Time course of collagen peak in bile duct-ligated rats

The operation was performed under ketamine anesthesia. A midline ventral incision was made through the linea alba. The duodenum was delivered through the incision in order to place the bile duct under the tension. Bile duct was isolated. Then, two ligatures were placed to the proximal portion and one ligature was placed to the distal part of the bile duct. The ligatures were tightened. Then, bile duct divided by the scissors in each. In Shamoperated group ligatures were withdrawn for leaving the bile duct intact. Then peritoneum, linea alba and skin were closed with silk.

The left, middle and right lobes of each liver were explored. We obtained 0.5 × 0.5 × 1.5 cm thick slices from each lobe randomly. These slices were fixed in 10% buffered formalin and routinely processed and blocked into the parafin.

The collagen content of the liver was assayed by the colorimetric method described by Lopez de Leon and Rojkind [8]. The principle is the coloring of collagenous protein by Sirius red (36554-8, 2610-10-8; Aldrich Chemical, Deisenhofen, Germany) and non-collagenous proteins by fast green (14280; MERCK, Darmstadt, Germany) (Figure 1). Fifteen micrometer-thick liver slices were taken from each paraffin block and layered on glass slides. Slices were deparaffinized after being incubated by xylol, xylol: ethanol(1:1), ethanol, water: ethanol, and water. The slides were stained with a saturated solution of picric acid in distilled water containing 0.01% fast green. Each section was kept out of the light and incubated at room temperature for 15 minutes. Then, sections were stained by a saturated solution of picric acid in distilled water containing 0.04% fast green and 0.1% of sirius red and incubated in the dark room temperature for 30 minutes. Then, samples were rinsed and transferred to a test tube containing 1 ml of 0.1% NaOH in absolute methanol (1:1). The tubes were gently mixed until the color was eluted completely. Absorbance of the eluted color was read at 540 and 605 nm by a Jasco V 50 UV-VIS spectrophotometer. Maximal absorbance of fast green is at 630 nm and 540 nm for Sirius red. Fast green exhibites a small absorbance (7.78%) at 540 nm. This interference remains constant at different concentrations of fast green. By contrast, sirius red has no absorbance at 630 nm. Therefore, sirius red does not interfere with non-collagenous protein determination. Collagen content of tissue was calculated using the formula below. It was described as in microgram collagen per milligram protein [8].

Four μ slices were obtained from the paraffin blocks and stained by tricrome. We used a special image analysis software for histomorphometric measurements. It was referred to as "staining" that can perform automatic threshold which was written by an optical image analysis expert under a commercially available software 'Matlab^®' (Natick, Massachusetts/USA). We used an automated histogram threshold method for measurements. We took the pictures by 40 × objective of an Olympus^® microscope (Hamburg/Germany) with a Nicon^® digital camera. 120 consecutive pictures from each slice were obtained. Each of these frames was represented by 1087 × 805 μm (0.875 mm²) area of the liver. 120 frames were used to reach 1 cm 2 of total surface. Image analysis software was run to automatically outline and to calculate the sum of green spectrum stained fibrotic area over red background. The collagenous areas were measured as a percentage of the total surface area of the liver.

Five-micrometer liver sections were stained by hematoxylin-eosin and Masson's trichrom. We used Ishak fibrosis classification system for grading of necroinflammatory activity and staging of fibrosis [9]. We used a scoring system from 1 to 4 for grading of portal proliferation (Figure 2).

Serum AST and ALT levels were assessed by using commercial kits (Roche Diagnostics, GmbH, D-68298, Mannheim, Germany) in Roche-Hitachi Modular Autoanalyzer (Roche Diagnostics, GmbH, D-68298, Mannheim, Germany).Bayer Opera autoanalyzer was used to measure bilirubin levels by wavelength, 550 nm; temperature, 37°C; and instrument set for endpoint with sample blanking mode. Serum levels of GGT and ALP were measured by an Olympus AU 800 biochemical automated analyser.

Kruskall-Wallis test was used to analyse the homogenity among the different groups of rats, Additionally, multiple post-hoc comparisons with Mann-Whitney U test was used. P value less than 0.05 was considered to be statistically significant. Calculation was performed by SPSS in v.11 program.

There were no significant differences about the body weights between the groups at any time. The animals slightly lost weight at the 1st week. They gained weight during the 2nd week. These changes never reached a difference between BDL rats, sham group and control group (Table 1)

Liver weight increased at the 1st week, and continued to increase during the study. There was no significant difference between controls and group 1. By contrast, there were statistically significant differences between control groups and groups 2, 3 and 4 (P < 0.001) (Table 1).

There were some differences in necroinflammatuary scores (NIS) and fibrosis scores (FS) among the groups. NIS and FS were higher in group 3 than in others (groups 1, 2 and 4). However, these differences were not significant, statistically (P > 0.05). Portal proliferation has been increased from the first week to the fourth week. The peak level of portal proliferation was observed at the end of the fourth week.

The hepatic collagen content of BDL groups was significantly higher than healthy controls and sham group. Collagen content of the liver with bile duct-ligated was increased, particularly, between control group and group 1 at the 1st week (P < 0.001). The collagen content of the liver was higher at the 2nd week; with a statistically significant difference between control group and group 2. There was no difference between groups 1 and 2 (P > 0.05). At the 3rd week, the collagen content reached to maximum concentration in the Group 3 and compared to other groups (control, group 1, 2, and 4 and sham) (P < 0.001). Moreover, we found a statistically significant decreasing in group 4 at the 4th week (P < 0.01) (Figure 3).

Histomorhometric measurement for collagen demonstrated a very similar pattern as the biochemical collagen measurement. We found that the peak level of collagen was at the third week and a decrease at the fourth week (P < 0.05) (Figure 4).

Serum AST levels increased up to 5 fold of normal at the 1st week. It was started to decrease at the 2nd week, but it was still higher by two fold than control groups at the end of the fourth week (P < 0.001). Serum ALT levels increased up to 10 times at the 1st week (Group 1) when compared with the control group. It started to decrease at the 2nd week. But, serum ALT level was still two times higher than control group at the 4th week (Figure 5).

Serum total bilirubin level reached to the level of 17.42 mg/dl ± 4.66 (mean ± SD) in group 1 and was almost the same level in group 2 (p > 0.05). The bilirubin level started to decrease in group 3, but it was still high at the 4th week (group 4) (8.81 ± 2.76 mg/dl). Direct bilirubin levels increased in the same manner and 10.15 ± 2.77 mg/dl in Group1. However, there was no statistically significant difference between groups 1 and 2 (P > 0.05). Then, it started to decrease but was still higher at the 4th week (5.28 ± 1.69) (Figure 6).

Serum ALP level increased up to 5 fold of normal at the 1st week. It started to decrease at the 2nd week. It was still higher at the 4 th week, and no significant difference between control group and group 4 (P > 0.05). Serum GGT level increased up to 20 times and reached to 51.12 ± 35.60. It continued to increase and reached to its maximum concentration at the third week (95.22 ± 48.97). At the end of fourth week it decreased to 47 ± 20. 97 (Figure 7).