Histologic changes in traumatized skeletal muscle exposed to seawater: a canine cadaver study.

Wounds were created by incision in skeletal muscle of 2 mixed-breed canine cadavers at multiple time points from 0.5 to 74.5 hours postmortem and were exposed to artificial seawater (35 parts per thousand), 0.9% saline (8 parts per thousand), or freshwater for 24 hours before fixation for histology. Discoid and segmental disintegration of myofibers deep to the severed edges was observed in injuries inflicted within 6.5 hours of death and exposed to 0.9% saline and seawater and was not observed in injuries made at later time points or in other treatments. Exposure to artificial seawater had pronounced effects on histomorphology that markedly diminished with increasing postmortem wounding interval. In a third cadaver, these changes were shown to be detectable with confidence following up to 10 days of submergence in seawater at 22.2°C despite decomposition. These findings are important for evaluation of skeletal muscle injuries that are exposed to seawater, such as those occurring in marine animals, and may assist in recognizing wounds inflicted either antemortem or within the supravital period.

Characterization of spontaneous metastasis in an aggressive breast carcinoma model using flow cytometry.

Studies of metastasis can be accelerated and provide more mechanistic information using cell lines which reproducibly and aggressively metastasize, and which are accurately and easily detected in tissues at all stages of the metastatic process. Although reporter proteins such as green fluorescent protein (GFP) and beta-galactosidase have improved the tracking of tumor cells in vivo, their measurement has often been limited to visual observation and manual counting. In this study, we exploited the highly sensitive and objective quantitation provided by flow cytometry to characterize, in detail, the sequence of events associated with orthotopic metastasis in a highly aggressive mouse model. Following stable transfection of the MDA-MB-435 breast carcinoma cell line with GFP, we utilized an in vivo selection process to isolate a variant exhibiting increased primary tumor growth and metastasis. As few as one fluorescent tumor cell per 200,000 host cells could be accurately detected in dissociated tissues by flow cytometry, allowing us to demonstrate that metastatic cells migrate to the lungs of SCID mice very early after orthotopic implantation. Tumor burden in lungs increased in a smooth continuous manner, until death approximately eight weeks later. Levels of circulating tumor cells in blood were also detectable at an early timepoint, but remained relatively low throughout the course of secondary tumor development in the lungs. Surgical removal of the primary tumor at various times after inoculation significantly affected lung tumor burden, supporting the concept that circulating tumor cells in blood inefficiently initiate distal metastases. Furthermore, the continuing contribution to metastasis by the primary tumor was independent of tumor mass. The combined characteristics of enhanced orthotopic metastasis and quantitative detection in blood and tissues will make this a useful new model for the characterization of the multi-stage progression of cancer, and the preclinical evaluation of anti-neoplastic therapies.

Studies on selectin-carbohydrate interactions.

Recruitment of neutrophils to sites of inflammation is now believed to occur through an initial rolling interaction at the luminal surface of activated endothelium and is mediated by a class of mammalian lectins referred to as the selectins. Selectins recognize carbohydrate determinants on co-receptors. It is generally believed that many selectin molecules must bind to many carbohydrate receptor molecules i.e. multivalent binding, to enable sufficient binding strength to elicit the rolling response between the neutrophil and the endothelial cell. One of the approaches to the generation of more potent molecular antagonists of the selectin-mediated cell-cell interaction is to mimic the multivalent interaction in a single compound. Recent experiments utilising conjugated forms of sialyl Lewisx-BSA have explored this feasibility (Welply et al., 1994). In that study, monovalent sLex (sialic acid alpha 2-3Gal beta 1-4(Fuc alpha 1-3)GlcNAc), the minimum binding determinant for E-selectin, as well as monovalent sialyllactosamine (sialic acid alpha 2-3Gal beta 1-4GlcNAc), a non-binding structure, and the corresponding multivalent BSA-conjugated forms were tested for their ability to inhibit binding of HL-60 cells to immobilised E-selectin. As expected, only sLex and sLex-BSA were found to do so. sLex16-BSA (16 mol tetrasaccharide/mol BSA) showed a dose-dependent inhibition of HL-60 binding with a measured IC50 of 1 microM; demonstrating close to a three-order of magnitude enhancement of inhibitory activity compared to free sLex. This result indicated that multivalent forms of sLex are capable of binding to E-selectin with higher affinity than do monovalent glycans. In another study, fluorescent forms of monovalent sLex were synthesized and used to measure a true thermodynamic dissociation constant for the monovalent sLex:E-selectin interaction of 120 +/- 31 microM (Jacob et.al., 1995).

Intratracheal administration of endotoxin and cytokines: VIII. LPS induces E-selectin expression; anti-E-selectin and soluble E-selectin inhibit acute inflammation.

E-selectin is an inducible endothelial adhesion molecule that binds neutrophils. E-selectin mRNA is not constitutively detectable in the lungs of rats. Intratracheal injection of LPS induces pulmonary E-selectin mRNA expression at 2-4 h. Intratracheal injection of LPS followed at 2 and 4 h by intravenous injection of mouse F(ab')2 or F(ab') anti-E-selectin monoclonal antibody inhibits the emigration of neutrophils into the bronchoalveolar space at 6 h by 50-70%. TNF and IL-6 bioactivity are not decreased in bronchoalveolar lavage fluid after treatment with anti-E-selectin antibody as compared to controls, suggesting that the anti-E-selectin does not affect the magnitude of the LPS-initiated cytokine cascade. Intratracheal injection of LPS followed at 2 and 4 h by intravenous injection of soluble E-selectin inhibits neutrophilic emigration at 6 h by 64%, suggesting that endogenous soluble E-selectin shed from activated endothelium may play a role in the endogenous down-regulation of acute inflammation. E-selectin-mediated adhesion of neutrophils to endothelium appears crucial to the full development of the acute inflammation response.

Multivalent sialyl-LeX: potent inhibitors of E-selectin-mediated cell adhesion; reagent for staining activated endothelial cells.

Free, monovalent, SLeX (Neu5Ac alpha 2-3Gal beta 1-4(Fuc alpha 1-3)-GlcNAc), SLn (Neu5Ac alpha 2-3Gal beta 1-4GlcNAc) and corresponding BSA-conjugated forms--displaying different ratios of SLeX and SLn to protein--were tested for their ability to inhibit binding of HL-60 cells to immobilized E-selectin. Free SLeX and conjugated SLeX-BSA inhibited cell binding in a dose-dependent manner. SLn and SLn-BSA did not inhibit binding. SLeX16BSA (16 mol tetrasaccharide/mol BSA) and monovalent SLeX inhibited cell binding with measured inhibitory concentrations (IC50S) of 1 microM and 1 mM, respectively, demonstrating a three-order-of-magnitude enhancement of inhibitory activity with the multivalent form of SLeX. A SLex7BSA conjugate was 10-fold less potent than those with 11 or 16 mol SLeX/mol BSA. An assay which measured neutrophil rolling on interleukin (IL)-1 beta-activated human umbilical vein endothelial cells (HUVECs) showed 50% reduction in the number of rolling neutrophils in the presence of 1 microM SLeX16BSA, whereas the level of free, monovalent SLeX oligosaccharide required to produce the same effect was approximately 0.3 mM. SLeX-BSA was found to be an excellent reagent for staining endothelial cells expressing E-selectin. Biotinylated SLeX-BSA in conjunction with Texas red avidin-stained lipopolysaccharide (LPS)-activated HUVECs, and co-incubation of activated cells with anti-E-selectin, specifically blocked staining. The distribution of E-selectin, as determined by binding of SLeX-BSA, was virtually identical with that obtained by binding of anti-E-selectin antibody.(ABSTRACT TRUNCATED AT 250 WORDS)

In vitro and in vivo bioactivity of recombinant human follicle-stimulating hormone and partially deglycosylated variants secreted by transfected eukaryotic cell lines.

Recent studies have shown that Chinese hamster ovary (CHO) cells transfected with the FSH subunit genes secrete bioactive FSH. Here, we determined the in vitro and in vivo bioactivity of recombinant FSH produced by CHO mutant cells deficient in the glycosylation enzyme N-acetylglucosamine transferase-I (NAGT-), resulting in glycoproteins with asparagine-linked (GlcNAc)2(Mannose)5 oligosaccharides, or mutant cells defective in sialic acid transport into the Golgi (ST-). In the latter, glycoproteins are secreted lacking terminal sialic acids. Determination of in vitro bioactivity, using the granulosa cell aromatase bioassay, indicated that both FSH variants are as active as FSH secreted by the wild type (WT) cells and purified pituitary FSH. Also, these normal and variant forms of FSH are equipotent in a radioligand receptor assay using rat testis membranes. However, the variant FSH molecules are more basic than the WT FSH as determined using a chromatofocusing column (pI: wild type 3.6-5.0, NAGT- greater than 7.0, ST- approximately 6.0 and greater than 7.0). Injection of immature estrogen-treated rats with WT FSH induced high aromatase activity in their granulosa cells whereas treatment with either one of the FSH variants was ineffective; the lack of in vivo activity of the FSH variants was correlated with rapid clearance of these molecules in serum. Thus, recombinant human FSH produced by cells deficient in NAGT-I or defective in sialic acid transport retains normal receptor binding and in vitro bioactivity, but exhibits minimal in vivo activity and a shortened half-life when compared to WT FSH, indicating the important role of terminal sugars for FSH action in vivo.

The biological role of the carboxyl-terminal extension of human chorionic gonadotropin [corrected] beta-subunit.

hCG is a member of a family of glycoprotein hormones which share a common alpha-subunit, but differ in their hormone-specific beta-subunits. The CG beta-subunit is unique in that it contains a hydrophilic carboxyl-terminal extension with four serine O-linked oligosaccharides. To examine the role of the O-linked oligosaccharides and the carboxyl-terminal extension of hCG beta on receptor binding, steroidogenesis in vitro, and ovulation induction in vivo, site-directed mutagenesis and gene transfer methods were used. Wild-type hCG alpha and hCG beta expression vectors were transfected into an O-glycosylation mutant Chinese hamster ovary cell line to produce intact dimer hCG lacking the beta-subunit O-linked oligosaccharide units. In addition, a mutant hCG beta gene (CG beta delta T) was generated which contained a premature termination signal at codon 115. This gene was cotransfected with the hCG alpha gene into Chinese hamster ovary cells to produce hCG dimer which lacked the carboxyl-terminal amino acids 115-145 of hCG beta (truncated hCG). The O-linked oligosaccharide deficient or truncated hCG derivatives were examined for their ability to bind to the mouse LH/hCG receptor and stimulate cAMP and steroidogenesis in vitro. These studies show that the O-linked oligosaccharides and carboxyl-terminal extension play a minor role in receptor binding and signal transduction. In contrast, comparison of the stimulatory effects of truncated and wild-type hCG in a rat ovulation assay in vivo via either intrabursal or iv injection revealed that the truncated derivative was approximately 3-fold less active than wild-type hCG. These findings indicate that the carboxyl-terminal extension of hCG beta and associated O-linked oligosaccharides are not important for receptor binding or in vitro signal transduction, but are critical for in vivo biological responses.

Expression of recombinant human choriogonadotropin in Chinese hamster ovary glycosylation mutants.

Human CG, a member of the glycoprotein hormone family that includes LH, FSH, and TSH, is composed of two nonidentical subunits each containing two asparagine linked (N-linked) oligosaccharides. The role of the oligosaccharides in the action of these hormones is unclear. To examine the structure-activity relationships of the glycoprotein hormone oligosaccharides using nonenzymatic and nonchemical methods, we transfected CG subunit genes into mutant cell lines derived from Chinese hamster ovary cells. Two mutant cell lines that synthesize truncated oligosaccharides were used. Cell line 15B, lacking N-acetylglucosaminyltransferase I, synthesizes N-linked carbohydrates containing Man5 oligomannosyl structures, and 1021, defective in transporting CMP-sialic acid into the Golgi, results in sialic-acid deficient glycoproteins. The binding of these derivatives to the LH/CG receptor did not differ significantly from purified CG (CR119), but the ability of the mutant hormones to stimulate cAMP biosynthesis in vitro is reduced compared to wild-type CG or CR119. Since the amino acid sequence of CG from the mutant and wild-type cells is identical, these data indicate that oligosaccharide structures, while not influencing receptor binding, directly affect signal transduction.

Expression of biologically active human follitropin in Chinese hamster ovary cells.

To study the structure-function relationships of follitropin (FSH), we expressed the hormone in a heterologous cell system. A genomic clone bearing a 3.7-kilobase FSH beta insert containing the entire coding sequence was transfected alone or together with the alpha subunit gene into Chinese hamster ovary cells and stable lines expressing either FSH beta or FSH dimer were selected. Pulse-chase experiments revealed that, when transfected alone FSH beta was very slowly secreted similar to lutropin beta and thyrotropin beta but unlike choriogonadotropin beta which is efficiently secreted. However, cotransfection of the FSH beta and alpha subunit genes resulted in "rescue" of the beta subunit and rapid secretion of dimer. These data support the hypothesis that the glycoprotein hormones of pituitary origin have determinants for secretion that differ from those on the placental hormone, choriogonadotropin. Recombinant FSH stimulated steroidogenesis comparable to purified human FSH isolated from pituitaries in an in vitro rat granulosa cell assay and appears more homogeneous by chromatofocusing. Human FSH produced by this cell line provides a source of bioactive FSH for experimental and clinical use.

Site specificity of the chorionic gonadotropin N-linked oligosaccharides in signal transduction.

The role of the human chorionic gonadotropin (hCG) N-linked oligosaccharides in receptor binding and signal transduction was analyzed using site-directed mutagenesis and transfection studies. hCG derivatives with alterations at individual glycosylation sites were expressed in Chinese hamster ovary cells. Receptor binding studies showed that absence of any or all of the hCG N-linked oligosaccharides had only a minor effect on the receptor affinity of the derivatives. Similarly, absence of the N-linked oligosaccharides from the beta subunit or a single oligosaccharide from Asn-78 of alpha had no effect on the production of cAMP or on steroidogenesis. However, the absence of carbohydrate at Asn-52 of alpha decreases both the steroidogenic and cAMP responses. Furthermore, absence of this critical oligosaccharide unit on alpha unmasks differences in the two N-linked oligosaccharides on beta; the beta Asn-13 oligosaccharide but not the beta Asn-30 oligosaccharide plays a more important role in steroidogenesis. Dimers containing deglycosylated beta subunit and an alpha subunit lacking either the Asn-52 oligosaccharide or both oligosaccharides fail to stimulate cAMP or steroid formation. Moreover, these derivatives bind to receptor and behave as competitive antagonists. The use of site-directed mutagenesis was critical in uncovering site-specific functions of the hCG N-linked oligosaccharides in signal transduction and reveals the importance of the Asn-52 oligosaccharide in this process.

Interaction of the antiestrogen [3H]H1285 with the two forms of the molybdate-stabilized calf uterine estrogen receptor.

The high affinity antiestrogen [3H]H1285 bound to the cytosol calf uterine estrogen receptor dissociated very slowly (t 1/2 approx 30 h at 20 degrees C) and did not demonstrate a change in dissociation rate in the presence of molybdate, which is characteristic of [3H]estradiol-receptor complexes. [3H]H1285-Receptor complexes sediment at approx 6S on 5-20% sucrose density gradients containing 0.3M KCl with or without 10 mM molybdate. This is in contrast to [3H]estradiol-receptor complexes which sedimented at approx 4.5S without molybdate and at approx 6S with molybdate. These results suggest a physicochemical difference in the estrogen receptor when occupied by antiestrogens versus estrogens. We recently reported that the cytoplasmic uterine estrogen receptor, when bound by estradiol and prepared in 10 mM molybdate, eluted from DEAE-Sephadex columns as Peak I (0.21 M KCl) & Peak II (0.25 M KCl). However, [3H]H1285 bound to the estrogen receptor eluted only as one peak at 0.21 M KCl, also suggesting that the initial interaction of antiestrogens with the estrogen receptor is different. We have extended these studies and report that H1285 can compete with [3H]estradiol for binding to both forms of the estrogen receptor and [3H]H1285 can bind to both forms if the unoccupied receptor is first separated by DEAE-Sephadex chromatography. However, if the receptor is first bound by unlabeled H1285, eluted from the column and post-labeled by exchange with [3H]estradiol, only one peak is measured. Thus, it appears that H1285 binding alters the properties of the receptor such that all receptor components seem to elute as one form. These partially purified [3H]H1285-receptor complexes obtained from DEAE-Sephadex columns sedimented as 5.5S in sucrose density gradients in contrast to the sedimentation values for the [3H]estradiol-receptor components eluting as Peak I (4.5S) and Peak II (6.3S). These differences in the physicochemical characteristics of the estrogen receptor when bound by estrogen versus antiestrogens may be related to some of the biological response differences induced by these ligands.

Interaction of the radiolabelled high-affinity anti-oestrogen [3H]H1285 with the cytoplasmic oestrogen receptor.

The high-affinity triarylethylene anti-oestrogen H1285 [4-(NN-diethylaminoethoxy)-beta-ethyl-alpha-(p-hydroxyphenyl) -4'-methoxystilbene] was tritiated to high specific radioactivity (35 Ci/mmol). Competition experiments between [3H]H1285 and H1285 or oestradiol demonstrated that both compounds would compete with [3H]H1285 for oestrogen-specific binding sites in rat uterine cytosol. [3H]H1285 had at least 10 times the affinity for the receptor compared with oestradiol at the 50% competition level. [3H]H1285 appeared to have at least twice the association rate for the oestrogen receptor compared with [3H]oestradiol. In addition, the dissociation half-life (t1/2) of specific binding of [3H]H1285 to oestrogen receptors at 0 degrees C was about 220 h compared with a value of 60 h for [3H]oestradiol. Because of the extremely slow dissociation of [3H]H1285 from the oestrogen receptor, we were able to compare the sedimentation profiles of [3H]H1285-receptor complexes with those of [3H]oestradiol-receptor complexes in the presence of 0.4 M-KCl on 5-20% sucrose density gradients. [3H]Oestradiol-receptor complexes had a major peak at 4.4 S with a smaller peak at 5.6 S, whereas with [3H]H1285-receptor complexes the 5.6 S peak was always higher than the 4.4 S peak. There was significant variation between the dissociation behaviour at 20 degrees C of [3H]H1285-receptor complexes and [3H]oestradiol-receptor complexes pre-activated at 25 degrees C for 30 min in the presence and in the absence of 10 mM-sodium molybdate. The dissociation t1/2 of [3H]oestradiol-receptor complexes at 20 degrees C decreased from 1.5 h to 0.5 h when molybdate was present during heat treatment whereas the dissociation t1/2 for [3H]H1285-receptor complexes was 5 h for both conditions. These observations indicate that there are fundamental differences in the initial interaction of H1285 and oestradiol with the oestrogen receptor.

The binding of [3H]oestradiol-receptor complexes to calf uterine chromatin.

Various aspects of the interaction of oestrogen-receptor complexes with calf uterine chromatin covalently coupled to cellulose were analysed. Partially purified [3H]oestradiol-receptor complexes were bound to intact, or partially deproteinized, chromatin resins. Proteins were removed from the chromatin-cellulose resins by extraction with high molarities of salt, including NaCl/urea, guanidine hydrochloride and guanidine thiocyanate. After extensive washing to remove the salt, [3H]oestradiol-receptor-complex solutions were added to the resins and the degree of binding was determined. The extent of [3H]oestradiol-receptor-complex binding to chromatin was enhanced by extraction of chromosomal proteins. By varying the molarity of the salt, and consequently the extent of protein removal, it was possible to resolve [3H]oestradiol-receptor-complex binding to guanidine thiocyanate-extracted chromatin into two components. Similarly, [3H]oestradiol-receptor-complex binding to guanidine hydrochloride-treated chromatin included three regions of enhanced binding capacity. The [3H]oestradiol-receptor-chromatin interaction was saturable with respect to both intact and salt-extracted resins. Thus uterine chromatin may contain three or more specific classes of acceptors for the oestrogen-receptor complex.