Effects of partial hepatectomy on microtubules and hepatocellular transport of indocyanine green in rats

The effects of partial hepatectomy on plasma disappearance and biliary excretion of indocyanine green (ICG) have been studied in rats and correlated with morphometric changes of hepatocellular microtubules. The plasma disappearance rate of ICG was in good accord with recovery of liver weight after partial hepatectomy. Biliary excretion of ICG per 100 g liver significantly increased between 3 h and 7 days postoperatively. Colchicine significantly reduced plasma disappearance and biliary excretion of ICG, with no reduction in bile flow, in both intact and hepatectomized rats. Morphometrically, microtubules significantly increased from 3 h following partial hepatectomy and reached a maximum at 24 h with a gradual return to preoperative values at 5 days. These observations suggest that the increased hepatocellular transport of ICG after partial hepatectomy is related to an increase in the number of microtubules.     

Effects of colchicine on axonal transport and ultrastructure of the hypothalamo-neurohypophyseal system of the rat

Summary The effect of colchicine on the transport of proteins in the hypothalamo-neurohypophyseal tract of the rat was studied after injection of (³⁵S) cysteine into the supraoptic nucleus (SON) region. Colchicine, dissolved in distilled water and administered subarachnoidally, inhibited the axonal transport of labelled proteins into the neurohypophysis: the radioactivity that was recovered in neurohypophyseal TCA precipitable material was markedly decreased and hardly any radioactivity was found in the neurohypophyseal proteins which were separated by polyacrylamide gel disc electrophoresis.As revealed by electron microscopy the SON cell bodies showed marked changes after treatment with colchicine: a deeply folded nucleolemma; a pronounced, granular nucleolus; a dispersed chromatin; a zonal distribution of cell organelles with mitochondria and lysosomes accumulated at the periphery, crowded ribosomes, often arranged as polyribosomes and richly branching short profiles of endoplasmic reticulum filled with filamentous material forming an inner perinuclear zone separated by enlarged Golgi complexes.The profiles of elongated Herring bodies in the infundibulum were increased. The axon terminals were filled with heavily osmiophilic neurosecretory granules. The neurofilaments were slightly or moderately increased in number. No apparent changes were observed with regard to the neurotubuli in the SON neurons. The glial cells of the supraopticoneurohypophyseal tract showed reactive changes with a proliferation of filamentous elements. The biochemical and ultrastructural findings are discussed especially with respect to the mechanisms of transport and release of neurosecretory granules.     

Effects of colchicine on insulin binding to isolated rat hepatocytes

The effects of colchicine, an inhibitor of microtubule polymerization, on the maintenance of steady state binding of insulin to isolated hepatocytes was studied. Colchicine (10^?5M) produced a 35–45% decrease in binding in presence of insulin (10^?8M) at 37°C. This decrease in binding was time and temperature dependent. The decrease was also dependent on the amount of insulin bound to the cell. The results suggest that colchicine may prevent the maintenance of steady state binding of insulin by impairing transfer of newly synthesized or recycled receptor from within the cell to the plasma membrane.     

Cerebral blood flow assessment with indocyanine green bolus transit detection by near-infrared spectroscopy in the rat

In this study we evaluated the feasibility of measuring cerebral blood flow in rats by monitoring the transit of an indocyanine green bolus through the brain with multiwavelength near-infrared spectroscopy. Different volumes of a 1 mg/ml indocyanine green solution (5, 15, 25, 50 microl) were injected intravenously in the search for an optimal dose. Clear transit curves were obtained with all doses and a blood flow index could easily be determined. The indocyanine green signal obtained with the bolus of 5 microl rapidly returned to baseline and interfered minimally with the haemoglobin and cytochrome oxidase signals. This dose was used in a second study to evaluate the reproducibility of the signal and the effect of hypercapnia. Two groups of rats received 7 repetitive boli of indocyanine green. In one group, 7% CO(2) was added to the gas mixture before the second, fourth and sixth indocyanine green injection. Hypercapnia consistently caused a significant increase in blood flow index, cerebral haemoglobin concentration and O(2)-saturation. In the control group these variables remained stable in time. We conclude that monitoring of the transit of an indocyanine green bolus with multiwavelength near-infrared spectroscopy can be used to assess cerebral blood flow qualitatively in rats in combination with continuous monitoring of brain oxygenation.     

Electrophoretic bimorphism of serum albumin in the presence of indocyanine green

The presence of indocyanine green during extended traditional electrophoresis and immunoelectrophoresis of serum is associated with bimorphism of albumin. This occurs over a range of dye—albumin molar ratios an order or more greater than was obtained in similar phenomena described previously. The bimorphism seems not to be dose dependent beyond a certain point, and the two albumins so separated show tinctorial differences. The phenomenon has been observed to apparently the same degree in all normal sera tested, and may represent a means of distinguishing ligand-loaded and ligand-light serum albumin.     

Effect of colchicine on the intracellular transport of secretory proteins in rat liver parenchymal cells. Immunocytochemical observations

We studied the effects of colchicine on the intracellular transport of secretory proteins in rat liver parenchymal cells using the direct immunoenzyme technique. Livers were perfusion-fixed 0.5, 1, and 2 h after injection of colchicine. Vibratome sections of the fixed liver were stained using peroxidase-conjugated Fab' of anti-albumin or anti-fibrinogen. By light microscopy, reaction deposits showing albumin and fibrinogen were observed in the cytoplasmic granules of hepatocytes. Such stained granules decreased 30 min after injection, but later increased gradually and crowded in the cytoplasm. The Golgi complex stained for the proteins decreased after 30 min but increased in the juxtanuclear region after 60 min. The analysis of serial sections showed that colchicine severely disturbed the spatial relationship between the Golgi apparatus and the bile canaliculus. We obtained similar results by electron microscopy; a positive reaction for albumin and fibrinogen was observed in a small number of the cytoplasmic granules after 30 min. After 1 h of treatment, most of the Golgi complexes were fragmented and lost their stacked cisternae. However, they reappeared accompanied with vacuolated cisternae and secretory granules, which were partially stained for albumin and fibrinogen. After 2 h, the secretory granules positive for both proteins accumulated further. Some of them lined a long the plasma membrane, and others made a cluster in the cytoplasm. The profiles showing exocytosis were very rarely seen. These results showed that in the first 30 min, colchicine primarily disturbs partially the Golgi assembly but does not affect the post Golgi secretory pathway much. Later, the drug affects both the post Golgi pathway and the Golgi assembly, and it causes a marked accumulation of secretory granules.     

Laser-induced heating of dextran-coated mesocapsules containing indocyanine green

Indocyanine green (ICG) is a photosensitive reagent with clinically relevant diagnostic and therapeutic applications. Recently, ICG has been investigated for its utility as an exogenous chromophore during laser-induced heating. However, ICG's effectiveness remains hindered by its molecular instability, rapid circulation kinetics, and nonspecific systemic distribution. To overcome these limitations, we have encapsulated ICG within dextran-coated mesocapsules (MCs). Our objective in this study was to explore the ability of MCs to induce thermal damage in response to laser irradiation. To simulate tumorous tissue targeted with MCs, cylindrical phantoms were prepared consisting of gelatin, intralipid emulsion, and various concentrations of MCs. The phantoms were embedded within fresh chicken breast tissue representing surrounding normal tissue. The tissue models were irradiated at lambda = 808 nm for 10 min at constant power (P = 4.2 W). Five hypodermic thermocouples were used to record the temperature at various depths below the tissue surface and transverse distances from the laser beam central axis during irradiation. Temperature profiles were processed to remove the baseline temperature and influence of light absorption by the thermocouple and subsequently used to calculate a damage index based on the Arrhenius damage integral. Tissue models containing MCs experienced a maximum temperature change of 18.5 degrees C. Damage index calculations showed that the heat generation from MCs at these parameters is sufficient to induce thermal damage, while no damage was predicted in the absence of MCs. ICG maintains its heat-generating capabilities in response to NIR laser irradiation when encapsulated within MCs. Such encapsulation provides a potentially useful methodology for laser-induced therapeutic strategies.     

Effects of denervation and colchicine treatment on the chloride conductance of rat skeletal muscle fibers

Membrane potentials, cable parameters, and component resting conductances were measured in extensor digitorum longus (EDL) muscle fibers from adult rats in vitro at 24°C, after 15 to 18 days of denervation by nerve section, and at seven to ten days following epineural injection of 100 to 450 μg of colchicine in the peroneal nerve. The denervated muscles were paralyzed throughout the experimental period, whereas the colchicine-treated preparations showed no clinical paralysis except for the first day or two. The EDL from the untreated side served as a control. Both the denervated and colchicine-treated fibers were depolarized, showed signs of fibrillation, had tetrodotoxin-resistant action potentials, and membrane resistance was increased two- to sevenfold. In the denervated fibers, mean chloride conductance G_Cl dropped from a control value of 3196 to 596 μmhos/cm² while mean potassium conductance G_K showed a tendency to rise from 260 to 332 μmhos/cm². Colchicine-treated fibers while showing a similar fall in mean G_Cl from 2993 to 1066 μmhos/cm², also showed a significant fall in mean G_K from 213 to 116 μmhos/cm². It was concluded that factors transported by the microtubular system are important for the maintenance of the high resting G_Cl of mammalian skeletal muscle fibers.