The segment of the malarial circumsporozoite (CS) protein designated Region II is highly conserved among different malarial species. A similar sequence is also present in several other proteins, including thrombospondin, properdin, and a blood-stage antigen of Plasmodium falciparum . By means of peptides synthesized from sequences of the Plasmodium vivax CS protein in the vicinity of Region II, it was found that two overlapping 18- to 20-amino acid peptides promoted the adhesion of a variety of human hematopoietic cell lines. The amino acid sequence valine-threonine-cysteineglycine (VTCG), contained within this common motif, was shown to be the critical sequence for the observed cell-adhesive properties.
Several studies have shown an overexpression of cyclooxygenase-2 (COX-2) and elevated levels of prostacyclin (PGI(2)) and thromboxane (TXA(2)) in colon cancer. In this report, we determined the distribution of inducible form of nitric oxide synthase (iNOS), PGI(2), and TXA(2) in cancerous and adjoining areas of specimens from human colon and breast cancer obtained during surgery. Additionally, we investigated differences in expression and histological localization of COX-2 in colon and breast cancer.Specimens were obtained during surgery, one centrally located, the second from an adjacent, cancer-free area. Activity of iNOS was determined, using the conversion of L-[(14)C]arginine to L-[(14)C]citrulline. PGI(2) and TXA(2) were measured as their stable metabolites, using enzyme immunoassay. A standard immunoperoxidase method was used for immunohistochemical expression of COX-2.Significant differences in iNOS, PGI(2), and TXA(2) expressions between colon and breast cancer were noted, with an enhanced expression of COX-2 in colon cancer, including the cancerous, adjoining, and stromatous fields.Increased expression of iNOS and production of prostanoids in colon cancer parallels the increase in COX-2, confirming the importance of this enzyme in colon cancer. The overexpression of COX-2, prostanoids, and nitric oxide in areas adjoining the tumor indicates increased metastatic potential for neoplastic cells in this area. Inflammatory changes in the tissue adjoining the cancer may play a role. COX-2 may result in the formation of new blood vessels and the spread of cancer.
To examine the pathologic changes in the retina of apolipoprotein E (apoE)-deficient mice fed a high-cholesterol diet.ApoE-deficient mice (ApoE) were maintained on either regular mouse chow (ApoE-R) or a high-cholesterol diet (ApoE-C) for 25 weeks. Age-matched control C57BL/6J mice (C57) were also maintained on either regular mouse chow (C57-R) or a cholesterol-containing diet (C57-C). Retinal function was assessed by dark-adapted electroretinography (ERG). The eyes were embedded, sectioned, and analyzed by histologic and immunohistochemical methods, as well as by light and transmission electron microscopy.After the 25-week feeding period, ERG tracings of ApoE-C mice revealed significant increases of a- and b-wave implicit times when compared with the C57-R group of mice. In addition, there were reductions in oscillatory potential (OP) amplitudes in the ApoE-C group. However, a- and b-wave amplitudes appeared to be unchanged among the four groups of mice. Light microscopic examination of the retinas showed that compared with control C57-R mice, ApoE-C mice had significantly lower cell numbers in the inner and outer nuclear layers (85.1% +/- 4.6%, P < 0.05 and 81.4% +/- 3.7%, P < 0.01 of C57-R controls, respectively). Transmission electron microscopy of apoE-deficient mice revealed cells of the inner nuclear layer with condensation of nuclear chromatin and perinuclear vacuolization in focal areas. Bruch's membrane was also found to be thicker, and its elastic lamina appeared disorganized and discontinuous. Immunohistochemistry demonstrated diminished or no immunoreactivity for carbonic anhydrase II and calretinin in the retinal layers of apoE-deficient mice.Overall, there were increasing abnormalities of retinal function and cellular morphology among the four groups of mice in the order of C57-R < C57-C < ApoE-R < ApoE-C. These findings suggest that apoE and/or cholesterol play an important role in retinal function.
The effect of differing degrees of destruction of the seminiferous epithelium on serum FSH levels and on Sertoli cell secretory function was studied in adult male rats. Germinal cell aplasia (Sertoli cell-only syndrome, SCO) was induced in male rats by fetal irradiation (250 rads) on day 20 of gestation. Destruction ofthe seminiferous epithelium was induced by treatment with either hydroxyurea (HU) or chronic feeding of a vitamin A-deficient diet (VAD). Serum FSH, LH and testosterone were measured to assess pituitary-testicular interaction, and testicular androgen binding protein (ABP) was measured to evaluate Sertoli cell secretory function in these states. Serum LH was significantly elevated in all three treatment groups, while serum testosterone was significantly lower than normal only in SCO rats. The elevation of LH and the lowered testosterone levels suggest that there is partial Leydig cell failure in rats with germinal cell aplasia induced by fetal irradiation. Significantly elevated levels of serum FSH were seen in all three treatment groups; the degree of elevation was proportional to the severity ofthe induced testicular damage (normal adult males 378 ± 27, HU treated 751 ± 28, VAD 1019 ±49 and SCO rats 1070 ± 54 ng/ml, mean ± SEM). Both the secretion rate of ABP as measured by its accumulation in the testis in the 16 h following efferent duct ligation, and the total amount of ABP both in testis and caput epididymis were markedly decreased in all three treatment groups in proportion to the severity of the induced testicular damage. These findings indicate that Sertoli cell secretory function was impaired as a result of the treatments used to induce testicular damage. The demonstration of impaired Sertoli cell secretory function in association with elevated serum FSH suggests that feedback regulation of FSH may be a function ofthe Sertoli cell.
We investigated the effects of 35 weeks of a cholesterol diet in apolipoprotein E (apoE)-deficient mice on their ERG response.C57BL/6J and apoE-deficient mice were fed regular mouse chow (C57-R and ApoE-R, respectively) or a cholesterol-containing diet (C57-C and ApoE-C, respectively). Retinal function was assessed by dark-adapted electroretinography (ERG). Retina tissue was also analyzed by immunohistochemical staining and nucleic acid array expression analysis performed by gene array technology.ApoE-C mice had diminished a- and b-wave amplitudes (60.7% +/- 8.4% (p < 0.005) and 44.8% +/- 10% (p < 0.005) of control values, respectively). Gene expression profiling revealed upregulation of several pro-apoptotic genes. Furthermore, immunohistochemistry showed increased Bax immunoreactivity.In the hypercholesterolemic mice, we demonstrated a loss of ERG response and induction of apoptotic activity at the gene and protein levels. Our current and previous findings suggest that cholesterol metabolism plays an important role in retinal function.
Embryonic lung maturation in the H-2 congenic pair, B10.A and B10, proceeds at different rates. The dependence of this heterochronic development on maternal haplotype suggests the involvement of a parentally imprinted gene. Since B10.A (H-2a) and B10 (H-2b) mice are genetically identical except for a 3-18 cM region of chromosome 17 that includes the H-2 complex, we sought a promising candidate gene(s) involved in regulating the rate of lung development from genes encoded in this region. The best candidate is the gene encoding the type II insulin-like growth factor receptor (IGF-IIR), whose ligand is the growth factor IGF-II. Only the maternal copy of this gene is expressed in postimplantation embryos. This receptor does not appear to transduce mitogenic signals; instead, IGF-IIR appears to regulate the levels of its ligand available to the growth-promoting type I IGF receptor (IGF-IR). Using in situ hybridization and indirect immunofluorescence, we demonstrate that IGF-IIR mRNA and protein are localized throughout the pulmonary mesenchyme, as well as in branching epithelia of the pseudoglandular and canalicular stages. We also examined the levels of IGF-IIR mRNA and protein expression by RNase protection assay and ligand blotting during the embryonic period of lung development in B10.A and B10 mice, and found that there is a highly significant positive correlation of IGF-IIR levels with progressive development in both strains. Further, slower-developing B10.A lungs contain significantly higher levels of IGF-IIR mRNA and protein than the more rapidly developing B10 lungs. These results suggest that haplotype-dependent elevation of IGF-IIR levels reduces the available concentration of IGF-II, resulting in a decreased rate of morphogenesis in B10.A mice. Heterochronic lung maturation, then, appears consequent to variable extracellular levels of this important growth factor. These results may be of clinical importance to predicting susceptibility to Respiratory Distress Syndrome in prenatal newborns.
Abstract A single intraarticular injection of carrageenin into the rabbit knee joint initiates an inflammatory reaction in the synovial tissues. The exudate from the joint was able to degrade proteoglycan at pH 5.2 and pH 7.2. Further characterization of proteolytic enzymes in the inflamed synovial tissues showed the presence of cathepsin D, a neutral protease, and cathepsin B1. Maximum activities of two lysosomal enzymes, acid phosphatase and cathepsin D, were observed within 7 days of injection. Most of this activity was found to be associated with cells in the synovial fluid.
Specific RIAs for rat transferrin (rTF) and androgen-binding protein (rABP) were used to determine whether the secretion of these proteins was coordinately regulated in the Sertoli cell under a variety of conditions. Sertoli cell-enriched primary cultures were prepared from the testes of 20-day-old rats, and rTF and rABP were assayed in medium from the same culture. There was a strong effect of cell density on both rABP and rTF secretion per cell, with increased secretion per cell at high densities. Human TF (hTF), FeSO4, and desferrioxamine had little or no effect on rTF secretion. The age of the animal at the time of preparation of cells for culture had a strong effect on the pattern of rTF and rABP secretion in vitro; however, the effects of animal age, time in culture, and medium supplementation differed for the two proteins. In cultures prepared from 20-day-old animals, insulin, epidermal growth factor, and testosterone stimulated both rTF and rABP secretion, although to different extents. Retinoic acid was required for the stimulation and maintenance of rTF secretion, but had no effect on rABP secretion in the presence of insulin, hTF, and epidermal growth factor. Conversely, FSH and isoproterenol stimulated rABP, but not rTF, secretion. These data suggest that the secretion of rABP and rTF by Sertoli cells is under differential control. (Endocrinology118: 383–392, 1986)
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