Multiprobe laser reflectometry in imaging and characterization of biological tissues

Laser backscattered radiation from human forearm and foot were measured by multi-probe reflectometer, which consisted of one input probe and three output probes placed at distances of 2, 4 and 6 mm from the input probe. The normalized backscattered intensity (NBI) signals from the tissue surface, measured by the output probes, after digitization, were used to reconstruct the reflectance images of tissues in various layers below the skin surface. From NBI profiles measured at various locations of the tissues on the forearm the corresponding optical parameters, the scattering (mu(s)) and absorption (mu(a)) coefficients and the anisotropy parameter g, by matching these with profiles as simulated by Monte Carlo procedure were determined. From these data the optical parametric images of forearm were reconstructed which show the variation of these parameters at various locations. Similarly, the NBI data were collected from the foot sole region of healthy and diabetes subjects and their images reconstructed. These images showed the variation in the NBI in the diabetic foot sole compared to that of healthy subject, indicating the tissue structural changes. These procedures could be useful for diagnostic and therapeutic applications of lasers.

Partial bladder outlet obstruction selectively abolishes protein kinase C induced contraction of rabbit detrusor smooth muscle

PURPOSE

Despite the acute onset, partial bladder outlet obstruction in the rabbit induces detrusor remodeling similar to that in men with benign prostatic hyperplasia in terms of its impact on structural and functional alterations in smooth muscle. We determined if partial bladder outlet obstruction induced remodeling alters the protein kinase C signaling pathway that leads to contraction.

MATERIALS AND METHODS

Smooth muscle from control animals and those subjected to 2 weeks of partial bladder outlet obstruction were mounted for isometric force recording, measurement of myosin light chain phosphorylation and levels of adducin phosphorylation. Bladder muscle strips were stimulated by phorbol dibutyrate or carbachol in the presence and absence of bisindolylmaleimide-1.

RESULTS

Smooth muscle strips from animals subjected to partial bladder outlet obstruction showed little to no increase in stress in response to phorbol dibutyrate and no increase in myosin light chain phosphorylation levels. Muscle strips from control animals produced a robust contraction with concomitant increases in myosin light chain phosphorylation. Inhibition of protein kinase C by bisindolylmaleimide-1 significantly depressed carbachol induced contractions of muscle strips from control animals but it had no effect on carbachol induced contractions of muscle strips from outlet obstructed animals. Phorbol dibutyrate increased phospho-adducin levels in muscle strips from the 2 animal sources, suggesting that protein kinase C could be activated.

CONCLUSIONS

We propose that partial bladder outlet obstruction does not alter protein kinase C activation, but rather abolishes or uncouples the pathway(s) downstream of protein kinase C, leading to contraction. Loss of this pathway may contribute to the loss of normal voiding behavior and the resultant decompensated state.

Regional differences in myosin heavy chain isoform expression and maximal shortening velocity of the rat vaginal wall smooth muscle

Contractility of the proximal and distal vaginal wall smooth muscle may play distinct roles in the female sexual response and pelvic support. The goal of this study was to determine whether differences in contractile characteristics of smooth muscle from these regions reside in differences in the expression of isoforms of myosin, the molecular motor for muscle contraction. Adult female Sprague-Dawley rats were killed on the day of estrus, and the vagina was dissected into proximal and distal segments. The Vmax at peak force was greater for tissue strips of the proximal vagina compared with that of distal (P < 0.01), although, at steady state, the Vmax for the muscle strips from the two regions was not different. Furthermore, at steady state, muscle stress was higher (P < 0.001) for distal vaginal strips (n = 5). Consistent with the high Vmax for the proximal vaginal strips, RT-PCR results revealed a higher %SM-B (P < 0.001) in the proximal vagina. A greater expression of SM-B protein (P < 0.001) was also detected by Western blotting (n = 4). Interestingly, there was no regional difference noted in SM-1/SM-2 isoforms (n = 6). The proximal vagina had a higher expression of myosin heavy chain protein (P < 0.01) and a greater percentage of smooth muscle bundles (P < 0.001). The results of this study are the first demonstration of a regional heterogeneity in Vmax and myosin isoform distribution in the vagina wall smooth muscle and confirm that the proximal vaginal smooth muscle exhibits phasic contractile characteristics compared with the distal vaginal smooth muscle, which is tonic.

Lipid signaling changes in smooth muscle remodeling associated with partial urinary bladder outlet obstruction

AIMS

Hypertrophy of the urinary bladder smooth muscle (detrusor) is associated with partial bladder outlet obstruction (PBOO). Hypertrophied detrusor smooth muscle (DSM) reveals altered contractile characteristics. In this study, we analyzed the lipid-dependent signaling system that includes phospholipase A2 in PBOO-induced DSM remodeling and hypertrophy to determine whether the release of arachidonic acid (AA) from phospholipid is altered in the detrusor.

METHODS

Partial bladder outlet obstruction (PBOO) was produced by partial ligation of the urethra in New Zealand white rabbits. Two weeks after the surgery, the bladder function was studied by keeping the rabbits in metabolic cages for 24 hr. Bladders were removed from rabbits that had bladder dysfunction (increased urinary frequency and decreased void volume) and the DSM separated from mucosa and serosa. The isolated smooth muscle was incubated with [3H] AA to equilibrate the cytoplasmic AA. The level of AA release was compared with the level obtained with 2-week sham-operated rabbits.

RESULTS

The rate of AA release was high in DSM from bladders with PBOO-induced hypertrophy. Carbachol stimulated AA release in control DSM but DSM from obstructed rabbits revealed no further increase from the elevated basal AA release. The half-maximal concentration of carbachol that was required to stimulate AA release from control samples of detrusor was 35 microM.

CONCLUSIONS

The increased levels of AA release that are observed in this tissue after PBOO indicate the activation of phospholipase A2. The finding that carbachol could induce contraction, but not an increase in AA, indicates that the carbachol-induced contraction in the obstructed bladders is independent of lipid signaling pathways that involve AA. It is possible that the increased rate of arachidonic acid release from obstructed bladders correlates with the enhanced rates of prostaglandin production reported by other investigators from the same tissue.

Increased basal phosphorylation of detrusor smooth muscle myosin in alloxan-induced diabetic rabbit is mediated by upregulation of Rho-kinase β and CPI-17

Urinary bladder dysfunction caused by the alteration of detrusor smooth muscle (DSM) is one of the complications of diabetes. It is well established that smooth muscle contractility is regulated by an elevation of cytosolic Ca2+ via myosin light chain (MLC) phosphorylation. However, recent studies have shown the modulation of MLC phosphorylation without a rise in Ca2+ in smooth muscle and that two key molecules (Rho-kinase and CPI-17) are involved in the regulation of calcium sensitization. This study investigates the effect of diabetes on DSM calcium sensitization. Diabetes was induced by alloxan in New Zealand White rabbits, and age-matched rabbits given 5% sucrose in the drinking water served as control for diuresis. Two-dimensional gel electrophoresis showed that basal MLC phosphorylation level was significantly higher in diabetic animals than normal or diuretic controls, and Rho-kinase-specific inhibitor, Y-27632, decreased MLC phosphorylation level. Adding Y-27632 to bethanechol-precontracted DSM strips can induce muscle relaxation, but it occurred much more slowly in diabetic samples compared with controls. RT-PCR, Western blot analysis, and immunohistochemistry revealed the overexpression of Rho-kinase β and CPI-17 at both mRNA and protein levels in response to diabetes. In conclusion, our results demonstrate that Rho-kinase contributes to DSM MLC phosphorylation and there is a higher basal MLC phosphorylation level in diabetic DSM. Our results also suggest that this high basal MLC phosphorylation may be due to the upregulation of Rho-kinase and CPI-17. Thus Rho-kinase- and CPI-17-mediated Ca2+ sensitization might play a role in diabetes-induced alteration of the detrusor contractility and bladder dysfunction.

Partial Bladder Outlet Obstruction Induces Urethral Smooth Muscle Hypertrophy and Decreased Force Generation

PURPOSE

PBOO leads to increased urinary frequency, decreased void volume, hypertrophy of the detrusor SM, and alterations in contractile and regulatory proteins. This study was done to determine whether PBOO induced increases in urinary frequency and detrusor SM hypertrophy are associated with an alteration in the contractility and expression of myosin isoforms in urethral SM.

MATERIALS AND METHODS

PBOO was surgically induced in male New Zealand White rabbits, and sham operated rabbits served as controls. After surgery, rabbits were kept 12 days, and prior to sacrifice, urine output and voiding frequency were monitored by keeping the animals in metabolic cages for 24 hours. Animals with increased urinary frequency (mean +/- SEM 43 +/- 12 voids per 24 hours) and sham operated rabbits (6 +/- 3 voids per 24 hours) were used for this study. Morphology of the urethra was studied using light and immunofluorescence microscopy. The expression of myosin isoforms was analyzed at the mRNA and protein levels by RT-PCR and Western blotting.

RESULTS

The urethral wall and SM of PBOO rabbits showed hypertrophy. The force produced by the longitudinal muscle strips of PBOO animals in response to phenylephrine, KCl, or electrical field stimulation was decreased 50%, 37% and 40%, respectively. Immunofluorescence microscopy revealed a decrease in nerve density. RT-PCR and Western blotting showed a decrease in the expression of myosin isoform SM-B with a concomitant increase in SM-A at the mRNA and protein levels.

CONCLUSIONS

Our data show hypertrophy of the urethral wall and SM, and alterations in contraction, innervation, and myosin isoforms in PBOO induced detrusor hypertrophy.

Smooth muscle trans-membrane sarcoglycan complex in partial bladder outlet obstruction

The urinary bladder experiences both distension and contraction as a part of the normal filling and emptying cycle. To empty properly, tension generated intracellularly in a smooth muscle cell must be smoothly and efficiently transferred across its sarcolemma to the basement membrane, which mediates its binding to both the extracellular matrix and to other cells. As a consequence of urethral obstruction, the bladder cannot generate appropriate force to contract the organ, thereby leading to inefficient emptying and associated sequelae. In this study, an animal model of urethral obstruction was utilized to study the membrane-associated structures that transfer tension across the sarcolemma of bladder smooth muscle cells. Immunohistochemical localization of key components of the smooth muscle tension transfer apparatus (TTA) was performed utilizing specific antibodies against:(1) the alpha-chains of type IV collagen, a basement membrane component, and (2) beta-sarcoglycan, an integral membrane protein that is a participant in the physical linkage between the cytoskeleton and the basement membrane. We demonstrate, in obstructed animals, that there is a pronounced disruption of the TTA with a physical displacement of these two components that can be demonstrated at the level of the light microscope using scanning confocal microscopy. Electron microscopy further demonstrates significant increases in the size of the junctional plaques between smooth muscle cells.

Altered expression of thin filament-associated proteins in hypertrophied urinary bladder smooth muscle

AIMS

Obstruction of the urinary bladder outlet induces detrusor smooth muscle (DSM) hypertrophy. The goal of this study was to determine whether the composition of thin filament-associated proteins, known to play important roles in cytoskeletal structure and/or the regulation of contraction, is altered in DSM during hypertrophy.

METHODS

DSM hypertrophy was induced in male rabbits by partial ligation of the urethra. Sham-operated rabbits served as a control. Reverse transcriptase-polymerase chain reaction (RT-PCR) and real-time PCR revealed a significant increase in the expression of mRNAs for basic (h1) calponin (CaP), and alpha-isoform of tropomyosin (Tm) in hypertrophied DSM compared to controls. Western blotting and two-dimensional (2-D) gel electrophoresis showed enhanced expression of these proteins and also a significant increase in the expression of beta-non muscle and gamma-smooth muscle actin in the DSM from obstructed bladders, while alpha-actin remained constant.

RESULTS

Enhanced expression of these proteins in the DSM from obstructed bladders was confirmed by immunofluorescence microscopy. Double immunostaining with Cap/Tm and alpha/beta-actin-specific antibodies showed co-localization of these proteins in myocytes. Colocalization of smooth muscle specific myosin and CaP to cytoplasmic filaments in cells dissociated from the hypertrophied DSM indicated that these cells are differentiated smooth muscle cells.

CONCLUSIONS

The change in the isoforms of actin, Cap, and Tm may be part of the molecular mechanism for bladder compensation in increased urethral resistance.

First-principles investigation of finite-temperature behavior in small sodium clusters

A systematic and detailed investigation of the finite-temperature behavior of small sodium clusters, Na(n), in the size range of n=8-50 are carried out. The simulations are performed using density-functional molecular dynamics with ultrasoft pseudopotentials. A number of thermodynamic indicators such as specific heat, caloric curve, root-mean-square bond-length fluctuation, deviation energy, etc., are calculated for each of the clusters. Size dependence of these indicators reveals several interesting features. The smallest clusters with n=8 and 10 do not show any signature of melting transition. With the increase in size, broad peak in the specific heat is developed, which alternately for larger clusters evolves into a sharper one, indicating a solidlike to liquidlike transition. The melting temperatures show an irregular pattern similar to the experimentally observed one for larger clusters [Schmidt et al., Nature (London) 393, 238 (1998)]. The present calculations also reveal a remarkable size-sensitive effect in the size range of n=40-55. While Na(40) and Na(55) show well-developed peaks in the specific-heat curve, Na(50) cluster exhibits a rather broad peak, indicating a poorly defined melting transition. Such a feature has been experimentally observed for gallium and aluminum clusters [Breaux et al., J. Am. Chem. Soc. 126, 8628 (2004); Breaux et al., Phys. Rev. Lett. 94, 173401 (2005)].

Increased corpus cavernosum smooth muscle tone associated with partial bladder outlet obstruction is mediated via Rho-kinase

Numerous studies have now demonstrated that lower urinary tract symptoms (LUTS) are associated with erectile dysfunction (ED) in men independent of age or general health. Because one-third of men over the age of 50 will develop LUTS and a recent study showed ED in 62% of patients presenting for LUTS, the importance of determining the mechanistic link between these two pathologies is clear. Using a rabbit model of partial bladder outlet obstruction (PBOO), a primary cause of LUTS, we have identified an increased basal corpus cavernosum smooth muscle (CCSM) tone associated with an elevated level of smooth muscle myosin (SMM) phosphorylation in PBOO compared with sham-operated control rabbits (sham). Results from in vitro kinase and phosphatase assays using purified smooth muscle myosin showed increased kinase and decreased phosphatase activities in cellular extracts from corpora cavernosa isolated from PBOO compared with sham rabbits. Increased Rho-kinase expression in the CCSM of PBOO rabbits was suggested by the observations that Rho-kinase inhibitors attenuated the increased kinase activity and were less effective in relaxing CCSM strips from PBOO vs. sham rabbits. This hypothesis was then confirmed by RT-PCR and Western blotting, which demonstrated increased expression of both isoforms of Rho-kinase (ROKα and ROKβ). Increased SMM basal phosphorylation (necessary for SM contraction) in the CCSM of PBOO rabbits, mediated via an increase in Rho-kinase expression/activity, would be expected to make the CCSM more difficult to relax (necessary for erection), which suggests that the RhoA/Rho-kinase pathway as being involved in the mechanism for LUTS-associated ED.

Over expression of smooth muscle thin filament associated proteins in the bladder wall of diabetics

PURPOSE

The thin filament associated proteins caldesmon, tropomyosin and calponin have been shown to modulate actin-myosin interaction, actomyosin adenosine triphosphatase and contraction in smooth muscle. This study was performed to determine whether the expression of these proteins is altered in diabetes induced decrease in the contractility of bladder wall smooth muscle.

MATERIALS AND METHODS

Detrusor samples were obtained from New Zealand White male rabbits with alloxan induced diabetes, and from age and sex matched control rabbits. In addition, a bladder myocyte cell line, which continues to express smooth muscle phenotype, was exposed to either normal (5 mM) or high (50 mM) concentrations of glucose. The levels of expression of the thin filament associated proteins were determined at the mRNA and protein levels by reverse transcriptase-polymerase chain reaction and Western blotting, respectively.

RESULTS

Detrusor smooth muscle tissue from rabbits with alloxan induced diabetes showed over expression of thin filament associated proteins, calponin, tropomyosin and caldesmon when compared with that of the control. Similar up-regulation was seen also in bladder myocytes in cultures treated with 50 mM glucose, indicating that the high glucose induced the changes.

CONCLUSIONS

Our results suggest that the increased expression of thin filament proteins, calponin, tropomyosin and caldesmon in diabetic rabbits might alter the contractile and cytoskeletal structure in bladder myocytes. The over expression of these thin filament associated proteins, which suppresses actin-myosin interaction and actomyosin adenosine triphosphatase, and the enhancement of this suppression by tropomyosin are likely to have an effect on the relationship between force and myosin light chain phosphorylation, requiring higher levels of phosphorylation in diabetic detrusor compared with that of control. The downstream effects of high glucose (eg oxidative stress) appear to modulate the transcriptional regulation of thin filament mediated regulatory proteins in bladder smooth muscle.

REGIONAL ALTERATIONS IN THE EXPRESSION OF SMOOTH MUSCLE MYOSIN ISOFORMS IN RESPONSE TO PARTIAL BLADDER OUTLET OBSTRUCTION

PURPOSE

Smooth muscle (SM) myosin (SMM) isoform composition is altered in response to partial bladder outlet obstruction (PBOO). A recent study showed that during PBOO the upper dome region of the bladder is subjected to greater expansion pressure than the base and regional differences in contractility exist in the detrusor of PBOO rabbits. We hypothesized that alteration in SMM isoform composition in response to PBOO may show regional heterogeneity.

MATERIALS AND METHODS

Detrusor samples were obtained from 9 defined regions of the bladders from dysfunctional PBOO rabbits (greater than 30 voids per 24 hours) and sham operated adult New Zealand White rabbits. Reverse transcriptase-polymerase chain reaction, sodium dodecyl sulfate-polyacrylamide gel electrophoresis and Western blotting were used to determine the relative levels of SMM isoform expression at the mRNA and protein levels. Contractile responses to bethanechol and KCl were also determined.

RESULTS

Myosin isoform expression was uniform throughout the detrusor from sham operated subjects with all regions expressing SM-B almost completely. However, in response to PBOO the dome region showed approximately 70% SM-B and 30% SM-A isoforms, whereas the base region expressed only 35% SM-B and, thus, 65% SM-A. This change also correlated with an approximately 2-fold higher protein level expression of SM-B in the dome region of PBOO rabbit bladders. Expression of the SMemb SMM isoform was significantly increased in PBOO rabbits at the mRNA and protein levels but only in the dome region. Regional differences in SMM isoform expression in the PBOO rabbit bladders correlated with altered contractility.

CONCLUSIONS

Alteration in SMM isoform composition in response to PBOO shows regional heterogeneity and may be involved in the mechanism responsible for regional localized differences in detrusor contractility in PBOO rabbits.

DIABETES INDUCED DECREASE IN DETRUSOR SMOOTH MUSCLE FORCE IS ASSOCIATED WITH OXIDATIVE STRESS AND OVERACTIVITY OF ALDOSE REDUCTASE

PURPOSE

Bladder dysfunction is one of the complications of diabetes. We determined whether diabetic induced bladder dysfunction is associated with decreased detrusor smooth muscle contractility, hyperglycemia induced over expression of aldose reductase (AR) and increased sorbitol production. In addition, we compared oxidative stress in the detrusor smooth muscle in diabetic rabbits with that in normal rabbits by estimating lipid peroxidation.

MATERIALS AND METHODS

Diabetes was induced in New Zealand White, age matched male rabbits by intravenous injection of alloxan (100 mg/kg body weight). Normal and sucrose drinking rabbits served as controls. Six months after the induction of diabetes rabbits with a blood glucose level of 400 mg/dl or higher were sacrificed and detrusor smooth muscle tissue was isolated. Detrusor was analyzed for force generation, lipid peroxidation products using malondialdehyde as a biomarker, and AR expression and function by reverse transcriptase-polymerase chain reaction and sorbitol levels, respectively.

RESULTS

The mean maximum force +/- SE produced by detrusor muscle strips in response to 125 mM KCl was 17.50 +/- 1.66, 17.56 +/- 1.23 and 7.51 +/- 2.56 gm/100 mg tissue in normal, sucrose drinking and diabetic rabbits, respectively, representing a 57% force decrease in diabetic subjects. Bethanechol elicited force decreased 40% (26.52 +/- 3.21, 27.3 +/- 2.87 and 16.32 +/- 1.67 gm/100 mg tissue, respectively, in normal, sucrose drinking and diabetic rabbits) in diabetic vs control subjects. Concomitant with the force decrease, the expression of AR, sorbitol content and lipid peroxidation products were increased.

CONCLUSIONS

Diabetes induced a decrease in detrusor smooth muscle force. This was associated with an increase in lipid peroxides and sorbitol concomitant with over expression of AR and polyol pathway activation. Our data suggest that these changes might contribute to oxidative stress and decreased contractility of detrusor smooth muscle, leading to bladder dysfunction.

Murine in vitro whole bladder model: a method for assessing phenotypic responses to pharmacologic stimuli and hypoxia

AIMS

Recent advances in genetic manipulation have allowed for over expression or deletion of selective genes in mice. This offers urologic investigators new means of understanding bladder function in the context of normal development or the response to outlet obstruction. It is important to correlate any genetic manipulations in mice with specific phenotypic properties such as voiding patterns, or muscle strip physiology. We describe a simple in vivo whole bladder preparation that may be used to study the phenotypic changes in bladder function.

METHODS

Murine bladders were mounted on a 30 gauge needle and mounted in an organ chamber containing a physiologic buffer solution. Passive bladder properties were assessed with cystometry, and active contractile responses were measured in response to electrical field stimulation and agonists. The effects of hypoxia were also studied.

RESULTS

Compliance in the murine bladder is dependent upon actin myosin interactions, and increased in the presence of calcium free buffer and EGTA. The sarcoplasmic reticulum plays a smaller role in the contraction of murine bladder than in other species. Murine bladder smooth muscle demonstrated a remarkable ability to withstand hypoxia.

CONCLUSIONS

This simple model can be adapted to help study the murine bladder smooth muscle phenotype under highly controlled circumstances.