Showing papers by "Simon C. Watkins published in 1995"

Pulmonary alveolar epithelial inducible NO synthase gene expression: regulation by inflammatory mediators.

Abstract: Nitric oxide (.NO) is a short-lived mediator that can be induced by different cytokines and lipopolysaccharide (LPS) in a variety of cell types and produces many physiological and metabolic changes in target cells. In the current study, we show that a combination of cytokines, LPS, and zymosan-activated serum (ZAS; called for convenience cytomix Z) induces production of high concentrations of the NO oxidation products nitrite (NO2-) and nitrate (NO3-) by cultured rat fetal lung epithelial type II cells in a time-dependent fashion. Interferon-gamma and tumor necrosis factor-alpha alone did not significantly affect .NO synthesis, whereas ZAS, LPS, and interleukin-1 beta caused only a modest increase in formation of .NO oxidation products. Production of NO2- and NO3- was inhibited by NG-monomethyl-L-arginine and cyclohexmide. After exposure of these cells to a combination of the above cytokines, Escherichia coli LPS, and ZAS (cytomix Z), enhanced inducible nitric oxide synthase (iNOS) expression was indicated by an elevation in steady-state mRNA specific for iNOS (via Northern blot analysis) and increased immunofluorescence for iNOS after cell permeabilization, incubation with anti-iNOS antibody, and treatment with Cy3.18-conjugated rabbit-specific antibody. The extent of inflammatory mediator-induced.NO production by alveolar epithelium, which exceeds that of other lung cell types, reveals new insight into mechanisms of pulmonary host defense and pathways of free radical-mediated lung injury.

Inhibition of nitric oxide synthase during hemorrhagic shock increases hepatic injury.

Abstract: The function of nitric oxide (NO) in hemorrhagic shock is controversial. Increased NO synthesis has been temporally correlated with severe shock and has been associated with vascular hyporeactivity to vasoconstrictor agents in isolated vascular rings. Its role in local tissue perfusion, however, is unknown. We studied the role of NO in shock-induced hepatic injury in a rodent model of decompensated hemorrhagic shock by inhibiting its synthesis with Nw-nitro-L-arginine methyl ester (L-NAME). L-NAME infusion (5 micrograms/kg/min) increased the shock-induced hepatic injury and this effect was reversible with L-arginine. L-NAME had only transient effects on systemic mean arterial blood pressure, which quickly returned to pre-L-NAME levels. We conclude that NO synthesis serves a protective function in preventing shock-induced hepatic injury and we postulate that this effect may be due to modulation of the local hepatic circulation.

Antitumor activities of subsets of human IL-2-activated natural killer cells in solid tissues.

Abstract: Human NK cells can be separated into two functionally distinct subpopulations based on the ability to rapidly respond to IL-2 by adherence to solid surfaces To determine functions of the NK cell subsets in solid tumor tissues, adherent (A) and nonadherent (NA) NK cells were evaluated for their ability to infiltrate multicellular tumor spheroids in vitro, to kill carcinoma (CA) cell targets in these spheroids, and to mediate antitumor activity in vivo A-NK cells were less cytolytic than NA-NK cells against CA targets in single cell suspensions or in monolayers However, A-NK cells showed a significantly better ability than NA-NK cells to infiltrate tumor tissues and kill tumor cells in spheroids of human squamous cell CA of the head and neck or breast CA Perilesional delivery of human A-NK cells and IL-2 resulted in regression of established human squamous cell carcinoma of the head and neck tumors growing subcutaneously in immunosuppressed nude mice Similarly, in a xenograft model of human gastric CA metastatic to liver of nude mice, a single intrasplenic injection of A-NK cells in combination with ip infusions of IL-2 significantly reduced the number of established hepatic metastases (p < 0007) and prolonged survival of the mice (p < 0003) In contrast, NA-NK cells were ineffective in either of the in vivo xenograft tumor models These findings demonstrate that A-NK cells represent a biologically unique and important subset of NK cells that, in contrast to the rest of NK cells, function as effector cells in solid tumor tissues and, consequently, have a great antitumor therapeutic potential

Retrovirus-mediated gene transfer in lungs of living fetal sheep

Abstract: In utero somatic gene transfer may be a useful therapeutic strategy for a variety of inherited disorders. In the present study, we demonstrate transgene expression in the airways of fetal lamb lungs, 2-3 weeks after injection of Moloney murine leukemia retrovirus based vectors containing cDNA for beta-galactosidase (lacZ) or human interleukin receptor antagonist protein (IRAP), into the fluid filled future airspace of fully catheterized twin fetal lambs (104-117 days gestational age; term 147 days). Expression of lacZ or IRAP was limited to the twin that received the respective vector and was apparent, at light microscopic level, in the epithelium and submucosal space of proximal airways, and to a lesser extent, in the respiratory epithelium of the distal airways. These data demonstrate for the first time that transfer of foreign DNA to fetal lung can be accomplished. These findings support the use of retroviral vectors for somatic lung DNA transfer and suggest that inherited disorders such as cystic fibrosis may be approached therapeutically via gene transfer, in utero.

Metallothionein localization and cisplatin resistance in human hormone-independent prostatic tumor cell lines

Abstract: Metallothioneins (MT) are major cysteine-rich proteins with poorly characterized functions. We have examined the MT amount, isotype expression, and subcellular distribution in 4 human hormone-independent prostatic carcinoma cell lines. Both PC-3 and DU-145 cells were thiol-rich cells with similar MT and glutathione levels, while HPC36M and PC-3 MA2 were thiol-poor cells with lower MT and glutathione levels. All 4 prostatic cell lines expressed the MTIIA isoform at a basal level; DU-145 cells also constitutively expressed MTIE mRNA. Using antibodies for both total MT and MTIIA, we defined MT to cytoplasmic and nuclear domains in PC-3 cells, to perinuclear and nuclear domains in HPC36M cells, and to prominent nonnucleolar nuclear domains in DU-145 and PC-3 MA2 cells. These results indicate that the subcellular distribution is cell type specific and not reflective of the total MT content or MT isoform. Resistance to cadmium in all 4 cell lines was correlated with total MT levels, while resistance to the anticancer agent cisplatin correlated best with nuclear MT content. We suggest that the subcellular localization of MT is functionally important in cellular protection against the anticancer agent cisplatin in human prostatic cancer cells.

Inhibition of nitric oxide synthesis during severe shock but not after resuscitation increases hepatic injury and neutrophil accumulation in hemorrhaged rats.

Abstract: Hemorrhagic shock results in hepatocellular dysfunction and hepatic injury that may contribute to the development of liver failure and multiple organ dysfunction in trauma patients. The specific mediators involved in this process remain incompletely defined. We have previously demonstrated that inhibition of nitric oxide (NO) synthesis in a rat model of moderately severe hemorrhagic shock increases hepatic injury, suggesting that NO synthesis is beneficial after hemorrhage. To further define the role of NO in hepatic function during hemorrhagic shock, rats were subjected to a severe hemorrhagic shock insult in which they were bled to a mean arterial pressure of 40 mmHg until 40% of their shed blood had been returned and then were resuscitated. Rats were treated with the NO synthase inhibitor L-nitroarginine methyl ester (L-NAME) or the NO donor S-nitroso-N-acetylpenicillamine beginning either during the hypotensive period or after resuscitation. When instituted during the hypotensive period, low dose L-NAME infusion significantly increased hepatic injury. When L-NAME was infused after resuscitation, no increase in hepatic injury was detected even when the L-NAME dose was increased by a factor of four. The increased hepatic injury produced by L-NAME was associated with increased myeloperoxidase content in the lung, suggesting that L-NAME led to a greater accumulation of neutrophils during shock. Administration of the NO donor S-nitroso-N-acetylpenicillamine reduced hepapatocellular enzyme release. Our results suggest that ongoing NO synthesis during the hypotensive phase of hemorrhagic shock is essential in preventing shock-induced hepatic injury and this may be due, in part, to the interaction between NO and circulating neutrophils.

The Effect of Endotoxin on Intestinal Mucosal Permeability to Bacteria In Vitro

Abstract: Objective: To examine the role of the intestinal mucosa in bacterial translocation, in vitro bacterial passage across ileal mucosal segments mounted in Ussing chambers were studied in control and endotoxin (lipopolysaccharide)-treated rats. Design: Experimental study. Materials and Methods: Three groups of rats were studied. The experimental group received an intraperitoneal injection of lipopolysaccharide, while controls received an equivalent volume of saline solution; a third group received no treatment. Twenty-four hours later, all groups underwent laparotomy and organ culture to assess bacterial translocation. At the same time, a segment of mucosa from the terminal ileum of each animal was mounted in a Ussing chamber, and the transmucosal passage of labeled Escherichia coli from the luminal to serosal surface was assessed by results of serial cultures. Results: In vivo bacterial translocation occurred in 100% of the lipopolysaccharide-treated animals, significantly higher than the incidence seen in controls (25%; P E coli across ileal mucosa in the Ussing chamber occurred in 78% of lipopolysaccharide-treated animals, while in controls transmucosal passage was seen in only 14% ( P Conclusion: Increased permeability to bacteria at the mucosal level contributes to the bacterial translocation seen in endotoxemia. (Arch Surg. 1995;130:53-58)

Interaction of chromosome-6-encoded dystrophin related protein with the extracellular matrix

Abstract: Dystrophin-related protein/utrophin is a large, cytoskeletal protein that shares significant sequence similarity with dystrophin. Dystrophin-related protein is known to be enriched where cell-extracellular matrix contacts are well defined; however, the mechanism of dystrophin-related protein enrichment and its functional role(s) at these sites are yet to be defined. Here, we demonstrate that dystrophin-related protein is concentrated in patches of astrocyte membrane in apposition with the extracellular matrix and that the distribution of dystrophin-related protein is temporally modulated by the extracellular matrix constituent laminin. Furthermore, we demonstrate the existence of a specific biochemical association between dystrophin-related protein and laminin in astrocytes. In these astrocytes, the depletion of dystrophin-related protein by the use of antisense dystrophin-related protein oligonucleotides causes marked reduction in the formation of functional substratum-membrane attachments. Taken together, these data suggest that dystrophin-related protein may function in the generation and maintenance of regional substratum-associated membrane specializations, such as those found at the blood-brain barrier.

Complementation of defective leucine decarboxylation in fibroblasts from a maple syrup urine disease patient by retrovirus-mediated gene transfer.

Abstract: Maple syrup urine disease (MSUD) is a genetic disease caused by a deficiency of branched-chain keto acid dehydrogenase, a mitochondrial multienzyme complex responsible for the decarboxylation of leucine, isoleucine and valine. The complex consists of three subunits (E1, E2, and E3) and mutations in any subunit result in MSUD. No satisfactory treatment for MSUD is currently available. Here we report the successful use of retroviral gene transfer to restore leucine decarboxylation activity in fibroblasts derived from a MSUD patient containing a mutation in the E2 subunit. A full-length human E2 cDNA was inserted into a retroviral vector (MFG) and a stable CRIP producer line was generated. The amphotropic virus was then used to transduce mutant human fibroblasts. In untransduced mutant cells, 1-14C leucine decarboxylation activity was less than 2% that of the wild-type cells. Decarboxylation of 1-14C leucine in transduced mutant cells was restored to 93% of the wild-type level. Correct targeting of the expressed wild-type E2 protein to mitochondria was demonstrated by comparing the immunofluorescent pattern of E2 and a mitochondrial marker protein. Stable expression of enzyme activity has been obtained for at least 7 weeks. In contrast to most previous gene therapy attempts, which replace a single enzyme defect, the present results demonstrate complementation of a phenotype resulting from a gene defect whose product is a part of a multienzyme complex. Based on these results, studies can now be undertaken to investigate the feasibility of gene therapy to correct MSUD.