Studies on the biosynthesis of neuropeptides

Terry, Adrian Simon

January 1988

No description available.

572

Frog skin peptides secretion

ATP ase-Positive and Metallophilic Cells in the Skin of Frog, Rana Catesbeiana

HOSHINO, TAKESHI, BANERJEE, TARUN K.

03 1900

No description available.

frog skin

xanthophore

Langerhans cell

metallophilia

ATPase

Effect of Rhei Rhizoma Extract on Short-circuit Current and Ion Permeability Across the Frog Skin Epithelium

Lin, Zhe-Wei

21 August 2009

Rhei Rhizoma, also named as rhubarb or Da Huang, has been used widely in oriental traditional medicine in treating constipation and edema. However, though much affection has been paid to the make of components on pharmaceutical mechanisms, few studies have been conducted to reveal chemical and physical mechanism of these effects. Studies have shown that diarrhea causes imbalance of chloride and sodium ion movements via epithelium, we wondered if similar mechanism may apply to Rhei Rhizoma, a herbal drug which has been used to treat constipation in oriental medicine for thousands of years. The measurement of short-circuit current (Isc) has been used widely to estimate the ion transportation between mucosal and serosal side of epithelium. In this study, we used Ussing chamber technique to examine the alternation in membrane potential and short-circuit currents. The result shows, at default, the Isc of frog skin we used was at 59.23¡Ó5.58£gA/cm², and the conductance was at 1.11¡Ó0.50£gA/cm²¡EmV. The lnjection of 1ml RRE to mucosal side of the frog skin leaded to a 90% elevation of the Isc. Followed by the application of Amiloride (sodium channel inhibitor) and Chlorothiazide (chloride channel inhibitor) to mucosal side of the epithelial skin, the observed Isc were then reduced 136% and 33% respectively. If RRE were applied after the adding of Amiloride or Chlorothiazide to the frog skin, then the Isc of the skin elevated only 24% and 70% respectively. These results show that Rhei Rhizoma Extract (RRE) significantly increases Isc upon application to the mucosal side of the skin epithelium. Amiloride and Chlorothiazide will both inhibit the Isc induced by RRE, indicating activation of chloride channel and Amiloride-sensitive sodium channel of the epithelial tissue by RRE. After the regular Ringer solution used in the preparation was replaced by Na-free and Cl-free Ringer solution, the inhibition of Isc by RRE application could still be observed although the inhibition was trivia. These results indicate that RRE acts dominantly on mucosa side of the epithelium and can be used to enhance sodium transport and to stimulate the secretion of Cl- in the epithelium.

Short-circuit current

Rhei Rhizoma

Frog skin

Effects of Clematis Armandi extracts on permeability and short circuit current (Isc) across frog skin epithelium

Han, Taishien

30 July 2002

Summary Clmatis Armandi has been used frequently in traditional Chinese medicine for the treatment of diuretic symptoms. The mechanism of its action is unclear. Possible action of this substance may involve alternation of electrolyte transport through the epithelia membranes. In this study¡Atransepithelial conductance of frog skin was measured in vitro in voltage-clamped Ussing chambers. Adding Clematis Armandi extracts to apical surface induced a conductance increment of 1.21 £gS and an apical to serosal Isc of 28.78 £gA/cm2. The Isc can not be completely blocked by apical application of amiloride. Nifedipine and TEA had no effect on Clematis Armandi induced Isc decrease. These data indicate that frog skin is highly responsive to the concentrated Clematis Armandi extracts. The increase in Isc reflects changes in transepithelial transport of Na+ ions modulated at apical membrane. The enormous increase in transepithelial conductance suggests that in additional to enhancement of amiloride-sensitive Na+ channels, Clematis Armandi may also modulate other pathways, such as Cl- ion channel modulation, which needs further investigation.

short circuit current (Isc)

Clematis Armandi

frog skin epithelium permeability

EFFECT OF GLUCOCORTICOIDS ON GENE EXPRESSION OF CUTANEOUS ANTIMICROBIAL PEPTIDES AND SUSCEPTIBILITY TO CHYTRIDIOMYCOSIS IN THE NORTHERN LEOPARD FROG (LITHOBATES PIPIENS)

Tatiersky, Laetitia

04 January 2014

Chytridiomycosis is an emerging cutaneous fungal disease that contributes to recent global declines and extinction of amphibian species, caused by infection of the skin with a fungus known as Batrachochytrium dendrobatidis (Bd). Many species of frogs secrete antimicrobial peptides onto their skin that are capable of killing Bd. This thesis is an investigation of the effect of corticosteroids on cutaneous innate immunity in frogs, in the context of infection with Bd. The general hypothesis was that injections of glucocorticoids would impair the cutaneous synthesis of these antimicrobial peptides, thereby increasing susceptibility to Bd infection. The objective of the first experiment was to measure and compare gene expression levels of cutaneous AMP’s in frogs treated with glucocorticoids with sham-treated controls. Wild-caught Lithobates pipiens were acclimatized and administered either the corticosteroid methylprednisolone or saline every 48 hours. Norepinephrine-elicited cutaneous secretions were collected prior to the first injection of corticosteroid or saline, and then every 8 days for 40 days. Gene expression of the AMP’s brevinin and ranatuerin in the cutaneous secretions was quantified relative to the reference genes EF1-α and RPL8 using reverse transcription quantitative polymerase chain reaction (RT-qPCR). Corticosteroid treatment was associated with a significant (P<0.027) increase in brevinin gene expression, which was most notable at 24-40 days of corticosteroid administration. Ranatuerin expression followed a similar but nonsignificant trend. The second experiment was a pilot study intended to establish a Bd challenge protocol in L. pipiens. Frogs were immersed in water containing 0, 104, 105 or 106 zoospores of Bd strain JEL 423. Cutaneous swabs were collected prior to challenge and tested for Bd by qPCR; unexpectedly, some tested positive, indicating pre-challenge infection. The analysis was complicated by an identified cross-reactivity of the assay with other fungi. The findings of the first experiment refuted the hypothesis, and suggested that corticosteroids promote rather than impair AMP gene expression in the skin of L. pipiens, under these experimental conditions. Further, the second study demonstrated that none of the frogs showed clinical abnormalities or died, despite exposure to Bd zoospores and despite molecular and histologic evidence of cutaneous Bd infection in some frogs. / NSERC Discovery Grant

chytridiomycosis

northern leopard frog

lithobates pipiens

antimicrobial peptides

frog skin

cutaneous

glucocorticoids

steroids

qPCR

Batrachochytrium dendrobatidis

chytrid

chytrid fungus

gene expression