Specific glucocorticoid binding in human uterine tissues, placenta and fetal membranes

The binding of [3H]dexamethasone to cytosol fractions of human myometrium, endometrium, decidua, chorion, amnion and placenta has been studied. All tissues examined contained high affinity, low capacity binding sites with high specificity for glucocorticoids. Maximum specific binding of [3H]dexamethasone was reached after about 10 h at 0-4 degrees C and remained stable for at least the next 12 h. Sucrose density gradient analysis showed that the binding macromolecules sedimented at 7.9 S in hypotonic solutions and at 4.35 in solutions containing 0.4 M KCl. In the presence of sodium molybdate, the sedimentation coefficients shifted both in the absence and presence of 0.4 M KCl to 8.9 and 5.7 S, respectively. The apparent equilibrium dissociation constants (Kd) of the glucocorticoid binding sites were similar in most tissues, ranging between 1 and 6 nM, with the exception of the placenta in which the binding sites showed a higher Kd (13-22 nM). In all tissues studied, the binding affinities were similar in nonpregnant and pregnant patients and in patients at different stages of pregnancy or in labor. The concentration of the binding sites in the different tissues ranged from 11 to 268 fmol/mg protein, higher concentrations being found in myometrium, placenta and amnion and lower concentrations found in endometrium, chorion and decidua. The number of binding sites was higher in the myometrium of nonpregnant than pregnant women, but was similar in the myometrium of women at term pregnancy before or during labor. In the placenta, the number of binding sites increased significantly from early pregnancy to midpregnancy, while in chorion, amnion and decidua the number of binding sites did not change during pregnancy. It is concluded that human uterine tissues, placenta and fetal membranes contain specific binding sites with properties characteristic of glucocorticoid receptors suggesting that these tissues may respond directly to glucocorticoids.     

Enzyme immunoassay of oestrogen and progesterone receptors in uterine and intrauterine tissue during human pregnancy and labour

Oestrogen and progesterone receptors were studied in the non-pregnant state, in early pregnancy and at term using monoclonal antibody enzyme immunoassays. Receptors for both steroids were found in tissues from non-pregnant patients and patients in early pregnancy. At term oestrogen receptors were undetectable in all tissues studied. Progesterone receptors were undetectable in chorion, amnion and placenta at term, while present in extremely low concentrations in decidua and myometrium.     

Expression of renin and angiotensinogen genes in the human placental tissues

The expression of renin and angiotensinogen genes in the human placenta and related tissues has been examined by RNA blot hybridization analysis with specific human complementary DNA (cDNA) probes. Renin mRNA was detectable in the chorion throughout pregnancy and in the hydatidiform moles, but not in the decidua, amnion or myometrium. The relative concentration of renin mRNA in the chorion was at the highest level in early pregnancy and decreased thereafter, while the total amount contained in the whole placenta was at the lowest level in early pregnancy, and increased thereafter, reaching at term about one-sixth of the total renin mRNA in the kidney. Hydatidiform moles had an even higher concentration of renin mRNA than the early chorion. There was no significant difference in either the relative concentration or the total renin mRNA content in the placentae from 4 normal and 4 toxemic pregnancies. Angiotensinogen mRNA was undetectable in any of the placental tissues, hydatidiform moles or myometrium. These results show that renin is synthesized in the placenta, possibly to play some physiological role locally by utilizing angiotensinogen which is abundantly present in the maternal systemic circulation.     

Phospholipase A activity in human and ovine uterine tissues

Phospholipase A was assayed in crude lysosomal fractions of human decidua, amnion, chorion and myometrium. Activity was present in all the tissues and was highest in decidua and amnion which contained enzymes with pH optima of 6.5 – 8.0 and 7.2 respectively. Comparison of the activities in tissues obtained before labor with others obtained during labor showed no differences. In sheep, the fetal membranes contained a greater activity of phospholipase A than placenta and myometrium. Stimulation of the fetal adrenals with corticotrophin caused a marked increase in activity in both amnion and chorioallantois. It is concluded that the human amnion and the ovine amnion and chorioallantois could participate in the biosynthesis of prostaglandins by releasing stored arachidonic acid.     

Steroid production by dispersed cells from fetal membranes and intrauterine tissues of sheep

The hypothesis was examined that the fetal membranes and the endometrium and myometrium of pregnant sheep have the ability to produce oestrogens and progesterone from exogenous precursors, and that this capacity might change during the course of pregnancy, and in relation to the onset of parturition. Cells were dispersed from samples of myometrium, endometrium, allantois, chorion and amnion from sheep at Day 50, Days 130-135 of pregnancy, and at term, in labour, and were incubated in the presence of pregnenolone and 20 alpha-dihydroprogesterone as potential precursors for progesterone production, and oestrone sulphate and androstenedione as potential precursors for oestrogen production. In addition, the metabolism of radioactive progesterone and oestrone sulphate by the dispersed cells was examined. Pregnenolone was converted to progesterone in significant amounts by dispersed cells from chorion and endometrium only. At Day 130 and at term this conversion was blocked by the addition of trilostane, an inhibitor of 3 beta-hydroxysteroid dehydrogenase activity. There was no significant change in the net production of progesterone from exogenous pregnenolone with gestation. 20 alpha-Dihydroprogesterone was converted to progesterone by all tissues, and at each stage of gestation. Formation of progesterone from 20 alpha-dihydroprogesterone was invariably greater than that from pregnenolone, but did not change with pregnancy. Oestrone sulphate was converted to oestrone and oestradiol by all tissues. In the myometrium and chorion this conversion was lower at term than at Day 50 of pregnancy. In contrast, there was very little conversion of androstenedione to unconjugated oestrogen, minimal activity being demonstrable only in dispersed cells from the chorion in some preparations. Radioactive progesterone was converted to radiochemically pure 17 alpha-hydroxyprogesterone by chorion, and to radiochemically pure 20 alpha-dihydroprogesterone by amnion, chorion, allantois and endometrium obtained at term pregnancy. At term [3H]oestrone sulphate was converted to radiochemically pure oestrone by all tissues. We conclude that there is a tissue-specific distribution of different steroid metabolizing enzyme activities in the fetal membranes and intrauterine tissues of pregnant sheep. Of the substrates examined, 20 alpha-dihydroprogesterone and oestrone sulphate were preferred for progesterone and oestrogen production, respectively.(ABSTRACT TRUNCATED AT 400 WORDS)     

Antiprogestagenic inhibition of uterine prostaglandin inactivation: a permissive mechanism for uterine stimulation

The use of antiprogestins as abortifacients is more effective when antiprogestin priming is followed by the administration of a small dose of synthetic prostaglandin. This increased myometrial sensitivity towards PG has not been explained and experiments in the guinea-pig where no myometrial activity is observed after 48 h of antiprogestin administration together with measurements of PG metabolites in uterine vein blood have given rise to the suggestion that prostaglandin synthesis is inhibited by antiprogestins. We have treated groups of 50 day pregnant guinea-pigs with 10 mg RU486 or vehicle alone and examined the ability of homogenised uterine tissues (myometrium/decidua, cervix, chorion and amnion) to metabolize PGE when given a large excess of substrate and sufficient cofactors. In addition we have examined the ability of these homogenates to synthesis PG. Antiprogestin treatment in vivo resulted in a 9-fold reduction in metabolic activity in chorion (P less than 0.02) and a 4-fold reduction in myometrium/decidua (P less than 0.02). Reduction in activity seen in amnion and cervix was not significant. The maximum metabolism was seen in the chorion and minimal metabolism in the amnion. Maximum PG production was seen in the amnion and minimum in the chorion. These results show that the effect of antiprogestin in reducing prostaglandin catabolism would reduce the threshold above which PG production would cause contractions which would in turn stimulate PG production. Thus an explanation is provided of how low doses of exogenous PGs or transient synthesis of endogenous PG within an antiprogestin treated uterus can led to a self sustaining cycle of stimulation which will lead to abortion.     

Metabolism of prostaglandins E2 and F2 alpha by human fetal membranes.

Prostaglandin E2 (PGE2) is important in the early stages of human labour, leading particularly to cervical ripening and dilatation. The source of PGE2 is thought to be either the amnion or the decidua, but the chorion interposes between the amnion and the target tissues, namely the myometrium and cervix. In order to investigate the role of the chorion in modulating prostanoid production, [3H]PGE2 was added to the amnion side of fetal membranes, and the production of metabolites on both sides of the fetal membrane followed by HPLC. The major metabolite was 13,14-dihydro-15-oxo-PGE2 with smaller amounts of 13,14-dihydro-15-oxo-PGA2 and PGB2. The production of all metabolites of PGE2 was time dependent. [3H]PGF2 alpha, which is normally produced by the decidua, was also added to fetal membranes and found to be metabolised to 13,14-dihydro-15-oxo-PGF2 alpha and PGE2. These results suggest that the metabolic enzymes in the chorion may determine intra-uterine levels of prostaglandins, and may also determine the identity of the eicosanoids released by intact fetal membranes.     

Phospholipase A activity in human and ovine uterine tissues.

Phospholipase A was assayed in crude lysosomal fractions of human decidua, amnion, chorion and myometrium. Activity was present in all the tissues and was highest in decidua and amnion which contained enzymes with pH optima of 6.5-8.0 and 7.2 respectively. Comparison of the activities in tissues obtained before labor with others obtained during labor showed no differences. In sheep, the fetal membranes contained a greater activity of phospholipase A than placenta and myometrium. Stimulation of the fetal adrenals with corticotrophin caused a marked increase in activity in both amnion and chorioallantois. It is concluded that the human amnion and the ovine amnion and chorioallantois could participate in the biosynthesis of prostaglandins by releasing stored arachidonic acid.     

In vitro production of prostaglandins E,F, and 6-KETO prostaglandin F1α by human pregnant uterus,decidua and amnion

The production of prostaglandins (PGs) E and F and 6-keto PGF_1α was investigated by using human decidua, amnion, and pregnant myometrium obtained before and after onset of labor, and human nonpregnant myometrium collected during luteal phase. PGs produced were measured by radioimmunoassay developed in our laboratory. The radioimmunoassay for 6-keto PGF_1α is specific and accurate. PGE was formed at an almost constant rate regardless of the condition under which the three tissues tested were obtained, with the amnion showing the highest activity compared with decidua and myometrium. PGF production increased remarkably during labor in the myometrium and decidua but not in the amnion. In the myometrium during labor, PGF levels were three times higher than before labor. The pregnant myometrium produced more PGs than the nonpregnant myometrium. The production of 6-keto PGF_1α, a stable, nonenzymatically formed derivative of PGI₂, was observed to be much higher in the pregnant myometrium than in decidua, amnion, or nonpregnant myometrium. Contrary to the pattern of PGF production, 6-keto PGF_1α was lower during labor. The physiological significance of PG production by decidua, amnion, and myometrium in relation to parturition is discussed.     

Estrogen sulfatase and steroid sulfatase activities in intrauterine tissues of the pregnant guinea pig

The possible role of intrauterine estrogen sulfatase and steroid sulfatase around the time of parturition in the guinea pig was investigated. [3H]Estrone sulfate or [3H]pregnenolone sulfate was incubated with intrauterine tissues. Estrogen sulfatase was found in placenta, endometrium, decidua basalis, amnion and chorion. The presence of steroid sulfatase was established in endometrium and decidua basalis but not in placenta or the fetal membranes. Examination of activities in early (days 32-35), mid (days 44-46) and late (within 5 days of parturition) gestation revealed no significant change in estrogen sulfatase specific activity in decidua basalis. However, in chorion and endometrium this activity was seen to increase approx. 12-fold (P less than 0.001) and 2.8-fold (P less than 0.001), respectively, from early to late gestation. In placenta, estrogen sulfatase activity appeared to increase 2.4-fold (P less than 0.001) and in amnion it decreased 2.8-fold (P less than 0.002). Steroid sulfatase activity in decidua basalis did not change during gestation, while activity in endometrium was found to increase by a factor of 5.3 (P less than 0.001), from early to late gestation. The increases, both in estrogen sulfatase activity in chorion, endometrium and placenta and in steroid sulfatase activity in endometrium, occurred primarily within the final 3 weeks of gestation. In contrast, the decrease in estrogen sulfatase activity in amnion occurred principally between the fifth and sixth weeks of gestation. Analysis of radiolabelled metabolites indicated that estradiol and progesterone could be produced via estrogen sulfatase and steroid sulfatase activities in certain tissues. Subcellular fractionation of tissues revealed that the greatest specific activity and total activity, in all cases, was associated with the 105,000 g pellet. Significant activity was also detected in the 750 and 10,000 g pellets but not in the 105,000 g supernatant. Radioimmunoassay of endogenous estradiol-17 beta (estradiol) in chorion extracts revealed a 6.3-fold increase in the hormone from mid to late gestation. Estradiol levels in endometrium and myometrium did not appear to change during this time. It was concluded that increased estrogen sulfatase activity in guinea pig chorion in late gestation occurs along with elevated levels of the hormone estradiol which may be important for parturition in this species.     

Local stimulation of prostaglandin production by corticotropin-releasing hormone in human fetal membranes and placenta

Corticotropin-releasing hormone is produced by the human placenta and fetal membranes, but its physiological significance is not established. We examined the possibility that CRH might affect prostaglandin output by these intra-uterine tissues. Primary cultures of amnion, chorion, decidua and placenta were established from tissue obtained from women at term elective cesarean section were maintained in the presence of increasing concentrations of synthetic hCRH. PG output at 48h was measured by radioimmunoassay. hCRH stimulated PGE2 output by amnion, chorion and placenta, but not by decidual tissue. PGF2 alpha output was stimulated in amnion, decidua and placenta but not chorion, whereas output of 13, 14-dihydro-15-keto PGF2 alpha was stimulated in all four tissues. We conclude that hCRH stimulates prostaglandin output by human placenta, decidua and the fetal membranes, raising the possibility of paracrine or autocrine interactions between CRH and prostaglandins in vivo.     

Stimulation of myometrial and decidual prostaglandin production by amniotic fluid from term,but not midtrimester pregnancies

The effect of amniotic fluid obtained from second trimester (16–20 wks) and term pregnancies (38–41 wks) on the production of PGE and F by human amnion, decidua and myometrium at term was determined using tissue slices incubated in vitro. Midpregnancy amniotic fluid neither inhibited nor stimulated the prostanoid production by any of the tissues. In contrast, term amniotic fluid obtained before as well as after the onset of labor markedly increased the production of both PGE and PGF in decidua and myometrium from levels in Krebs solution. The prostanoid production (PGE + PGF) in amnoin was not significantly increased but the proportion of PGF was raised during incubations in term amniotic fluid. In decidua and myometrium the increase in PGE and PGF production in term amniotic fluid was approximately 200 and 400 percent respectively, from control values in Krebs solution. We propose that the stimulatory activity in term amniotic fluid in responsible for the accelerated synthesis of prostaglandins after of membranes, which is reflected in raised PGF metabolite levels in maternal circulation. It may also be the reason for the rise in amniotic fluid prostaglandin levels around the 35th week of gestation, and perhaps for the onset of labor.     

Initiation of human parturition—VII partial characterization of progesterone metabolizing enzymes of human amnion and chorion laeve

The kinetics of the metabolism of progesterone by the reducing enzymes present in the human fetal membranes was evaluated utilizing tissue samples obtained from early and late pregnancies. The specific activities of 5α-reductase, 3β- and 20α-hydroxysteroid oxidoreductase were greater in amnion and chorion laeve tissue obtained from a 16 weeks pregnancy than in those obtained from a 36 1/2 week and from a term pregnancy. Amnion and chorion laeve tissue 20α-hydroxysteroid oxidoreductase enzymes utilized either NADH or NADPH as the source of reducing equivalents (K_m = 0.2–0.3 mM) while amnion tissue 5α-reductase activity required NADPH as the obligatory cofactor (K_m = 0.1mM). The apparent pH optima for the 20α-hydroxysteroid oxidoreductase present in amnion and chorion laeve tissues were similar, while the apparent pH optima for the 5α-reductase enzyme was slightly higher in chorion laeve than in amnion tissue. In 15 min incubations, the apparent maximal activity of amnion 5α-reductase was found at a temperature of 49°C. whereas chorion laeve tissue 3β- and 20α-hydroxysteroid oxidoreductase had maximal activity at 37°C. From progesterone saturation kinetics an apparent K_m of 0.20–0.25 mM for amnion and chorion laeve 20α-hydroxysteroid oxidoreductase, and an apparent K_m of 0.4–1.2 μM for amnion and chorion laeve tissue 5α-reductase activity was computed. Amnion 5α-reductase activity appeared to be particulate in nature.     

Specific production of prostaglandin E by human amnion in vitro

Prostaglandin production by intra-uterine human tissues has been investigated using a method of tissue superfusion. Tissues were obtained at elective Caesarean section and after spontaneous vaginal delivery. It was found that all the tissues studied (amnion, chorion, decidua and placenta) produced more prostaglandin E (PGE) and 13,14-dihydro-15-keto-prostaglandin F (PGFM — the major circulating metabolite of prostaglandin F) than prostaglandin F (PGF). Amnion produced significantly more PGE (but not PGF or PGFM) than any other tissue. Prostaglandin production by each tissue was similar whether it was taken at elective Caesarean section or after spontaneous vaginal delivery.     

Study of oxytocin receptor: II. oxytocin and prostaglandin F2 alpha receptors in human myometria and amnion-decidua complex during pregnancy and labor

Oxytocin receptors (OXT-R) and prostaglandin F2 alpha receptors (PGF2 alpha-R) in human myometrium, amnion and decidua during pregnancy and at parturition were examined in an effort to clarify their role in the initiation and maintenance of uterine contractions. The number of binding sites for OXT in myometria showed an increase as gestation advance (Ist trimester v.s. at term; 205 +/- 90 v.s. 671 +/- 98 fmol/mg protein, N = 5, p less than 0.01), and a rapid decrease following the onset of labor (254 +/- 60 fmol/mg protein, N = 5, p less than 0.02). On the other hand the number of PGF2 alpha-R, remained unchanged throughout pregnancy and in labor. This myometrial PGF2 alpha binding capacity was approximately 1/20 to 1/30 that of the OXT binding, while binding affinity was almost equal. The OXT-R both in amnion and decidua, which was 1/6 to 1/7 that in myometrium, showed no significant changes throughout pregnancy or after the onset of labor. Binding affinity for each tissue was almost the same and appeared to increase towards term but no statistical significance was detected. Present data confirmed the presence of OXT as well as PGF2 alpha receptors in the three functionally distinct entities of pregnant human uterus; myometrium, amnion, and decidua. Among the components, the OXT binding increased only in the myometrium during pregnancy, suggesting this tissue specifically responds to OXT. In contrast, there was a constant binding in myometria for PGF2 alpha.(ABSTRACT TRUNCATED AT 250 WORDS)     

Decreased concentrations and affinities of oestrogen and progesterone receptors of intrauterine tissue in human pregnancy

Cytoplasmic and nuclear receptors for oestrogen and progesterone were measured in non-pregnant myometrium and endometrium and compared to concentrations found in decidua of ectopic pregnancy (6-8 weeks gestation) and therapeutic abortions (8-16 weeks). Amnion, chorion, placenta, decidua and myometrium at full term pregnancy were also assayed for the same receptors. High affinity binding was confirmed in the non-pregnant tissue; in early pregnancy, decreases in concentrations of cytoplasmic receptors were demonstrated, these decreases becoming more marked as pregnancy progressed in the 1st trimester. Nuclear receptor concentrations were not significantly different. Significant decreases in the occurrence of positive receptors with the progression of pregnancy were also demonstrated for cytoplasmic and nuclear oestrogen and nuclear progesterone receptors. Tissue at full term pregnancy had no detectable receptors, irrespective of whether the patients were in labour or not. Increasing the range of the labelled steroids failed to demonstrate any low affinity binding sites and pre-assay removal of endogenous hormones also had no effect on receptor status. When endogenous hormones were removed, displaceable binding was demonstrated in the presence of excess unlabelled ligand. However, this binding did not conform with receptor dynamics on Scatchard analysis. Heating the cytosol prior to assay or failure to remove endogenous steroid hormones eliminated this binding. Cytosolic oestrogen and progesterone levels increased significantly in the decidua of therapeutic abortions, whilst term pregnant tissue had the highest concentration of endogenous hormones.     

Tissue-specific concentration changes of estrone and estradiol during spontaneous and ACTH-induced parturition in sheep

Changes in estrogen production are considered important in the sequence of events leading to parturition. We sought tissue-specific changes in the concentration of unconjugated estrone (E1) and estradiol (E2) in intrauterine fetal (amnion, chorion) and maternal (endometrium, myometrium) tissues during normal pregnancy, labour, and ACTH-induced labour in sheep. The mean concentrations of E1 and E2 in the fetal membranes were higher than in endometrium and myometrium. In amnion there were no consistent changes in estrone concentrations with gestation, although estradiol concentrations increased between day 130 and term. In the endometrium there were increases in both estrone and estradiol between day 100 and term, whereas in the myometrium increases in the concentrations of E1 and E2 occurred between days 130-135 and term. Animals showing a labourlike pattern of uterine contractions after intrafetal ACTH administration did not show significant differences in estrone or estradiol concentrations in amnion, chorion, or endometrium compared with saline-infused controls. However, there was a progressive increase in the concentration of estrone and estradiol in the myometrium during ACTH-induced labour. We conclude that changes in the concentrations of estrone and estradiol in intrauterine tissues vary between the tissues studied and the two estrogens. In general, estrogen concentrations increased towards term, but this trend was more marked in the maternal than fetal tissues. The changes in estrone concentrations in myometrium, but not in the other tissues, were replicated during ACTH-induced labour. Our results would be compatible with the suggestion that tissue-specific changes in estrogen concentrations may contribute to the local intrauterine steroid milieu during pregnancy and at term.     

Prostaglandin dehydrogenase mRNA in baboon intrauterine tissues in late gestation and spontaneous labor

The present study was designed to characterize prostaglandin dehydrogenase (PGDH) mRNA expression in critical intrauterine tissues of pregnant baboons in late gestation and at spontaneous labor. In addition, we determined regulatory effects of betamethasone in vivo on chorionic and placental PGDH mRNA expression. PGDH mRNA was present in chorion, decidua, lower uterine segment, fundal myometrium, and cervix in late gestation but undetectable in amnion. PGDH mRNA significantly decreased in decidua and cervix during late gestation and in chorion and fundus during spontaneous labor. PGDH mRNA in lower uterine segment, decidua, cervix, and placenta was unchanged during spontaneous labor from late gestation levels. Betamethasone had no effect on chorionic and placental PGDH mRNA expression. In summary, our data suggest that PGDH mRNA expression is tightly controlled in gestation- and tissue-specific manners. Decreased chorionic and fundal PGDH abundance during labor and decreased decidua and cervical PGDH mRNA in late gestation allow local uterine prostaglandin accumulation and assist prostaglandin transfer to myometrium. Local differences in PGDH function may regulate tissue- and region-specific requirements for prostaglandins to promote and complete labor.     

The expression of interleukin-15 and interleukin-18 by human term placenta is not affected by lipopolysaccharide

The aim of the study was to examine the stimulatory effect of the inflammatory agent lipopolysaccharide (LPS) on the capacity of human term placenta to secrete interleukin (IL)-15 and IL-18. Isolated placental cotyledons from normal human term deliveries were dually perfused for ten hours with perfusion medium alone (n=5) or with perfusion medium containing LPS (1 microg/kg perfused placental tissue) (n=5). Placental tissue was collected from three different placental compartments (amnion, chorion, and placenta) before and after perfusion. The placental tissues collected were homogenized and examined for IL-15 and IL-18 by ELISA. In addition, formalin-fixed and paraffin-embedded sections from term placentas before perfusion were stained by immunohistochemistry to characterize the cellular origin of placental IL-15 and IL-18. Statistical significance was determined using paired/unpaired t-test. p<0.05 was considered significant. Our results show that IL-15 and IL-18 are produced more by chorionic tissue, as compared to the amnion and placental tissues. Moreover, we show that IL-15 and IL-18 are expressed by epithelial cells of the amnion, chorionic cells of the chorion and decidual cells of the decidua. However, IL-15, but not IL-18, was expressed also by syncytiotrophoblasts of the villi. Perfusion of LPS did not affect the capacity of amnion, chorion and placental tissues to secrete IL-15 and IL-18, as compared to control. The expression of IL-15 and IL-18 in the different compartments of the human placenta suggests a possible role for these two cytokines in normal placental development, pregnancy and labor. Moreover, our results indicate that IL-15 and IL-18 are not part of the mechanism of the response of human placenta to LPS.     

Lipopolysaccharide induces the expression of interleukin-1alpha distinctly in different compartments of term and preterm human placentae

The aim of the study was to investigate the stimulatory effect of lipopolysaccharide (LPS) on IL-lalpha production in different compartments of term and preterm placental tissues. Homogenates from amnion, chorion, and from fetal (subchorionic placental tissues, maternal decidua, and mid-placental tissue before and after perfusion of isolated placental cotyledons of 5 term placentas and 4 placentas obtained after preterm birth (28-34 W of gestation) were examined. Isolated placental cotyledons were dually perfused LPS (100 ng/kg perfused placental tissue) was perfused into the maternal side during 10 hours. Homogenates of the samples were examined by ELISA for IL-1alpha levels, and paraffin sections of the samples were stained by immunohistochemical staining, to characterize the cellular origin of placental IL-1alpha. Paired t test and ANOVA determined statistical significance. In the homogenates, there was a tendency towards higher IL-lalpha levels in all preterm placental compartments as compared to the term compartments before perfusion. A significant increase was observed only in the chorion compartment (p = 0.035). LPS had significantly increased IL-la levels only in the decidua compartment of term placentas as compared to other placental compartments (p = 0.0004), and had decreased IL-1alpha levels in the mid-placenta (p = 0.034). In preterm placentas, addition of LPS did not affect the expression levels of IL-1alpha in either fetal or maternal compartments as determined by ELISA and immunohistochemical staining. IL-la levels in the chorion compartment of preterm placenta were significantly higher as compared to term placenta. LPS affects placental tissues of term and preterm placentas differently. Also, in the term placentas, LPS affected the different compartments differently. Thus, IL-1alpha may have a key role (as a autocrine/paracrine factor) in the regulation of normal and pathological pregnancy and parturition.