Regulatory volume decrease in Leishmania mexicana: effect of anti-microtubule drugs

The trypanosomatid cytoskeleton is responsible for the parasite's shape and it is modulated throughout the different stages of the parasite's life cycle. When parasites are exposed to media with reduced osmolarity, they initially swell, but subsequently undergo compensatory shrinking referred to as regulatory volume decrease (RVD). We studied the effects of anti-microtubule (Mt) drugs on the proliferation of Leishmania mexicana promastigotes and their capacity to undergo RVD. All of the drugs tested exerted antiproliferative effects of varying magnitudes [ansamitocin P3 (AP3)> trifluoperazine > taxol > rhizoxin > chlorpromazine]. No direct relationship was found between antiproliferative drug treatment and RVD. Similarly, Mt stability was not affected by drug treatment. Ansamitocin P3, which is effective at nanomolar concentrations, blocked amastigote-promastigote differentiation and was the only drug that impeded RVD, as measured by light dispersion. AP3 induced 2 kinetoplasts (Kt) 1 nucleus cells that had numerous flagella-associated Kts throughout the cell. These results suggest that the dramatic morphological changes induced by AP3 alter the spatial organisation and directionality of the Mts that are necessary for the parasite's hypotonic stress-induced shape change, as well as its recovery.

Mechanisms of regulatory volume decrease of human lens epithelial cells associated with hypotonic stimulation / 中华实验眼科杂志

Background It is widely appreciated that many animal cells rely on the mechanism of regulatory volume decrease (RVD) after swell under the hypotonic environment,which involved in some processes of cellular physiology.But the RVD of lens epithelial cells(LECs) still is being further researched.Objective Present study was to clarify the possible mechanisms and influencing factors in the RVD of LECs.Methods Human LECs line (HLE B-3)were cultured and passaged in DMEM/F12 containing 10％ fetal bovine serum(FBS),and before volume measurement,cells were stuck to the base of a perfusion chamber,Ringer solution osmolality was decreased from 15％Hypo to 45％ Hypo,and the cells stimulated by 45％ Hypo Ringer solution were used as the control group.Some experiments were performed in the presence of high extracellular K+ concentration,chloride or potassium channel inhibitor,experiments were also carried out in the nominal absence of Ca2+,Cl-or HCO-3 to test the effect of a decrease in intracellular concentration of these ions on the cell volume response.The volume changes of living cells were measured by lag-time microphotograph acquisition and analysis system (IPP6.0).Results Time course of cell volume change after hypotonic shock in HLE B-3 cells was observed.The cell swelling was followed by a gradual volume recovery,indicating the presence of RVD was influenced by the hypotonic stress.Under the stimulation of 45 ％Hypo Ringer solution,the rates of RVD were (59.1 ±7.8)％.RVD was correlated positively to the maximum cell volume (r =0.99,P＜0.05)in S shape,and RVD changes were sensitive to alter maximum cell volume in the range of 115％-135％.RVD reduced to (16.5 ± 1.6) ％,(14.7 ± 2.3) ％,respectively after acted by potassium channel inhibitor,TEA(10 mmol/L)and BaCl2(5 mmol/L)as well as chloride channel inhibitor,NPPB(100 μmol/L)and DIDS(100 μmol/L),with significant differences in comparison with the control group(all P＜0.01).RVD decreased by(5.8±1.6)％ and(2.7±0.8)％ in high concentration of K+ in extracellular fluid and the absence of Cl-(P＜0.01).RVD was significantly inhibited under the absence of Ca2+.When the 45％ Ringer solution was pH6.8,the process of RVD delayed.The rate of RVD in the first ten minutes was (0.86±0.24)％/min,showing a significant decline in comparison with (3.24±0.84) ％ / min of pH 7.4 (P ＜0.05).Conclusions HLE B-3 have RVD ability under the hypotonic stress stimulation.A certain intracellular Ca2+ concentration is the premise of RVD activation,and Cl efflux and K+ efflux are the key mechanism of RVD of HLE B-3.Acidic environment of hypotonic solution delays the occurrence of RVD.

The Effect of Choloride Channel on Aqueous Humor Production

Regulating the cell volume is an important factorin secretory function of epithelial cells and regulatory volume decrease (RVD) phenomenon is involved in response to the changes of cell volume and osmolarity. RVD of epithelial cells reflects cellular release of K+ and C1- through channels and K+ and C1- channels were verified in the basal membrane of the non pigmented ciliary epithelial cells. Therefore, we attempted to observe the involvement of C1- channel in aqueous humor production by performing the fluorophotometry after administration of the DIDS(4.4-diisothiocyanatostilbene-2-2-disulfonic acid), the C1 channel blocker. Ten white New Zealand rabbits, 5 for tonometry and 5 for fluorophotometry, were used. One eye was injected 2x10-4M DIDS intravitreally using microsyringe and the other eye was injected normalsaline as a control in each rabbits. Tonometry was performed before the injection and every hour after dosing for 5 hours. Fluorophotometry was performed every 30 minutes for 3 hours starting 2 hours after injection. Wilcoxon`s signed rank test was used for statistical analysis. DIDS decreased intraocular pressure by 12.5%(P<0.05) and reduced aqueous humor flow rate by 28.5%(P0.05). In conclusion, it was observed.