1.05 g ml(-1) and 2.5 g ml(-1)). We demonstrate that P. magellanicus can distinguish between particles of different sizes and densities, retaining larger particles (20 μm) longer than smaller ones (5 μm) and lighter particles longer than denser ones. This ability to reject small, dense particles may benefit the scallop by reducing the amount of energy expended attempting to digest poor quality particles such as silt. This paper presents the first quantitative analysis of the effect of particle size and density on particle processing within intact bivalves.     

Correlation between metallothionein and energy metabolism in sea bass,Dicentrarchus labrax,exposed to cadmium

Specimens of sea bass (Dicentrarchus labrax) were exposed to two different cadmium concentrations (0.5 and 5 μg Cd²⁺/ml seawater) for a period of 7 days. Cadmium accumulated in the tissues of D. labrax in the following order: kidney > liver > gills at both concentrations. Accumulation patterns in fish exposed to 0.5 μg Cd²⁺/ml seawater were different with respect to 5.0 μg Cd²⁺/ml seawater. At both Cd concentrations a similar stress situation occurred during the first 4 hr as noted by the depletion of glycogen stores and the increase in free glucose in the muscle; metallothionein was induced in the liver, but failed to bind all the cytosolic Cd, which was in part bound to high-molecular-weight ligands. Fish recovered from this initial stress situation within 24 hr as indicated by the increase in glycogen and the decrease of glucose. Long-term effects were clearly dependent upon metal concentration: at lower Cd exposure, metallothionein induction increased linearly with time and counteracted the toxic effect of the metal; on the other hand, when fish were exposed to 5.0 μg Cd²⁺/ml seawater a clear stress occurred at the end of the exposure, as indicated by the notable decrease of glycogen stores, the increase of free glucose, the decrease of AEC in the muscle and the increase of Cd bound to high-molecular-weight ligands in the liver.     

Leukemia cell specific protein of the bivalve mollusc Mya arenaria

Soft shell clams, Mya arenaria, develop leukemias in the hemolymph which are fatal. Tissue sections and hemolymph samples from normal and tumor-bearing clams were tested with an anti-leukemic cell specific monoclonal antibody (Mab) "IEII." Evaluation of leukemic cells and normal hemocytes by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and Western blot analyses showed that Mab IEII bound to a large protein of approximately 200 kDa from the tumor cell, but not from the normal cell preparation.     

Cephalexin-Induced Morphological Alterations in the Surface Structures of Staphylococcus aureus and Escherichia coli Demonstrated by Scanning Electron Microscopy

The scanning electron microscope was used to investigate the alterations in surface morphology of Staphylococcus aureus 209P and Escherichia coli NIH induced by the action of cephalexin known to interfere with cell-wall synthesis. Exposure to cephalexin produced a series of changes on the surface morphology in proportion to the concentrations of cephalexin added. Untreated S. aureus cells had smooth contours. Exposure to 1 μg/ml of cephalexin during the logarithmic phase of growth in S. aureus did not produce any detectable changes. Upon exposure of S. aureus to 5 μ/ml or 10 μg/ml, some cells were larger than normal and showed abnormal cell division-like structures in part. When S. aureus was exposed to 50 μg/ml, cell division was completely inhibited, and no formation of grape-like clusters was observed. Untreated E. coli cells appeared to have smooth and regular contours. E. coli propagated almost normally upon exposure of the organisms to 1 μg/ml of cephalexin. Filamentous structures were observed with the exposure of E. coli to 12.5 μg/ml or 25 μg/ml, but spheroplast-like structures were not observed. Exposure to 100 μg/ml of cephalexin resulted in the formation of marked filamentous cells and spheroplast-like structures having multiple small saccular outpouchings. Scanning electron microscope demonstrated more completely the morphological abnormalities induced by cephalexin.     

VENOM FROM THE ECTOPARASITIC WASP Habrobracon hebetor ACTIVATES CALCIUM‐DEPENDENT DEGRADATION OF Galleria mellonella LARVAL HEMOCYTES

Ectoparasitoids inject venom into hemolymph during oviposition. We determined the influence of envenomation by the parasitoid, Habrobracon hebetor, on the hemocytes of its larval host, Galleria mellonella. An increase in both intracellular Са²⁺ content and phospholipase C activity of the host hemocytes was recorded during 2 days following envenomation by the parasitoid. The decreased hemocyte viability was detected 1, 2, and 24 h after the envenomation. Injecting of the crude venom (final protein concentration 3 μg/ml) into the G. mellonella larvae led to the reduced hemocyte adhesion. The larval envenomation caused a decrease in transmembrane potential of the hemocytes. These findings document the suppression of hemocytic immune effectors in the parasitized host larvae.     

Hormonal requirements for the larval-pupal transformation of the epidermis of Manduca sexta in vitro

In the tobacco hornworm, Manduca sexta, metamorphosis occurs in response to two releases of ecdysone that occur 2 days apart. Epidermis was explanted from feeding final-instar larvae before the first release of ecdysone and was cultured in Grace's medium. When exposed to 1 μg/ml of β-ecdysone for 24 hr and then to hormone-free medium for 24 hr, followed by 5 μg/ml of β-ecdysone for 4 days, the epidermis produced tanned pupal cuticle in vitro. During the first 24 hr of exposure to β-ecdysone, the epidermis first changed its cellular commitment to that for pupal cuticle formation (ET₅₀ = 14 hr), then later (by 22 hr) it became committed to tan that cuticle. Then, for most of the pupal cuticle to be tanned, at least a 12-hr period of culture in hormone-free medium was required before the cuticle synthesis was initiated. Consequently, some events prerequisite to sclerotization of pupal cuticle not only occur during the ecdysone-induced change in commitment but also during the ecdysone-free period. When the tissue was preincubated in 3 μg/ml of juvenile hormone (JH I or a mimic epoxygeranylsesamole) for 3 hr and then exposed to both ecdysone and juvenile hormone for 24 hr, it subsequently formed larval cuticle. The optimal conditions for this larval cuticle formation were exposure to 5 μg/ml of β-ecdysone in the presence of 3 μg/ml of epoxygeranylsesamole for 48 hr. When the epidermis was cultured in Grace's medium for 3 days and then exposed to 5 μg/ml of β-ecdysone for 4 days, 70% of the pieces formed pupal cuticle. By contrast, if both ecdysone and JH were added, 77% formed larval cuticle. Therefore, the change from larval to pupal commitment of the epidermal cells requires not only the absence of JH, but also exposure to ecdysone.