An immunocytochemical method for localization of estrogen receptors in rat tissues using a dinitrophenyl (DNP)-labeled rat monoclonal primary antibody.

We have developed an immunocytochemical method to demonstrate estrogen receptor in hormone-sensitive tissues of the rat using a dinitrophenyl (DNP) hapten-labeled rat antihuman estrogen receptor monoclonal antibody (MAb), H222. Mouse IgM anti-DNP was used secondarily, followed by a DNP/peroxidase conjugate, diaminobenzidine/hydrogen peroxide chromogen, and silver intensification. This method was applied to tissues from intact female rats and showed that estrogen receptor was localized in the nuclei of the stromal and glandular components of the uterine endometrium. Reduced receptor staining was observed in the luminal epithelium, with minimal myometrial staining. Anterior pituitary glands showed heterogeneous immunostaining and ovaries expressed the receptor predominantly in the interstitial cells; fallopian tubes demonstrated substantial epithelial staining. Uteri from chemically castrated rats showed reduced estrogen receptor immunostaining in both stromal and luminal cells, whereas staining was enhanced in the glandular elements. Classical estrogen-unresponsive tissues (heart, lung, and spleen) were unstained. Antibody controls involved pre-blocking antibody recognition sites on the receptor with unlabeled antibodies to estrogen receptor (H222, H226, and D547), as well as use of an inappropriate DNP-labeled antibody to metallothionein. These controls illustrated the specific nature of the DNP-H222 binding.     

Quantification and localization of ornithine decarboxylase in the embryonic palate.

Ornithine decarboxylase (ODC; EC4.1.1.17), the key enzyme in polyamine biosynthesis, and intracellular polyamines increase rapidly and markedly in tissues and cells that are actively proliferating as well as differentiating and decrease as these processes cease. ODC activity has also been implicated as playing a role in the proliferation and differentiation of cells derived from the developing palate. Ornithine decarboxylase activity was thus quantified and ODC localized in the developing murine palate in vivo. Levels of ODC activity showed little variation during the ontogeny of the palate, averaging 126 pmol CO2/mg protein/hr. When difluoromethylornithine (DFMO), an irreversible inhibitor of ODC activity, was administered to pregnant mice throughout the period of palate development (days 11-14), palatal tissue ODC activity was reduced by 85%. No craniofacial malformations were observed, however. The lack of a teratogenic effect by DFMO treatment could be due to sufficient remaining ODC activity in craniofacial tissue and/or maintenance of intracellular polyamine levels by the activity of a polyamine transport system. The activity of this system was demonstrated by the ability of palatal tissue in vivo to take up radiolabeled putrescine. The presence of a polyamine transport system was previously suggested by the demonstration of such a system in palate mesenchymal cells in vitro. Dramatic temporal and spatial shifts in tissue patterns of immunolocalization for ODC in developing palatal tissue were also seen. Immunostaining for ODC was evenly distributed in oral, nasal, and medial edge palate epithelial cells on day 12 of gestation. The basal aspects of epithelial cells were, however, more intensely stained. Mesenchymal cells exhibited a peri-nuclear immunostaining pattern. On days 12 and 13 of gestation, the staining patterns for ODC in palate epithelial and mesenchymal cells were comparable. On day 14 of gestation, all regions of the palate epithelium, particularly the medial edge epithelia, were immunostained for ODC, whereas the intensity of staining in the mesenchymal cells was significantly reduced. This study represents essential initial observations toward understanding the role that ODC may play in normal craniofacial development.     

Cellular origin of prolonged induction of ornithine decarboxylase in the rat ovary

The temporal changes of ornithine decarboxylase (ODC) activity were investigated in the immature rat ovary following a single subcutaneous injection of pregnant mare serum gonadotropin (PMSG). A dose-response relationship was established. Maximal ODC activity was obtained at a dose of 25 IU of PMSG. This increase in ODC activity was accompanied by an increase of ovarian weight before reaching a maximum. A 250-fold increase of ODC activity was observed 1 day following a single dose of PMSG (50 IU). The enzyme specific activity only returned to the control level 4-5 days after hormone treatment. Immunoreactive ODC in immature, PMSG-primed rat ovaries and in heavily luteinized rat ovaries was localized utilizing the immunoperoxidase method and an antibody to ODC. Immunoreactive enzyme was confined to the cytoplasm of the granulosa cells but was not present in luteal cells. Thecal cells showed only weak immunostaining. This study provides clear evidence that the granulosa cell is the unique source of ODC activity in response to PMSG treatment. Furthermore, these data support the concept that polyamines play a role in granulosa cell proliferation and hence follicular development.     

Ornithine decarboxylase (ODC) expression pattern in human prostate tissues and ODC transgenic mice.

Ornithine decarboxylase (ODC) is the key enzyme in the polyamine synthesis pathway and is overexpressed in a variety of cancers. We have performed a detailed immunostaining analysis of the expression of ODC in normal, benign prostatic hyperplasia (BPH), and cancerous prostate tissues. We conclude that ODC is overexpressed in both BPH and neoplastic tissues and that ODC overexpression appears to be an early event in prostate carcinogenesis. The extent of overexpression decreases as cancer progresses. Interestingly, ODC overexpression was also detected in patients who underwent androgen ablation therapy, suggesting ODC overexpression may contribute to the androgen-independent survival of prostate cancer cells. ODC is perinuclear localized in BPH samples but is diffusely cytoplasmic in cancer samples. Having shown ODC overexpression in human prostate cancer, we developed prostate-specific ODC transgenic mice to further investigate whether ODC overexpression alone is a causal factor in prostate carcinogenesis. RT-PCR and immunostaining confirmed that ODC was overexpressed in a subset of prostate epithelial cells. Although minor nucleoli enlargements in some tissues were detected, gross morphological changes were not observed in transgenic prostates. Therefore, overexpression of ODC alone in this subset of prostate epithelial cells is not sufficient to induce prostate carcinogenesis.     

Feedback control of ornithine decarboxylase expression by polyamines. Analysis of ornithine decarboxylase mRNA distribution in polysome profiles and of translation of this mRNA in vitro.

Cell growth and differentiation require the presence of optimal concentrations of polyamines. Ornithine decarboxylase (ODC) catalyses the first and rate-controlling step in polyamine synthesis. In studies using cultures of Ehrlich ascites-tumour cells, we have shown that the expression of ODC is subject to feedback regulation by the polyamines. A decrease in the cellular polyamine concentration results in a compensatory increase in the synthesis of ODC, whereas an increase in polyamine concentration results in suppression of ODC synthesis. These changes in ODC synthesis were attributed to changes in the efficiency of ODC mRNA translation, because the steady-state amount of ODC mRNA remained constant. We now show that the number of ribosomes associated with ODC mRNA is low, and that the increase in ODC mRNA translation takes place without a shift in the distribution of ODC mRNA towards larger polysomes. This finding indicates that the polyamines regulate the efficiency of ODC mRNA translation by co-ordinately affecting the rates of initiation and elongation. By analysing ODC mRNA translation in vitro, using a rabbit reticulocyte lysate, polyadenylated RNA from a cell line with an amplified ODC gene, and a monospecific anti-ODC antibody, we also show that spermidine, but not putrescine, exerts a direct regulatory effect on ODC synthesis.     

Cell type-specific localization of sphingosine kinase 1a in human tissues.

Cell type-specific localization of sphingosine kinase 1a (SPHK1a) in tissues was analyzed with a rabbit polyclonal antibody against the 16 C-terminal amino acids derived from the recently reported mouse cDNA sequence of SPHK1a. This antibody (anti-SPHK1a antibody) can react specifically with SPHK1a of mouse, rat, and human tissues. Utilizing its crossreactivity to human SPHK1a, the cell-specific localization of SPHK1a in human tissues was histochemically examined. Strong positive staining for SPHK1a was observed in the white matter in the cerebrum and cerebellum, the red nucleus and cerebral peduncle in the midbrain, the uriniferous tubules in the kidney, the endothelial cells in vessels of various organs, and in megakaryocytes and platelets. The lining cells of sinusoids in the liver and splenic cords in the spleen showed moderate staining. Columnar epithelia in the intestine and Leydig's cells in the testis showed weak staining patterns. In addition, TPA-treated HEL cells, a human leukemia cell line, showed a megakaryocytic phenotype accompanied with increases in immunostaining of both SPHK1a and SPHK enzyme activity, suggesting that SPHK1a may be a novel marker of megakaryocytic differentiation and that this antibody is also useful for in vitro study of differentiation models.(J Histochem Cytochem 49:845-855, 2001)     

Peroxynitrite inhibits the activity of ornithine decarboxylase

Polyamines are required during cell proliferation, whereas NO has anti-proliferative properties. Ornithine decarboxylase (ODC) is a critical enzyme for the synthesis of polyamines. We tested the hypothesis that the modification of ODC by peroxynitrite (OONO-), a short-lived free radical formed from NO and superoxide produces a fall in ODC activity, and therefore polyamine synthesis and cell proliferation. The treatment of a rat recombinant ODC (rODC) with OONO- resulted in a dose-dependent inhibition of rODC activity with an IC50 of approximately 100 microM. A Western blot employing a specific antibody to nitrotyrosine revealed a dose-dependent nitration of rODC tyrosine residues. When intact IEC-6 cells were treated with ONOO-, ODC activity decreased by 49%. These data suggest a correlation between ODC activity and nitration, and a possible mechanism by which NO synthesis may modulate polyamine synthesis.     

Ornithine decarboxylase induction and polyamine biosynthesis are required for the growth of interleukin-2- and interleukin-3-dependent cell lines

The objective of this study was to evaluate induction of ornithine decarboxylase (ODC), the rate-limiting enzyme in polyamine biosynthesis, and subsequent polyamine accumulation in interleukin-2 (IL-2)- and interleukin-3 (IL-3)-dependent growth. The CTLL-20 and FDC-P1 cell lines, which have been shown to be absolutely dependent on IL-2 and IL-3, respectively, were used in these studies. The CTLL-20 and FDC-P1 cells each had different temporal patterns of ODC induction following lymphokine stimulation. ODC levels increased rapidly in the FDC-P1 cells, peaking 4 hr after stimulation with IL-3. In contrast, peak ODC activity in the CTLL-20 cells occurred 18 hr following stimulation with IL-2 and reached eightfold higher levels than those observed in the FDC-P1 cells. Treatment with D,L-alpha-difluoromethylornithine X HCl X H2O (DFMO), a specific irreversible inhibitor of ODC activity, completely abrogated lymphokine-dependent ODC induction in both the CTLL-20 and FDC-P1 cell lines. Similarly, intracellular levels of the polyamines putrescine and spermidine were reduced in both cell lines following DFMO treatment. DFMO treatment reduced both IL-2- and IL-3-dependent proliferation in a dose-dependent manner. However, this inhibition could be reversed by the addition of exogenous putrescine. DFMO treatment had no effect on cell viability. Polyamine-depleted CTLL-20 and FDC-P1 cells showed decreased absorption of IL-2 and IL-3 activity, respectively. However, the addition of exogenous putrescine restored the ability of the cells to absorb the appropriate lymphokine. These data are the first to demonstrate that ODC induction and polyamine biosynthesis are required in lymphokine dependent growth.     

Localisation du récepteur des androgènes dans le testicule

Whether or not germ cells contain the androgen receptor remains a matter of controversy. In the present study we performed biotinstreptavidin immunoperoxidase using an affinity purified rabbit polyclonal antibody made to a 21 amino acid peptide of the amino terminus of the rat AR to determine androgen receptor (AR) distribution in the rat and mouse testes. Specificity of the antibody was confirmed as follows: 1) Western immunoblots rendered a specific band at approximately 110 kD; 2) preadsorption of the antibody with the 21 amino acid peptide eliminated specifice immunostaining; 3) the intensity of staining in all AR positive cells diminished as a function of antisera dilution; 4) tissues known to express abundant AR (e.g., epididymis, prostate, seminal vesicles) all rendered a robust, nuclear AR immunostaining pattern in the epithelial cells; 5) prostate cell lines known to express AR immunostained positive with the antibody; 6) AR negative COS-7 cells became AR immunopositive when transfected with a vector expressing the rat AR and intracellular AR distribution was a function of androgens. AR immunostaining results revealed the following: Within the interstitial compartment of adult rats, AR was detected in some Leydig cells and all smooth muscle cells forming the walls of blood vessels, but endothelial cells were negative. In the seminiferous tubules AR was observed in all peritubular myoid cell nuelei, but not in the distal layer of Iymphatic endothelial cells. In Sertoli cells, nuclear AR immunostaining was stage specific; moderate AR immunostaining became evident at late stage IV of the cycle, reached a robust peak at stages VII-VIII, and then disappeared completely. Specific AR immunostaining was also discerned in the nuclei of stage XI elongated spermatids, in which nuclear elongation is apparent but chromatin condensation has not yet begun. With onset of chromatin condensation, nuclear AR immunostaining in elongated spermatids was not discerned concomitant with its detection in the cytoplasm. In general, similar observations have now been confirmed in the adult mouse testis, except that an Leydig cells were strongly AR positive. Nucleic acid in situ hybridization studies for AR were performed in adult rat testis using a 236 bp antisense cRNA probe (rat AR cDNA was provided by Dr. C. Chang, U. Wisconsin, Madison, WI) to confirm the AR immunostaining. A prominent hybridization signal at the base of the seminiferous epithelium was observed, in the area occupied by Sertofi and spermatogonia. This led us to re-examine the immunostaining results to determine if spermatogonia were also AR positive. Preliminary results are consistent with the interpretation that AR is present in certain spermatogonial populations. Taken together, these results concur with prior observations suggesting that AR is present in the somatic cells of the testis; thus, it is these cell types that likely respond to circulating androgens to control spermatogenesis. However, they raise anew the controversy of whether germ cells respond directly to androgens.     

Regulation of ornithine decarboxylase and polyamine import by hypoxia in pulmonary artery endothelial cells

In rat lung and cultured lung vascular cells, hypoxia decreases ornithine decarboxylase (ODC) activity and increases polyamine import. In this study, we used rat cultured pulmonary artery endothelial cells to explore the mechanism of hypoxia-induced reduction in ODC activity and determined whether this event was functionally related to the increase in polyamine import. Two strategies known to suppress proteasome-mediated ODC degradation, lactacystin treatment and use of cells expressing a truncated ODC incapable of interacting with the proteasome, prevented the hypoxia-induced decrease in ODC activity. Interestingly, though, cellular abundance of the 24-kDa antizyme, a known physiological accelerator of ODC degradation, was not increased by hypoxia. These observations suggest that an antizyme-independent ODC degradation pathway contributes to hypoxia-induced reductions of ODC activity. When reductions in ODC activity in hypoxia were prevented by the proteasome inhibitor strategies, hypoxia failed to increase polyamine transport. The induction of polyamine transport in hypoxic pulmonary artery endothelial cells thus seems to require decreased ODC activity as an initiating event.     

Monoclonal antibodies against rat saliva and salivary gland antigens

Hybridomas were produced by the fusion of NS1 myeloma cells with spleen cells of a BALB/c mouse immunized with rat submandibular saliva. Growth of hybridomas was evident in 60/96 wells, and colonies secreting antibodies against saliva components were identified in 20 wells by using a solid phase enzyme-linked immunoassay. Cloning of cells from 12 wells yielded originally 43 hybridoma cell lines secreting anti-saliva antibodies. After recloning, one hybridoma (4Cl3) was selected for further studies. The hybridoma (4Cl3) cells were grown as ascites tumors, and the antibodies were purified from the ascitic fluid by diethylaminoethyl Affi-gel Blue chromatography. The purified antibody (MA4), immunoglobulin G1, immunoprecipitated a 39K dalton protein from submandibular saliva, and also reacted with a protein of the same electrophoretic mobility on immunoblots. From extracts of submandibular gland slices, incubated with [3H]leucine, the antibody again immunoprecipitated a 39K protein, indicating that this protein is synthesized in the gland. MA4 was used for immunocytochemical stainings of submandibular glands of rats of different ages. In general, immunostaining was seen only in acinar cells. Thus, there was no staining in the glands of 1-day-old rats that lack differentiated acinar cells. In the glands of 1- to 4-week-old rats the number of immunoreactive cells and the extent of immunostaining paralleled the differentiation of the acinar cells. In the glands of adult rats a uniform staining of the secretory granules of the acinar cells was observed. The immunoreactive 39K protein seemed to be restricted to the acinar cells in the submandibular gland; there was no immunostaining in the parotid, sublingual, or lingual salivary glands, or in the pancreas, colon, and duodenum. Stimulation of saliva secretion by isoproterenol resulted in a virtual depletion of the antigen from the acinar cells. These results indicate the feasibility of producing mouse hybridomas that secrete antibodies against rat saliva components. The monoclonal antibody at hand will be useful in analyzing the differentiation of the acinar cells, and the factors that influence this differentiation process.     

Loss of Intracellular Putrescine Pool-Size Regulation Induces Apoptosis

Synthesis and uptake are two important regulated mechanisms by which eukaryotic cells maintain polyamine levels. The role that loss of synthesis and/or uptake regulation plays in mediating putrescine toxicity was investigated by comparing toxicity in an ornithine decarboxylase (ODC)-deficient Chinese hamster ovary cell line (C55.7) with a functional putrescine transport system and an ODC-overproducing rat hepatoma cell line (DH23b), which are transport regulation deficient. When C55.7 cells were transfected with either mouse ODC (M) or trypanosome ODC (Tb), intracellular putrescine content increased slightly in C55.7(Tb-ODC), compared to C55.7(M-ODC), due to the lack of response of Tb-ODC to polyamine regulation. The increase in putrescine content resulting from loss of ODC regulation had no impact on cell growth and viability. When the feedback repression of polyamine uptake was blocked with cycloheximide, C55.7 cells transfected with either ODC construct accumulated very high levels of putrescine from the medium, and underwent apoptosis in a putrescine dose-dependent manner. A similar correlation of deregulated putrescine uptake and increased apoptotic cells was observed in DH23b cells. These data demonstrate that loss of feedback regulation on the polyamine transport system, but not ODC activity, is sufficient to induce apoptosis. Thus, downregulation of the transport system is necessary to prevent accumulation of cytotoxic putrescine levels in rodent cells.     

Distribution patterns of ornithine decarboxylase in cells and tissues: facts, problems, and postulates.

Ornithine decarboxylase (ODC) is a key enzyme in polyamine biosynthesis. Increased polyamine levels are required for growth, differentiation, and transformation of cells. In situ detection of ODC in cells and tissues has been performed with biochemical, enzyme cytochemical, immunocytochemical, and in situ hybridization techniques. Different localization patterns at the cellular level have been described, depending on the type of cells or tissues studied. These patterns varied from exclusively cytoplasmic to both cytoplasmic and nuclear. These discrepancies can be partially explained by the (lack of) sensitivity and/or specificity of the methods used, but it is more likely that (sub)cellular localization of ODC is cell type-specific and/or depends on the physiological status (growth, differentiation, malignant transformation, apoptosis) of cells. Intracellular translocation of ODC may be a prerequisite for its regulation and function.     

Expression of c-series gangliosides in rat hepatocytes and liver tissues

C-series gangliosides in rat hepatocytes and liver tissues were analyzed by thin-layer chromatographic (TLC) immunostaining with the specific monoclonal antibody A2B5. Primary cultures of hepatocytes isolated from adult rats were immunostained positively by A2B5. TLC immunostaining with A2B5 of gangliosides from the cells suggested that rat hepatocytes express c-series gangliosides including GT3, GT1c, GQ1c, and GP1c. Expression of c-series gangliosides in cultured hepatocytes was modulated by growth conditions of cells. The amount of GT3 was increased significantly by epidermal growth factor, while the contents of polysialo species such as GT1c, GQ1c, and GP1c were enhanced by higher cell density in culture. Examination of c-series gangliosides in rat liver tissues showed a unique developmental profile with a shift from GT3-dominant to polysialo species-dominant composition in late embryonic stages. These results suggest that the expression of c-series gangliosides in rat hepatocytes is regulated in a growth- and development-dependent manner.     

Characterization of epidermal growth factor receptor in testis, epididymis and vas deferens of non-human primates.

The presence of the epidermal growth factor receptor (EGFR) in testis, epididymis and vas deferens of monkeys was demonstrated using a polyclonal antibody (RK2) raised against a peptide-specific sequence of the intracellular domain of the human EGFR. Immunoblotting of membrane preparations revealed a specific band at approximately 170 kDa corresponding to those of controls, A431 and monkey liver cells. Cryostat sections were stained by biotin-streptavidin peroxidase immunocytochemistry. The liver showed positive staining along the basolateral membranes of the hepatocytes lining the sinusoids. The testis showed positive staining indicating the presence of EGFR in Leydig cells, Sertoli cells and peritubular cells. In the epididymis, immunostaining of the EGFR was observed on both the basolateral and the luminal borders of the epididymal epithelium. Immunofluorescence studies revealed a similar pattern of EGFR distribution in the epididymis and indicated that the luminal immunostaining was vesicular. In the vas deferens, positive immunostaining was detected in a pattern very similar to that observed in the epididymis. There was no positive staining in the interstitium of the epididymis or in the smooth muscle cell layers of the vas deferens. The sections of all tissues treated with pre-immune serum were negative. These results suggest that EGF in the primate testis may act at the level of somatic cells. In addition, the basolateral and luminal EGFR staining in the epididymis and vas deferens suggest that these cells respond to an EGF, or EGF-like, source both at the basal, luminal or at both sides of the cells, or that these tissues serve as sites of EGF transcytosis across the epithelium.     

HSG cells differentiated by culture on extracellular matrix involves induction of S-adenosylmethione decarboxylase and ornithine decarboxylase

The human salivary gland (HSG) epithelial cell line can differentiate when cultured on extracellular matrix preparations. We previously identified >30 genes upregulated by adhesion of HSG cells to extracellular matrix. In the current studies, we examined the role of one of these genes, the polyamine pathway biosynthetic enzyme S-adenosylmethionine decarboxylase (SAM-DC) and the related enzyme, ornithine decarboxylase (ODC), on HSG cell differentiation during culture on extracellular matrix. HSG cells cultured on fibronectin-, collagen I gel-, and Matrigel-coated substrates for 12-24 h upregulated SAM-DC and ODC mRNA expression and enzyme activity compared to cells cultured on non-precoated substrates. After 3-5 days, HSG cells grown on Matrigel- or collagen I gel-coated substrates acquired a differentiated phenotype: the cells showed changes in culture morphology and increased expression of salivary gland differentiation markers (vimentin, SN-cystatin, and alpha-amylase). Further, culturing the cells on substrates precoated with an anti-beta1-integrin-antibody promoted differentiation-like changes. HSG cells cultured on collagen I- or Matrigel-coated substrates rapidly entered the cell cycle but showed decreased cell proliferation at longer times. In contrast, cell proliferation was enhanced on fibronectin-coated substrates compared to cells on non-precoated substrates. Treatment with the polyamine synthesis inhibitors, difluoromethylornithine (DFMO), and methylglyoxal bis-(guanylhydrazone) (MGBG), inhibited cell proliferation and delayed (3)H-thymidine incorporation in HSG cells cultured on all of the substrates. Further, inclusion of DFMO and MGBG inhibited or delayed acquisition of the differentiated phenotype in HSG cells cultured on Matrigel- or collagen I gel-coated substrates. This suggests that the adhesion-dependent expression of SAM-DC and ODC contributes to extracellular matrix-dependent HSG cell differentiation.     

Evolutionary conservation in various mammalian species of the human proliferation-associated epitope recognized by the Ki-67 monoclonal antibody

The human proliferation-associated epitope recognized by the Ki-67 monoclonal antibody (MAb) was detected in proliferating normal and neoplastic cells of many mammalian species (lamb, calf, dog, rabbit, rat) besides human. In contrast, Ki-67 stained proliferating cells from other species weakly (mouse) or not at all (swine, cat, chicken, pigeon). The immunostaining pattern of Ki-67 in animal tissues was identical to that previously described in human: Ki-67 reacted only with cells known to proliferate (e.g., germinal center cells, cortical thymocytes) but not with resting cells (e.g., hepatocytes, brain cells, renal cells); this MAb produced a characteristic nuclear staining pattern (e.g., stronger labeling of nucleoli than of the rest of the nuclei and staining of chromosomes in mitotic figures); and Ki-67 crossreacted with the squamous epithelium in both animal and human tissues. In vitro studies showed that when quiescent (Ki-67-negative) NIH 3T3 fibroblasts or bovine peripheral blood lymphocytes were induced to proliferate, the appearance of Ki-67-positive cells paralleled the induction of cell proliferation caused by addition of fetal calf serum or PHA, respectively, to the cultures, and in both human and rat proliferating cells the Ki-67 expression closely paralleled the incorporation of [3H]-thymidine. These findings indicate that the epitope recognized by the Ki-67 MAb in human and animal species is the same. The widespread evolutionary conservation of the human proliferation-associated epitope recognized by the Ki-67 MAb suggests that it and/or its carrier molecule may play an important role in regulation of cell proliferation.     

Ornithine decarboxylase in large bowel mucosa: regulation by gastrin, secretin and EGF.

Rats were fasted 48 h and then injected once with either saline, pentagastrin, EGF, secretin or combinations of secretin and pentagastrin or EGF. Another group of rats was fasted and refed. Animals were killed 4 h later and ODC assayed in mucosa of the cecum, proximal colon, and distal colon. EGF significantly increased ODC activity in all 3 tissues. Secretin had no effect by itself on ODC or ODC stimulated by EGF. Pentagastrin significantly increased ODC of the cecum, and secretin completely inhibited the effect of pentagastrin. Refeeding fasted rats significantly induced activity in all three tissues. Immunocytochemistry using a highly specific polyclonal ODC antibody showed that ODC was confined to the crypt cells of the proximal colon. Antibody dilution techniques demonstrated that gastrin, EGF and refeeding increased the level of enzyme in these cells. Refeeding in addition caused the appearance of enzyme in surface epithelial cells. These results showed that colonic mucosal ODC is present in proliferative cells and is regulated by the same peptides known to regulate growth in this tissue. Colonic mucosal ODC also responds the same way as it does in the oxyntic gland and small bowel mucosa.