Haemolymph ecdysteroid titres during larval-adult development in Rhodnius prolixus: Correlations with moulting hormone action and brain neurosecretory cell activity

A haemolymph ecdysteroid titre of the fifth (last)-larval instar of the hemipteran, Rhodnius prolixus has been determined by radioimmunoassay. During the last-larval stadium the ecdysteroid titre increases from a negligible level in the unfed insect to a detectable level within minutes following a blood meal. The titre reaches a plateau of ～50–70 ng/ml at 3–4 hr and this level is maintained until day 5–6, the time of the head-critical period in Rhodnius. At the head-critical period the titre begins to increase again, this time dramatically, reaching a peak of ～ 3500 ng/ml at day 13. From day 14 to ecdysis (day 21) the titre declines to a low level, ～ 30 ng/ml. Basal levels of ecdysteroids, ～ 15 ng/ml, were detectable in young adult males and females. A survey of haemolymph volumes during the last-larval instar indicates that the changes in the ecdysteroid titre reflect changes in the rates of ecdysteroid synthesis, and not changes in haemolymph volume. Excretion of ecdysteroids varies systematically during the instar, suggesting that control of ecdysteroid excretion may be important in regulation of the haemolymph titre. Qualitative analysis of the haemolymph ecdysteroid RIA activity revealed the presence of only ecdysone and 20-hydroxy-ecdysone. For the large peak preceding larval-adult ecdysis, 20-hydroxy-ecdysone was the predominant hormone. These results indicate that there may be two periods of release of prothoracicotropic hormone (PTTH) from the brain in Rhodnius, one immediately following the blood meal and the second on day 5 or 6. The significance of these times of PTTH release is discussed in relation to classical evidence of the timing of moulting hormone action, the response of target tissues, and with more recent findings on the timing of release of neurosecretory material from the brain of Rhodnius during moulting.     

Ovarian and haemolymph titres of ecdysteroid during the gonadotrophic cycle in Diploptera punctata

The free (non-conjugated) ecdysteroid in the ovaries during the first gonadotrophic cycle of Diploptera punctata was identified as 20-hydroxyecdysone. The hormone, quantified by radioimmunoassay and by ultraviolet absorbance, was detectable in the ovary toward the end of vitellogenesis; the quantity increased rapidly during chorion formation. Ovaries with chorionated eggs contained 67 μg of 20-hydroxyecdysone per g fresh weight. The haemolymph free-ecdysteroid, not identified physicochemically, was quantified by radioimmunoassays. The highest concentration was observed at adult emergence; the titre declined between days 1–3 and then remained at a relatively constant level through oviposition (which occurs between day 7 and 8); titres in pregnant females were higher. Ovariectomized females exhibited the same pattern of ecdysteroid titres in the haemolymph as the sham operated controls throughout the period corresponding to the first gonadotrophic cycle. Thus the ovary may not be the only source of haemolymph ecdysteroid related to reproduction in adult females.     

Ecdysteroids in relation to adult development and reproduction in female Rhipicephalus appendiculatus (Acari; Ixodidae)

In view of the paucity of information on ecdysteroids during tick development, the profiles of the free ecdysteroids, together with the polar and apolar conjugates have been established by radioimmunoassay during development of adult females of the hard tick, Rhipicephalus appendiculatus. The free ecdysteroid titre increased sharply to a peak approximately 3 days post-engorgement, a day preceding beginning of oviposition. This titre decreased to a low level, which was maintained throughout oviposition. Although the titre of polar ecdysteroid conjugates was appreciably less than that of the free ecdysteroids during the peak, the general profile of such conjugates was similar to that of the free ecdysteroids. In the case of the apolar ecdysteroid conjugates, the titre increased simultaneously with production of free ecdysteroids, but was maintained at a relatively high level until the end of oviposition, when it sharply declined. The apolar conjugates were the predominant form of ecdysteroids present during most of oviposition. The free ecdysteroids as well as the polar and apolar conjugates were shown to contain 20-hydroxyecdysone accompanied by smaller amounts of ecdysone by high-performance liquid chromatography-RIA (HPLC-RIA) and gas chromatography/mass spectrometry (selected ion monitoring; GC/MS [SIM]). © 1996 Wiley-Liss, Inc.     

Effect of 20-hydroxyecdysone on the salivary glands of the male tick,Amblyomma hebraeum

Female ticks (Acari: Ixodidae) feed only once in the adult stage, dying after laying a large batch of eggs. During the early post-engorgement stage, haemolymph ecdysteroid titre rises, which is probably responsible for autolysis of the salivary glands that takes place at this time. Males, on the other hand, can re-attach and feed numerous times during the adult stage. Males were fed on rabbits for either 7 or 14 days. Haemolymph was collected either the day of removal from the host or 4 days later, and ecdysteroid titre was measured by radioimmunoassay. The approximate titre in all 4 groups was 20 ng of 20-hydroxyecdysone (20-OHE) equivalents/ml haemolymph. Fluid secretory competence in vitro can be used as an index of salivary-gland degeneration. The glands dissected from fed males which had been left off the host for 4 days lost 62% of their fluid secretory competence compared to glands dissected shortly after the males were removed. This loss in fluid secretory competence was reversed by allowing ticks left off the host of 4 days to resume feeding. Male salivary glands lost fluid secretory competence when exposed for 4 days in organ culture to 20-OHE; the effect was maximal at the lowest concentration tested (20 ng/ml). Thus, although male salivary glands were highly sensitive to 20-OHE, it is still not clear whether this hormone causes the tissue to degenerate.     

Ecdysteroids in adult males and females of Drosophila melanogaster

Ecdysteroid titres in whole flies and different tissues of adult male and female Drosophila were determined at various times after eclosion using a radioimmunoassay. The ecdysteroid titre decreased as the flies matured after eclosion. The differences in titre between males and females can be accounted for by their difference in body weight. The ecdysteroids were found to be distributed throughout several tissues. At eclosion not all of the ecdysteroid complement present could be accounted for by that found localised in tissues. After maturation of the flies the ecdysteroids in various tissues can account for the majority of that detected in whole-fly extracts. Ecdysteroids were produced during in vitro culture of various tissues, but the quantities detected were low by comparison with ring glands of wandering 3rd-instar larvae. Neither the ovaries nor the abdominal body walls (fat body) seem to be a major source of hormone, and they are only able to convert minute quantities of ecdysone to the biologically active form, 20-hydroxyecdysone, in vitro. The amounts of 20-hydroxyecdysone present were measured using high performance liquid chromatography and radioimmunoassay. We tentatively suggest that the differential experession of the yolk-protein-genes in the fat bodies of males and females does not result from differences in hormone titres between them.     

Effect of dietary ecdysterone on protein ingestion and copulatory behaviour of the blowfly, Sarcophaga bullata

ABSTRACT. In Sarcophaga bullata and other blowflies, the low haemolymph ecdysteroid titre is responsible for the inability of males to synthesize vitellogenin, although they have the genes coding for this protein. The high moulting hormone titre in females is of crucial importance for vitellogenesis. In this context we investigated whether the difference in protein ingestion between the sexes might also be related to differences in ecdysteroid titre. Using a two-choice system, we observed that upon addition of ecdysterone to the food, protein ingestion increased in males. Topical application of methoprene also had a stimulating effect. Prolonged treatment with ecdysterone reduced the copulatory behaviour of males.     

Relationship between feeding,mating, vitellogenin production and vitellogenesis in the tickDermacentor variabilis

Anti-vitellin IgG directed againstDermacentor variabilis egg vitellin was used in sodium dodecyl sulfate polyacrylamide (SDS-PAGE) gradient gel immunoblots to detect the presence of vitellin and its precursor, vitellogenin, in the organs of feeding adults and in the immature stages of this tick. Vitellin polypeptides were found in the egg, larvae, nymph, and in the unfed adult stages of both sexes. Vitellin polypeptides were first detected in the ovary of mated females during the rapid-engorgement feeding, period. These polypeptides were also present in the ovaries of ovipositing females, unmated females fed for extended periods, and fed unmated females that were detached from the host and held for 12 h before dissection. The same anti-vitellin antibody was used in immunoblots to monitor the appearance of vitellogenin in the organs and hemolymph of female ticks. Immunoreactive peptides of vitellogenin were found in the fat body, midgut, and hemolymph of pre-rapid-engorging mated and unmated females. These polypeptides were not found in fed males nor in Malpighian tubes of feeding or ovipositing females Our data supported the following conclusions: 1) presence of immunoreactive vitellogenin in the adult female fat body, hemolymph, and midgut was, dependent upon feeding; 2) in mated feeding females, we could not detect the uptake of vitellogenin by the ovary until rapid engorgement; 3) in unmated females, vitellogenesis did not, begin unless prolonged feeding occurred; and 4) during the early developmental stages of this tick, vitellin served as an embryonic nutrient reserve and as a reserve against starvation between feedings.     

The ecdysteroid titres during the last-larval instar of Ephestia kuehniella Z. (Lepidoptera: Pyralidae)

The ecdysteroid titre and the body weight during the last-larval instar of Ephestia kuehniella were determined. Slightly elevated ecdysteroid titres occur during the first 12 h following the last larval-larval ecdysis (38 ng/g) and again some 120 h later, lasting about 48 h (33 ng/g). A high ecdysteroid peak (750 ng/g) with a maximum in prepupae of the eye-class A4 precedes the larval-pupal ecdysis. The basal levels between these increased ecdysteroid titres are between 13 ng/g and 15 ng/g. Compared with the body weight, the first sligtly increased ecdysteroid titre 12 h after ecdysis is associated with the beginning of food intake, the second increase at 144 h after ecdysis with reduced gain in body weight. The prepupal ecdysteroid peak occurs whilst the body weight remains constant. Correlations between the varying ecdysteroid titre and morphological and physiological events accompanying the progress in larval-pupal development are discussed.     

Cellular events in the prothoracic glands and ecdysteroid titres during the last-larval instar of Spodoptera littoralis

Changes in prothoracic gland morphology were correlated to developmental events and ecdysteroid titres (20-hydroxyecdysone equivalents) during the last-larval instar in Spodoptera littoralis. After ecdysis to the last-larval instar the haemolymph ecdysteroid titre remained at about 45 ng/ml, when the prothoracic glands appeared quiescent. The first signs of distinct gland activity, indicated by increased cell size and radial channel formation, were observed at about 12 h prior to the cessation of feeding (36 h after the last-larval moult), accompanied by a gradual increase in ecdysteroid titre to 110 ng/ml haemolymph, at the onset of metamorphosis. During this phase ecdysteroid titres remained at a constant level (140–210 ng/ml haemolymph) and prothoracic gland cellular activity was absent for a short period. The construction of pupation cells occurred when haemolymph ecdysteroids titres increased to 700 ng/ml. A rapid increase in ecdysteroids began on the fourth night (1600 ng/ml haemolymph) reaching a maximal level (4000 ng/ml haemolymph) at the beginning of the fourth day. In freshly moulted pupae a relatively high ecdysteroid titre (1100 ng/ml haemolymph) was still observed, although during a decrease to almost negligible levels. The increase in ecdysteroid level during the third and the fourth nights of the last-larval instar was correlated with the period when almost all the prothoracic gland cells showed signs of high activity. Neck-ligation experiments indicated the necessity of head factors for normal metamorphosis up to the second to third day of the instar. The possibility that the prothoracic glands are under prothoracicotropic hormone regulation at these times is discussed.     

A positive correlation between oocyte production and ecdysteroid levels in adult Aedes

ABSTRACT. The ecdysteroid titre of adult females resulting from a cross of Aedes epactius females, an anautogenous mosquito, with Aedes atropalpus males (an autogenous strain) was determined using a radioimmunoassay. The F₁ hybrid is autogenous and produces mature oocytes without the benefit of a blood-meal. The ecdysteroid profile of this hybrid revealed a smaller early peak and a second larger one. Qualitatively the overall hormonal profile appeared quite similar to the ones previously obtained using A.atropalpus females and blood-fed A.aegypti. Quantitatively, the amount of endogenous hormone exhibited, and the total number of mature oocytes produced, may be positively correlated.     

Ecdysteroid titers in mated and unmated Drosophila melanogaster females

Radioimmunoassay was used to determine ecdysteroid titers in mated or unmated Drosophila melanogaster females. Whole-body ecdysteroid titers increase after mating and this response is more pronounced after 12-24 hours than it is immediately after mating. In one experiment, females were mated to transgenic males deficient in accessory gland proteins to test whether these peptides mediate the observed increase in female whole-body ecdysteroid titers. Females mated to such transgenic males do not show a pronounced increase in whole-body ecdysteroid titers. The effect of mating on female hemolymph ecdysteroid titers was also investigated. Hemolymph ecdysteroid titers decrease after mating. The ecdysteroid titer change in the hemolymph may result from yolk protein uptake of ecdysteroids into developing vitellogenic oocytes as a consequence of male accessory gland protein stimulation of female oocyte maturation and yolk protein synthesis following mating.     

MOULTING HORMONE ACTIVITY IN THE ADULT COLORADO POTATO BEETLE,LEPTINOTARSA DECEMLINEATA SAY IN RELATION TO REPRODUCTION AND DIAPAUSE

Ecdysteroid levels in Leptinotarsa decemlineata were measured by radioimmunoassay (RIA), using an antiserum with a 10 times higher affinity for ecdysterone than for ecdysone and polyethylene glycol as a means for separating free from bound hormone. In reproducing males, raised under long day conditions (LD: 16 h photophase, 25°C) there was a peak of 54 ng/g at day 3–4, declining thereafter to very low values. In LD-females, 50 ng/g was found at day 2 (just before the onset of vitellogenesis), decreasing to 20 ng/g at day 5 (start of oviposition) and increasing again thereafter to 95 ng/g at day 14. In prediapausing animals, raised under short day conditions (SD: 10 h photophase, 25°C) the level was practically the same in both sexes and it was significantly higher than in reproducing animals. In both sexes a peak of about 96 ng/g was found from day 2 to 4, thereafter the level dropped quickly. During diapause the level increased slowly and in 9 month diapausing adults it was about 75 ng/g. This is the first time that high ecdysteroid levels are reported in relation to diapause induction in an adult insect, and the first time that high levels are found in adult males, indicating that the ovary cannot be the only site of synthesis of moulting hormone. The content during metamorphosis was also determined, mainly as a test for our RIA method. Hitherto there was no indication whatsoever that moulting hormone (MH) might be present and play a role in the adult stage in this insect. Our results make necessary a reappraisal of the hormonal regulation of oogenesis and induction of diapause in the Colorado beetle. The nature of the ecdysteroids present in the adult stage, their site of synthesis, their metabolism and physiological significance remain to be determined.     

Changes in the titer of the female-predominant storage protein (81K) during larval and pupal development of the waxmoth,galleria mellonella

The levels of an 81K storage protein in the waxmoth, Galleria mellonella, were monitored during the course of development using rocket immunoelectrophoresis. During the fifth and sixth larval stadia, 81K protein levels increased during feeding and growth but sharply declined at each larval molt. During the fifth and sixth stadia hemolymph levels of the 81K protein increased to about 1 and 2.5 mg/ml, respectively, with no discernible differences between levels in males and females. Neither the fat body nor the remainder of the carcass contained the 81K protein, indicating that the accumulation of this protein during the intermolt period was exclusively in the hemolymph and redistribution of the 81K protein into other tissues does not occur at the final two larval molts. During the seventh (final) larval stadium the absolute quantities of the 81K protein increased from 23 μg per insect to over 1,600 μg in females and to 300 μg in males. The hemolymph concentration of the 81K protein reached 28 mg/ml in females and 6 mg/ml in males with only low levels found in the remaining tissues. Shortly after pupal apolysis, marked by eyespot retraction, the fat body in both sexes rapidly and quantitatively sequestered the 81K protein from the hemolymph. The 81K protein in the hemolymph of both males and females rapidly dropped to nearly zero concentration by pupation. The 81K storage protein remained localized in the fat body cells after uptake occurred, even though the fat body cells disaggregate and reaggregate during metamorphosis. During pharate adult development the 81K storage protein disappeared from the fat body without entering the hemolymph. At adult eclosion 81K was virtually absent from the tissues of both males and females.     

Developmental changes in hemolymph ecdysteroid level and prothoracicotropic hormone activity during the fifth larval instar of the Eri silkworm, Samia cynthia ricini

Developmental changes in hemolymph ecdysteroid level, ecdysteroid synthesis by prothoracic glands （PGs） in vitro, prothoracicotropic hormone （PTTH） activity in brain extracts, and PTTH activity in the hemolymph were measured during the fifth larval instar of the Eri silkworm, Samia cynthia ricini. The changing patterns of hemolymph ecdysteroid level and ecdysteroid synthesis by laGs in vitro are similar to each other, with maximums on day 9. However, on this day, hemolymph ecdysteroid level was substantially higher than ecdysteroid synthesis by PGs in vitro suggesting a high PTTH activity in the hemolymph on day 9. Moreover, the changing pattern of PTTH activity in brain extracts is also similar to that of PTTH activity in the hemolymph, both peaking on day 9. However, on this day, activity in brain extracts was much smaller than PTTH activity in the hemolymph implying that most PTTH synthesized by the brain is secreted to the hemolymph and the brain stores a very little amount of PTTH. This study provides unique insights onto the hormonal regulation of ecdysteroid synthesis in the Eri silkworm and is useful for our future studies on signal transduction of insect neurolaelatides.     

Hemolymph of reproductives of Solenopsis invicta (Hymenoptera: Formicidae)-amino acids,proteins and sugars

Free amino acid composition and carbohydrate and protein concentration of the hemolymph of the pupal and adult stages of reproductives of Solenopsis invicta are presented. The physico-chemical properties of the hemolymph differ between both sexes of fire ants during development. Male alates (459 mmol/kg) have a higher osmolality than pupae (388 mmol/kg). Osmolality during the pupal stage was 428 mmol/kg, decreasing to 354 mmol/kg soon after de-alation and increasing again to 463 mmol/kg in active queens. The hemolymph of newly eclosed adults was more basic than the pupa and older adults. The pH of the hemolymph ranged from 6.40 to 6.71 for males and 6.47 to 7.01 for females. An increase in the carbohydrate and protein content was found for both sexes after emergence. Newly de-alated females had a decrease in their carbohydrate titers, although no changes were found in the protein concentration. An increase in the total free amino acid concentration was recorded for males after emergence, while changes in females were noted only after de-alation. However, females had a 2.7-fold increase in the free amino acid pool after they de-alated, with proline, glutamine and taurine showing the highest increase. Changes in the organic composition and in the physico-chemical properties of the hemolymph of S. invicta are discussed in regard to the physiological processes involved in the maturation of the reproductives of this insect.     

Profile of the ecdysteroid hormone and its receptor in the salivary gland of the adult female tick, Amblyomma hebraeum

We examined the hemolymph ecdysteroid titer (by radioimmunoassay) and profile of the ecdysteroid receptor (EcR/USP; by [3H]ponasterone A binding, gel mobility shift assay, Western blot) in the salivary gland of the ixodid tick, Amblyomma hebraeum Koch (Acari: Ixodidae) throughout the tick feeding period and first 6 days post-engorgement. Throughout the slow phase of feeding, the hemolymph ecdysteroid titer was approximately 18 pg/microliter. The titer peaked at approximately 52 pg/microliter during the rapid phase of feeding, falling back to approximately 22 pg/microliter on the day of engorgement. Ecdysteroid titer rose again to approximately 750 pg/microliter by day 6 post-engorgement. EcR was undetectable by any of the three assays in unfed ticks. Following the onset of feeding, there appeared both specific ponasterone A binding and two major EcR bands detected by Western blot analysis. Both measurements were sustained throughout the feeding period, but declined after detachment when the salivary glands were degenerating. After ticks reached about 100 mg (by which time most females are mated), a discrete DNA-binding band was shown by gel mobility shift assay using Drosophila hsp27 EcRE as a probe. Moreover, the band intensified when hemolymph ecdysteroid titer reached its peak during the rapid phase of feeding; it declined along with decreasing EcR/USP levels, and with specific ligand binding activity following engorgement. This study suggests a role for the small hemolymph ecdysteroid peak during the rapid phase of feeding in initiating salivary gland degeneration.     

Juvenile hormone titers in virgin and mated Choristoneura fumiferana and C. rosaceana females: assessment of the capacity of males to produce and transfer JH to the female during copulation

We used a radioimmunoassay (RIA) to assess the effect of mating on juvenile hormone (JH) titer in females of the tortricid moths Choristoneura fumiferana and C. rosaceana. Virgins had undetectable levels of JH in their hemolymph on the 5th day of the pupal stage but titers rose to 1-4 and 0.2-0.5 ng JH II eq./ml, respectively, after emergence. On days 1, 3 and 5 following copulation, females of both species had higher JH titers than virgins of the same ages, with the greatest difference between virgin and mated females observed on day 3 for C. fumiferana and on day 5 for C. rosaceana. This increase was apparently not the result of a male-to-female transfer of JH during copulation since: (i) the accessory sex glands (ASGs) of males of both species displayed a very limited ability to convert JH acid into JH, (ii) ASGs produced no JH when incubated in vitro in the presence of L-[methyl-(3)H]-methionine, (iii) ASGs of males injected with L-[methyl-(3)H]-methionine 24 h prior to dissection contained no JH-associated radioactivity, and (iv) freshly formed spermatophores dissected out of females mated to similarly injected males contained no trace of radioactive JH. In addition, the JH content of ASGs and spermatophores, as measured by RIA, was not higher than that of virgin-female hemolymph, on a per-mg basis. However, in contrast with earlier findings in other species of moths, the CA of male C. fumiferana and C. rosaceana maintained in vitro in the presence of tritiated methionine produced and released JH I, JH II and JH III in quantities and proportions similar to those reported for female glands.     

Occurrence and metabolism of prostaglandins in the housefly,Musca domestica (L.)

Prostaglandins (PGs) of the E and F series were quantified in the housefly by radioimmunoassay (RIA). Whole insects and reproductive tissues from both sexes contained PGE₍₁₊₂₎ and PDG_2α which increased in amount with age. PGF_2α levels were higher than PGE series in extracts of whole male and female insects and in ovaries. Male reproductive tissues contained higher amounts of PGE₍₁₊₂₎ than PGF_2α. Gas chromatographic-mass spectrometric (GC-MS) analyses of the products formed after injection of arachidonic acid (20:4) and eicosatrienoic acid (20:3, n-6) into male and femal insects demonstrated the conversion of 20:4 to PGF_2α and 20:3 to PGF_1α. Radiolabeled 20:4 injected into houseflies was rapidly converted to PGE₂ and PGF_2α. The catabolism of PGE₂ was more rapid than PGF_2α in males, whereas in females, PGE₂ and PGF_2α were converted to more polar products at similar rates. Radiolabeled 20:4 injected in the hemolymph was incorporated into the reproductive tracts of male insects. About 2.1% of the total radioactivity from [³H]20:4 injected into males just prior to mating was transferred to females during mating. Thus, PG are formed from 20:4 in male and female houseflies. During mating, 20:4 is transferred from males to females where it can be metabolized to PGF_2α.     

Ecdysteroid titre and metabolism to novel apolar derivatives in adult female Boophilus microplus (Ixodidae)

The free ecdysteroid titre determined by radioimmunoassay in adult female Boophilus microplus showed a peak just prior to full engorgement and detachment of the ticks and decreased subsequently to a very low value. In contrast, the titre of polar ecdysteroid conjugates was very low. Ecdysone was the major ecdysteroid at peak titre and was accompanied by much lower levels of 20-hydroxyecdysone. In newly detached ticks, injected [³H]ecdysone was metabolized primarily (80%) into much less polar compounds, which could be resolved into at least three groups by reversed-phase h.p.l.c. These [³H] “apolar” metabolites were transferred to the newly laid eggs, where they accounted for the vast preponderance of ecdysteroids, the level of free hormone being low. Hydrolysis of the three groups of compounds with an esterase preparation from porcine liver yielding [³H]ecdysone, together with the release of [³H] ecdysteroid and fatty acids upon alkaline saponification of the compounds, suggests that they are of a fatty acyl ester nature. The chemical transformation of these “esters” into the corresponding acetonide derivatives indicates that the 2- and 3-hydroxyls of ecdysone remain unsubstituted in these compounds. Several tick tissues, including Malpighian tubules, ovaries, gut, and fat body, metabolized [³H]ecdysone in vitro forming the “apolar esters” as major products. The maternal ecdysteroid “esters” may function as storage forms of hormone (presumably hormonally inactive), which could be hydrolysed enzymically during embryogenesis releasing free ecdysteroids. Such enzymic hydrolysis of [³H]ecdysone “esters” by homogenates from developing eggs of B. microplus has been demonstrated.     

Sex dimorphism in the thyroid gland. IV. Cytologic aspects of sex dimorphism in the rat thyroid gland

This study was designed to explain whether the sex-dependent differences in the structure of the thyroid gland of adult male and female rats depend on quantitative or qualitative changes in the thyroid follicular cells. Absolute thyroid gland weight was similar in male and female rats, but its relative weight was markedly higher in females however. Volume fractions of epithelium and stroma were higher and that of colloid lower in male than in female rats and the epithelium/colloid ratio was higher in the males. Also absolute the volumes (in mm3) of epithelium and stroma were higher in the males; the thyroid gland of females contained more colloid. The average volume of a thyroid follicular cell, estimated by stereology, was higher in males than in females, although the thyroid gland contained similar numbers of follicular cells in both sexes. Also, thyroid glands from both male and female rats contained a similar DNA quantity. Results of the present study show that the sex dimorphism in the rat thyroid depends upon a difference in the mean volume of thyroid follicular cells, with males having larger cells than females. However, in both sexes the thyroid gland contains a similar quantity of these cells.