Effects of Fuzhenghuayu decoction on collagen
synthesis of cultured
hepatic stellate cells,hepatocytes and
fibroblasts in rats
Cheng Liu,Ping Liu,Cheng-Hai
Liu,Xiu-Qing Zhu,Guang Ji
Abstract: AIM: To study the mechanism of Fuzhenghuayu (FZHY) decoction on anti-liver fibrosis. METHODS: FZHY 10% decoction sera was incubated with rat normal subcultured hepatic stellate cells (HSC) and fibrotic primarily cultured HSC, normal and fibrotic hepatocytes and subcultured skin fibroblasts separately. Cell intracellular and extracellular collagen synthesis rates were measured by the method of [3H] Proline impulse and collagenase digestion. RESULTS: For primarily cultured HSC and hepatocytes,both of intracellular and extracelluar collagen synthesis rates decreased in the drug sera group. For the normal subcultured HSC and primarily cultured hepatocytes, the extracellular collagen secretion was decreased obviously by the drug sera, and intracellular collagen synthesis rates were inhibited to some extents. For fibroblasts, both intracellular and extracellular collagen synthesis rates were inhibited somewhat, but no significant differences were found. CONCLUSION: The mechanism of FZHY decoction on anti-liver fibrosis may be associated with inhibition of liver collagen production.
INTRODUCTION
Liver fibrosis is the common pathological feature of chronic liver diseases, and is closely associated with changes of liver cell functions. In order to investigate the mechanism of Fuzhenghuayu decoction action on liver fibrosis, the drug serum was collected and incubated with cultured rat hepatic stellage cell (HSC), hepatocytes and fibroblasts, and then cellular functions were observed.
MATERIALS
AND METHODS
Animals
Wistar male
rats were purchased from
Reagents
Minimum
essential medium Eagle (MEM),199 Medium (M199) and Dubocal modified Eagle’s
Medium (DMEM) were purchased from
Drug
Fuzhenghuayu (FZHY) decoction consists of Cerdeceps, Semen Persiciae, Radix Salviae Miltiorrhizae, etc. Shanghai Zhonghua Pharmaceutical Factory made the decoction into a kind of fluid extract.
Cell isolation and culture
HSC isolation and culture were performed according
to the modified Freidman method, and hepatocyte isolation according to the
modified method. Fibroblast followed
Model establishment Male Wistar rats received 0.5%DMN dissolved in 0.15mol/L NaCl, at a
dose of 10μl of
DMN/
Drug sera were prepared Using our method.
Grouping and drug sear incubation The cultured cells were divided into control and drug serum groups. The control was incubated with 199 medium containing 10% normal rat serum, and the drug group was incubated with 199 medium containing 10% drug serum, for 72h in HSC and fibroblast cells, for 48h in hepatocytes and 24h for fibrotic HSC.
Assay of collagen synthesis rates Greets method was used.
Statistics Two tails student t test was used for statistical analysis.
RESULTS
Effects
on HSC collagen synthesis
The drug sera markedly inhibited the intracellular collagen synthesis in normal subcultured HSC, and both intracellular and extracellular collagen productions in fibrotic HSC.
Table1 Effects of drug sera on HSC collagen
synthesis rate(n=4,% mean±SD)
|
|
|
Fibrotic
HSC |
||
|
Group |
Intracellular |
Extracellular |
Intracellular |
Extracellular |
|
Drug sera |
0.31±0.21 |
2.70± |
0.12± |
0.80±0.34b |
|
Control |
0.57±0.37 |
4.15±0.95 |
0.33±0.10 |
1.72±0.53 |
aP<0.05, bP<0.01,
vs control
Effects on hepatocyte collagen synthesis
The drug sera could inhibit extracellular collagen synthesis more obviously in fibrotic hepatocytes than in the normal cells, The drug sera could also inhibit intracellular collagen synthesis of fibrotic hepatocytes (Table 2).
Table2
Effects of drug sera on hepatocyte collagen synthesis rate(n=4,% mean±SD)
|
|
Normal
hepatocyte |
Fibrotic
hepatocyte |
||
|
Group |
Intracellular |
Extracellular |
Intracellular |
Extracellular |
|
Drug
sera |
0.34±0.05 |
0.23± |
0.84± |
0.43±0.12b |
|
Control |
0.31±0.09 |
0.30±0.02 |
1.24±0.05 |
0.60±0.14 |
aP<0.05, bP<0.01, vs
control.
Effects
on NIH/3T3 Fibroblast collagen synthesis
The drug sera could inhibit both intracellular and extracellular collagen synthesis to some extent, but no significant difference was found (Table3).
Table3
Effects of drug sera on NIH/3T3 fibroblast collagen synthesis rate(n=4,% mean±SD)
|
Group |
Intracellualr |
Extracellular |
||||
|
Drug
sera |
1 |
53±0 |
50(6) |
8 |
89±3 |
66(6) |
|
Control |
2 |
03±0 |
75(5) |
12 |
62±1 |
03(4) |
In
bracket was the case numbers
DISCUSSION
Collagens are the main components of extracellular matrix, which play an important role in keeping liver structure and functions. If collagen production increased or decomposition decreased, its metabolism would break and lead to liver fibrosis. It was found that HSC could transform to myofibroblasts under stimulation of cytokines induced by hepatocyte injury, and was the key cell for synthesis and secretion of collagen in liver. In the paper, both normal subcultured HSC and fibrotic HSC showed significance in collagen production. Although hepatocyte has the function of collagen production, which is low in normal hepatocytes, and increased obviously in fibrotic hepatocytes. This was also observed in our study. Fibroblasts had many subtypes, all of which could produce exracellular matrix, and were used for cell models in investigating liver fibrosis instead of HSC. In this study, rat skin fibroblast showed ability of collagen production.
Besides anti-etiology therapy, regulation of collagen metabolism, including inhibition of collagen synthesis and increase of collagen decomposition, could protect or delay the formation of liver fibrosis, while inhibition of collagen production in liver is one of key steps for anti-liver fibrosis. In our previous clinical and animal studies, Fuzhenghuayu decoction showed good effects on liver fibrosis. In the resent study, serum was collected from rats fed on Fuzhenghuayu decoction by seropharmacological method and incubated with 3 kinds of cells. The results showed that the drug sera could decrease normal and intracellular collagen synthesis of fibrotic hepatocyte, decrease extracellular collagen production in subcultured HSC and normal hepatocyte, inhabit fibroblast collagen production and intracellular collagen production in HSC to some extent, but no action on intracellular collagen synthesis in normal hepatocytes. It is suggested that one of important mechanisms of Fuzhenghuayu decoction action on liver fibrosis may be the inhibition of liver collagen production.(World J Gastroenterol , 1998, 4(6): 548-549)