Eilata Dalal scite author profile

Eilata Dalal

5Publications

58Citation Statements Received

41Citation Statements Given

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Tel Aviv University

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Moderate Stress Protects Female Mice against Bacterial Infection of the Bladder by Eliciting Uroepithelial Shedding

Dalal¹,

Medalia²,

Harari³

et al. 1994

Annals of the New York Academy of Sciences

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We have previously shown (M. Aronson, 0. Medalia, D. Amichay, and 0. Nativ, Infect. Immun. 56:1615-1617, 1988) that shedding of viable uroepithelial cells (elicited by invading microorganisms) constitutes an antimicrobial defense mechanism. The present study deals with two different stress-involving procedures, in which increased uroepithelial shedding rendered female mice resistant to vesical infection. Moderate stress was induced in female mice by exposing the animals either to constant illumination for 96 h or to 37°C heat for 24 h. In both cases, the rate of infection was considerably reduced as a result of increased epithelial shedding (P < 0.0001). Stress was manifested by both reduced thymic weight and increased blood corticosterone levels. Shedding was also elicited by intraperitoneal injection of norepinephrine together with hydrocortisone or by intravesical injection of corticosterone. Constant illumination as well as heat enormously facilitated the migration of polymorphonuclear cells into the bladder following the action of chemotactic stimuli. Male mice subjected to identical stress-generating conditions did not display considerable epithelial shedding or increased migration of polymorphonuclear cells, and they were not protected from intravesical infection.The phenomenon of uroepithelial shedding was originally described by Orikasa and Hinman as involving dying and dead cells, and these authors suggested that epithelial desquamation serves as a defense mechanism, since the adhering bacteria are washed out together with the cells (9).Our own independent studies, on the other hand, were carried out under conditions less injurious to the host's cells, employing radiation-killed cells of a nonvirulent strain. We were able to demonstrate that most of the shed cells are viable and that the active agent which induces shedding is the bacterial endotoxin (3). Our results also indicated that the uroepithelium is preprogrammed to respond by rapid shedding when required, as the process begins within 1 h of administration of lipopolysaccharide (LPS) to the bladder. The mechanism of shedding was shown to be mediated by the release of proteolytic enzymes, since pretreatment with aprotinin-the inhibitor of these enzymes-proved to considerably diminish the shedding. Since polymorphonuclear (PMN) cells do not begin to appear before 4 h following the LPS instillation, epithelial cells remain the sole candidates for being the source of the proteolytic enzymes. The phenomenon is apparently entirely local, not involving central mechanisms.The present studies were initiated in order to establish whether perturbation of circadian rhythms would affect the course of experimental vesical infection. It was expected that the spontaneous clearance of bacteria, which usually requires 2 to 3 weeks, would be prolonged under these conditions. However, the female mice which were exposed to 4 days of constant illumination, in order to develop a state of "free running" (i.e., state of unsynchronized circadian rhythms), failed altogeth...

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EDTA‐induced urothelial cell shedding for the treatment of superficial bladder cancer in the mouse

Nativ¹,

Dalal²,

Hidas³

et al. 2006

Int J of Urology

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Aim:The aim of this study was to determine the effect of intravesical EDTA instillation on the development of intravesically implanted tumor cells in normal mice. Methods: The mouse bladder tumor (MBT-2) model was used in female C3H/eb mice to evaluate the amount of normal urothelial cell shedding, and the degree of tumor growth inhibition following intravesical EDTA instillation in comparison with phosphatebuffered saline (PBS) instillation. Results: At 1 h after instillation, the number of urothelial cells aspirated was 500-1000 per PBS-treated mouse and 10 000-20 000 per EDTA-treated mouse (P < 0.00001). The bladder weight, which reflected the effect of the agent on the tumor, was similar in the untreated and PBS-treated mice (105.46 ± 46 mg and 106.2 ± 50 mg, respectively). It was significantly lower in the EDTAtreated mice (80.4 ± 42 mg) (P = 0.0045). Conclusions: Intravesical administration of EDTA results in significant normal and neoplastic urothelial cell shedding. Intravesical irrigation with EDTA may prevent adherence of the malignant cells to the bladder wall following tumor resection.

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Moderate stress protects female mice against bacterial infection of the bladder by eliciting uroepithelial shedding

et al. 1994

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We have previously shown (M. Aronson, O. Medalia, D. Amichay, and O. Nativ, Infect. Immun. 56:1615-1617, 1988) that shedding of viable uroepithelial cells (elicited by invading microorganisms) constitutes an antimicrobial defense mechanism. The present study deals with two different stress-involving procedures, in which increased uroepithelial shedding rendered female mice resistant to vesical infection. Moderate stress was induced in female mice by exposing the animals either to constant illumination for 96 h or to 37 degrees C heat for 24 h. In both cases, the rate of infection was considerably reduced as a result of increased epithelial shedding (P < 0.0001). Stress was manifested by both reduced thymic weight and increased blood corticosterone levels. Shedding was also elicited by intraperitoneal injection of norepinephrine together with hydrocortisone or by intravesical injection of corticosterone. Constant illumination as well as heat enormously facilitated the migration of polymorphonuclear cells into the bladder following the action of chemotactic stimuli. Male mice subjected to identical stress-generating conditions did not display considerable epithelial shedding or increased migration of polymorphonuclear cells, and they were not protected from intravesical infection.

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Antineoplastic effect of gemcitabine in an animal model of superficial bladder cancer

Nativ

Dalal

Laufer

et al. 2004

Urology

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70 Oral halofuginone for the treatment of superficial bladder cancer: In-vivo experimental study

Nativ¹,

Meyer²,

Moskovitz³

et al. 2005

European Urology Supplements

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Eilata Dalal

Moderate Stress Protects Female Mice against Bacterial Infection of the Bladder by Eliciting Uroepithelial Shedding

EDTA‐induced urothelial cell shedding for the treatment of superficial bladder cancer in the mouse

Moderate stress protects female mice against bacterial infection of the bladder by eliciting uroepithelial shedding

Antineoplastic effect of gemcitabine in an animal model of superficial bladder cancer

70 Oral halofuginone for the treatment of superficial bladder cancer: In-vivo experimental study

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