Facilitation of liver regeneration after partial hepatectomy by ventromedial hypothalamic lesions in rats

Whether or not the hypothalamus is involved in initiating hepatic DNA synthesis after partial hepatectomy is unclear. To determine the role of the ventromedial hypothalamic nuclei in liver regeneration after partial hepatectomy, we studied hepatic DNA synthesis during liver regeneration in rats with bilateral lesions of these nuclei. Lesions of the ventromedial hypothalamus accelerated the increase in hepatic DNA synthesis and raised the peak level of thymidine incorporation after partial hepatectomy. These effects of hypothalamic lesions were completely inhibited by hepatic vagotomy. Thus, lesions of the ventromedial hypothalamus appear to promote hepatic regeneration by increasing vagal stimulation of the liver.     

Ventromedial hypothalamic lesions change the expression of neuron-related genes and immune-related genes in rat liver

There are no reports that hypothalamus can directly affect the expression of neuron-related genes and immune-related genes in liver. We identified genes of which expression profiles showed significant modulation in rat liver after ventromedial hypothalamic (VMH) lesions. Total RNA was extracted, and differences in the gene expression profiles between rats at day 3 after VMH lesioning and sham-VMH lesioned rats were investigated using DNA microarray analysis. The result revealed that VMH lesions regulated the genes that were involved in functions related to neuronal development and immunofunction in the liver. Real-time PCR also confirmed that gene expression of SULT4A1 was upregulated, but expression of ACSL1 and CISH were downregulated at day 3 after VMH lesions. VMH lesions may change the expression of neuron-related genes and immune-related genes in rat liver.     

Experimental models of hepatectomy and liver regeneration using newborn and weaning rats

OBJECTIVES: Liver regeneration is a complex process that has not been completely elucidated. The model most frequently used to study this phenomenon is 70% hepatectomy in adult rats; however, no papers have examined this effect in developing animals. The aims of the present study were: 1) to standardize two models of partial hepatectomy and liver regeneration in newborn suckling and weaning rats, and 2) to study the evolution of remnant liver weight and histological changes of hepatic parenchyma on the days that follow partial hepatectomy. METHODS: Fifty newborn and forty-four weaning rats underwent 70% hepatectomy. After a midline incision, compression on both sides of the upper abdomen was performed to exteriorize the right medial, left medial and left lateral hepatic lobes, which were tied inferiorly and resected en bloc. The animals were sacrificed on days 0 (just after hepatectomy), 1, 2, 3, 4 and 7 after the operation. Body and liver weight were determined, and hepatic parenchyma was submitted to histological analysis. RESULTS: Mortality rates of the newborn and weaning groups were 30% and 0%, respectively. There was a significant decrease in liver mass soon after partial hepatectomy, which completely recovered on the seventh day in both groups. Newborn rat regenerating liver showed marked steatosis on the second day. In the weaning rat liver, mitotic figures were observed earlier, and their amount was greater than in the newborn. CONCLUSIONS: Suckling and weaning rat models of partial hepatectomy are feasible and can be used for studies of liver regeneration. Although similar, the process of hepatic regeneration in developing animals is different from adults.     

Estrogen therapy for hepatectomy patients with poor liver function?

Estrogen is well known to promote liver regeneration after partial hepatectomy. Administration of estradiol prior to partial hepatectomy also induces increased activity of DNA synthesis. Endogenous aromatase plays a key role in the conversion of testosterone to estradiol. The aromatase activity was induced by IL-6, which is a key factor for liver regeneration. It has been reported that IL-6 interacts with gp80/130 receptor and regulates the STAT1/3 pathway to induce DNA synthesis in hepatocyte. The IL-6 induced aromatase activity results in increased serum estradiol level. This corresponded well with observation that estradiol was elevated after partial hepatectomy. Therefore, it is very likely that estradiol and IL-6 synergize in stimulation of hepatocyte proliferation during liver regeneration. We propose that a short-term estradiol treatment may be beneficial for patients with poor liver function after hepatectomy.     

L-谷氨酰胺与肝脏大部分切除后的再生

背景：L-谷氨酰胺作为DNA和谷胱甘肽等合成的氮前体,在肝组织再生,肝细胞增殖的过程中扮演着极其重要的角色。 目的：观察经饮食由来补充L-谷氨酰胺对大鼠肝脏大部切除后肝再生能力的影响。 方法：Wistar大鼠随机分组3组,L-谷氨酰胺组和L-丙氨酸组大鼠肝切除前分别灌服10% L-谷氨酰胺或10%L-丙氨酸,肝切除后继续加入饮用水中饮用,对照组肝切除前后均使用饮用水。 结果与结论：大鼠肝切除后72 h L-谷氨酰胺组肝再生率明显高于对照组及L-丙氨酸组(P < 0.05)。肝切除后24 h和72 h L-谷氨酰胺组肝细胞增殖均明显高于对照组和L-丙氨酸组(P < 0.01;P < 0.05)。肝切除后24 h和72 h总RNA水平在两种氨基酸与对照组之间差异无显著性意义。肝切除后72 h基因组DNA的含量L-谷氨酰胺组显著高于对照组和L-丙氨酸组 (P < 0.05)。提示肝损伤围手术期投用高浓度L-谷氨酰胺对大鼠肝再生有促进作用,而投用L-丙氨酸则没有此作用。     

IL-12 induces specific cytotoxicity against regenerating hepatocytes in vivo.

Although impaired liver regeneration is thought to be a major cause of death in patients with fulminant hepatitis, the mechanisms are not well defined. Since IL-12 synthesis has been reported to be up-regulated in murine hepatitis virus infection, we studied the influence of continuous IL-12 stimulation on murine liver regeneration using flow cytometric and functional analyses. In non-hepatectomized mice, interestingly, the number of hepatic NK cells was significantly decreased on day 7, after six IL-12 injections, and day 14, after 13 IL-12 injections. The number of hepatic NKT cells was markedly increased on day 7 and day 14 of daily IL-12 treatment. The cytotoxic activity of hepatic lymphocytes against both YAC-1 and p815 cells was enhanced on day 2, after single IL-12 injection, and day 7, after six IL-12 injections. In contrast, hepatic lymphocytes isolated 24 h after partial hepatectomy with IL-12 pretreatment did not show any cytolytic activity against either YAC-1 cells or p815 cells. However, continuous IL-12 stimulation resulted in a significantly higher serum alanine aminotransferase (sALT) level 24 h after the partial hepatectomy as compared with sALT levels in mice subjected to either partial hepatectomy or IL-12 pretreatment alone. On the other hand, the expression of hepatic TNF-alpha mRNA was markedly enhanced by continuous IL-12 stimulation even 24 h after partial hepatectomy, as compared with that in non-treated mice and hepatectomy alone. Simultaneous administration of anti-tumor necrosis factor (TNF)-alpha mAb completely inhibited IL-12-induced in vivo enhancement of liver damage after partial hepatectomy. In conclusion, IL-12 induces the specific cytolytic activity against regenerating hepatocytes in vivo mainly through the enhancement of TNF-alpha synthesis.     

In-vitro immune response of splenic lymphocytes to portal serum agents from rats undergoing hepatic regeneration or hepatic carcinogenesis.

To clarify the physiologic response of splenic lymphocytes to liver damage and the role of this response in regeneration versus malignant transformation, we cultured rat spleen lymphocytes with portal sera from rats subjected either to partial (70%) hepatectomy or to long-term oral administration of the hepatic carcinogen 3'-methyl-4-dimethylaminoazobenzene. Sera taken within 24h after partial hepatectomy contained a previously described signal protein which serves as a marker of liver damage. The MW 5,000-10,000 serum fraction also contained a factor that promoted cell growth, DNA synthesis, glucose utilization, and the production of anti-sheep erythrocyte plaque-forming cells in cultures of rat splenic lymphocytes. In contrast, the sera of rats subjected to liver damage by the carcinogen had no more effect on the cultured lymphocytes than sera from sham-operated or untreated controls. The signal protein was present initially in portal sera from carcinogen-treated rats, but decreased as hepatitis gave way to cirrhosis. Subsequent malignant transformation was marked by the appearance of serum alpha-fetoprotein. Our results suggest that activation of splenic lymphocytes by serum factor(s) is involved in hepatic regeneration and that this process is deranged in carcinogenesis.     

A study of endotoxin-associated hepatotoxicity on proliferating hepatocytes.

It is thought that regeneration of the liver provides a state of preparedness for the Shwartzman reaction and contributes to the development of endotoxin-associated massive hepatic necrosis following partial hepatectomy. Therefore we examined endotoxin hepatotoxicity in rats with hepatic regeneration after 35% hepatectomy and in rats with liver cell proliferation induced by lead nitrate. Biochemical and histopathological studies showed no enhanced endotoxin hepatotoxicity in either partially hepatectomized rats or in rats with lead nitrate-induced liver cell proliferation. These results indicate that the development of endotoxin-associated hepatic damage after partial hepatectomy may not relate to regeneration and proliferation of the liver.     

Central neural regulation by adrenergic nerves of the daily rhythm in hepatic tyrosine transaminase activity

1. In adrenalectomized fasted rats transection of the spinal cord at C7-C8 or placement of bilateral electrolytic lesions in the lateral hypothalamus when performed in the morning interrupted the daily rhythm of hepatic tyrosine transaminase by elevating low (AM) enzyme activities to high (PM) levels; lesions placed in PM did not affect the late afternoon rise in enzyme activity.2. Bilateral thalamic lesions had no affect on enzyme activity.3. The activity of hepatic catechol-O-methyl transferase was unaffected by hypothalamic lesions.4. The lesion-evoked rise of tyrosine transaminase activity was abolished by exogenously administered norepinephrine.5. Cycloheximide blocked the rise of tyrosine transaminase activity caused by hypothalamic lesions.6. The results suggest that rhythmic activity of sympathetic nerves governed by lateral hypothalamus contribute to regulation of the daily rhythm in tyrosine transaminase by regulating the release of norepinephrine peripherally; norepinephrine may block the daily rise of enzyme by interfering with protein synthesis, possibly of new enzyme, by competing with pyridoxal co-factor.7. It is proposed that alternating activity of sympathetic-adrenergic and vagal-cholinergic nerves to liver, controlled by the C.N.S., contribute to rhythmic activity of hepatic tyrosine transaminase.     

Effects of Partial Hepatectomy in Rats on Two Transplantable Hepatomas: Changes in Weight and in Synthesis of DNA and Ferritin

Partial hepatectomy in rats carrying Reuber H-139 and H-35 hepatomas is followed by rapid growth of these tumors. At comparable times after implantation, average wet weights of H-139 or H-35 hepatomas in partially hepatectomized rats were significantly higher than average wet weights of these tumors in control rats. In H-35 hepatomas growing subcutaneously, synthesis of DNA, as shown by incorporation of tritiated thymidine, was depressed 18 hours after a two-thirds hepatectomy in the host. Between 18 and 36 hours after partial hepatectomy, DNA synthesis rose steadily, with a maximum at about 36 hours. Incorporation of ¹⁴C-leucine into ferritin (apoferritin) reached a maximum in liver and, to less extent, also in subcutaneous H-35 hepatomas, 48 hours after partial hepatectomy and returned to normal levels at 72 hours. The increase in wet weight of the tumors is most likely the result of an increase in rate of growth concomitant with the restoration of liver mass. The rise in synthesis of DNA and of ferritin in hepatoma cells after partial hepatectomy suggests that these hepatomas were affected by the same humoral factor or mechanism that stimulates cell division and protein synthesis in the liver immediately after partial hepatectomy.     

Evidence for non-traditional activation of complement factor C3 during murine liver regeneration

Complement signaling has been implicated as important for normal hepatic regeneration. However, the specific mechanism by which complement is activated during liver regeneration remains undefined. To address this question, we investigated the hepatic regenerative response to partial hepatectomy in wildtype mice, C3-, C4-, and factor B-null mice, and C4-null mice treated with a factor B neutralizing antibody (mAb 1379). The results showed that following partial hepatectomy, C3-null mice exhibit reduced hepatic regeneration compared to wildtype mice as assessed by quantification of hepatic cyclin D1 expression and hepatocellular DNA synthesis and mitosis. In contrast, C4-null mice and factor B-null mice demonstrated normal liver regeneration. Moreover, animals in which all of the traditional upstream C3 activation pathways were disrupted, i.e. C4-null mice treated with mAb 1379, exhibited normal C3 activation and hepatocellular proliferation following partial hepatectomy. In order to define candidate non-traditional mechanisms of C3 activation during liver regeneration, plasmin and thrombin were investigated for their abilities to activate C3 in mouse plasma in vitro. The results showed that both proteases are capable of initiating C3 activation, and that plasmin can do so independent of the classical and alternative pathways. Conclusions: These results show that C3 is required for a normal hepatic regenerative response, but that disruption of the classical- or lectin-dependent pathways (C4-dependent), the alternative pathway (factor B-dependent), or all of these pathways does not impair the hepatic regenerative response, and indicate that non-traditional mechanisms by which C3 is activated during hepatic regeneration must exist. In vitro analysis raises the possibility that plasmin may contribute to non-traditional complement activation during liver regeneration in vivo.     

Alterations in ingestive behaviors after bilateral lesions of the amygdala in the rat

Bilateral electrolytic lesions in the dorsal aspect of the central amygdaloid nucleus of the rat produced aphagia and adipsia which was similar to but not as severe as or identical to that observed with lesions of the lateral hypothalamus. After tube-feeding to recovery these animals showed permanent deficits in motor coordination as well as in their ability to respond normally to external stimuli. Lesions in the same lateral plane but more ventral or posterior produced none of these changes. An immediate mild, transient hyperphagia was produced by lesioning the ventral posterior aspect of the lateral amygdala, and an impaired neophobic response was observed by lesioning the dorsal aspect of the lateral amgdala. These studies show that it is possible to localize discrete areas in the amygdala which have specific effects on ingestive behaviors. It is suggested that the amygdala modulates on-going hypothalamic activity via the stria terminalis from the dorsomedial area and the ventral amygdalofugal pathway from the ventral and lateral amygdala.     

Portal application of autologous CD133+ bone marrow cells to the liver: a novel concept to support hepatic regeneration

The liver has a large capacity for regeneration after resection. However, below a critical level of future liver remnant volume (FLRV), partial hepatectomy is accompanied by a significant increase of postoperative liver failure. There is accumulating evidence for the contribution of bone marrow stem cells (BMSCs) to participate in liver regeneration. Here we report on three patients subjected to intraportal administration of autologous CD133(+) BMSCs subsequent to portal venous embolization of right liver segments, used to expand left lateral hepatic segments as FLRV. Computerized tomography scan volumetry revealed 2.5-fold increased mean proliferation rates of left lateral segments compared with a group of three consecutive patients treated without application of BMSCs. This early experience with portovenous application of CD133(+) BMSCs could suggest that this novel therapeutic approach bears the potential of enhancing and accelerating hepatic regeneration in a clinical setting.     

Expression of hepatocyte growth factor mRNA during oval cell activation in the rat liver

The customary wave of hepatocyte regeneration which occurs in the rat liver after two-thirds partial hepatectomy can be abolished by oral administration of the carcinogen 2-acetylaminofluorene. Instead, regeneration is achieved through the proliferation and differentiation of potential stem cells (oval cells) which appear to emanate from the portal space. Ultrastructural studies have illustrated the undifferentiated nature of these cells in the first 3 days after resection, but very rapidly they acquire features of small hepatocytes or biliary epithelia. Oval cell progeny can form either cohesive columns of cells within sinusoids which may later differentiate into new hepatic plates, or single cells that can insinuate within existing plates. Using a ³⁵S antisense riboprobe to hepatocyte growth factor (HGF) mRNA, the synthesis of HGF mRNA was observed in sinusoid-lining cells. There were few HGF mRNA-expressing cells in the liver removed at resection, but numbers steadily increased in the remnant over the next 7 days. In particular, an almost nine-fold increase in the density of HGF mRNA-producing cells occurred in the periportal areas, resulting in approximately double the density present within the centrilobular parenchyma. The superabundance of HGF-producing cells in the immediate vicinity of oval cell proliferation and differentiation strongly suggests that this growth factor is involved in all aspects of stem cell behaviour—proliferation, migration, and differentiation, through a paracrine mechanism.     

Hepatocyte proliferation induced by a single dose of a peroxisome proliferator.

In compensatory hyperplasia after partial hepatectomy or liver cell injury, hepatocyte proliferation is triggered by coordinated actions of growth factor such as hepatocyte growth factor and transforming growth factor-alpha and -beta. Initiation of hepatocyte DNA synthesis is preceded by the activation of the set of early growth response genes mediated by enhanced nuclear factor-kappa B binding to DNA. Using an experimental model to induce hepatocyte DNA synthesis in vivo by a single dose of a peroxisome proliferator, which does not induce liver cell necrosis (direct hyperplasia), we investigated whether peroxisome proliferator-induced hepatocyte proliferation involved an induction of known growth factors, an activation of early growth response genes, and nuclear factor-kappa B. A single intragastric administration of 250 mg/kg BR931 (4-chloro-6-(2,3-xylidino)-2-pyrimidinylthio-(N-beta-hydroxyethyl) acetamide) to male wistar rats induced a wave of hepatocyte DNA synthesis starting after 12 hours and peaking at approximately 24 to 36 hours. The response was dose dependent. The treatment also induced the expression of the mRNA for the peroxisomal bifunctional enzyme, one of the peroxisome-related fatty acid beta-oxidation enzymes. Pretreatment of rats with dexamethasone (2 mg/kg) inhibited both hepatocyte DNA synthesis and the induction of the peroxisomal bifunctional enzyme gene. Northern blot analyses of liver RNA during a period preceding the onset of DNA synthesis revealed no induction of hepatocyte growth factor, transforming growth factor-alpha, or tumor necrosis factor-alpha mRNAs. No induction of early growth response genes, liver regeneration factor-1, or c-myc was detected. Furthermore, gel mobility shift assays showed no enhanced nuclear factor-kappa B binding to its DNA consensus sequence after BR931 treatment, whereas control studies demonstrated a distinct increase in binding after partial hepatectomy or lead nitrate treatment. The results suggest that peroxisome-proliferator-induced hepatocyte proliferation may be triggered by signal transduction pathways different from those after partial hepatectomy and that the binding of peroxisome proliferators to their nuclear receptors may play a role in stimulation of DNA synthesis and peroxisome proliferation.     

DNA content and size of cell nuclei in the regenerating rat liver

The DNA content in single nuclei and the size of the nuclei were investigated in the intact and regenerating rat liver from 18 h to 21 days after partial hepatectomy. The results of the measurements show that the mean DNA content per nucleus in the intact rat liver is 6.5 pg, and that most nuclei are about equal in size to the diploid nucleus (42.5 ²). DNA synthesis began in the regenerating liver before 18 h after the operation. By 24 h the DNA content in most nuclei of the experimental animals was twice that in the intact rats. This shows that the first wave of synthesis involved 85–90% of the liver cells. After mitosis, which in most cells took place before 36 h after partial hepatectomy weaker waves of DNA synthesis followed, after approximately 42 and 60 h.Department of Normal Anatomy and Department of General Biology, P. J. Safarik University, Kosice, Czechoslovakia. (Presented by Academician of the Academy of Medical Sciences of the USSR A. P. Avtsyn.) Translated from Byulleten' Éksperimental'noi Biologii i Meditsiny, Vol. 83, No. 8, pp. 369–371, March, 1977.     

Hepatic sinusoids versus central veins: Structures,markers, angiocrines,and roles in liver regeneration and homeostasis

The blood circulates through the hepatic sinusoids delivering nutrients and oxygen to the liver parenchyma and drains into the hepatic central vein, yet the structures and phenotypes of these vessels are distinctively different. Sinusoidal endothelial cells are uniquely fenestrated, lack basal lamina and possess organelles involved in endocytosis, pinocytosis, degradation, synthesis and secretion. Hepatic central veins are nonfenestrated but are also active in synthesis and secretion. Endothelial cells of sinusoids and central veins secrete angiocrines that play respective roles in hepatic regeneration and metabolic homeostasis. The list of markers for identifying sinusoidal endothelial cells is long and their terminologies are complex. Further, their uses vary in different investigations and, in some instances, could be confusing. Central vein markers are fewer but more distinctive. Here we analyze and categorize the molecular pathways/modules associated with the sinusoid-mediated liver regeneration in response to partial hepatectomy and chemical-induced acute or chronic injury. Similarly, we highlight the findings that central vein-derived angiocrines interact with Wnt/β-catenin in perivenous hepatocytes to direct gene expression and maintain pericentral metabolic zonation. The proposal that perivenous hepatocytes behave as stem/progenitor cells to provoke hepatic homeostatic cell renewal is reevaluated and newer concepts of broad zonal distribution of hepatocyte proliferation in liver homeostasis and regeneration are updated. Thus, this review integrates the structures, biology and physiology of liver sinusoids and central veins in mediating hepatic regeneration and metabolic homeostasis.     

The mitogenic activity of hepatocyte growth factor on rat hepatocytes is dependent upon endogenous transforming growth factor-alpha

Both transforming growth factor-alpha (TGF-alpha) and hepatocyte growth factor (HGF) induce DNA synthesis in hepatocytes in vitro and in vivo. Hepatic and circulating levels of HGF have been reported to increase before an increase in TGF-alpha levels in several rat models of liver regeneration. In addition, serum TGF-alpha levels increase after an increase in serum HGF levels in patients with either partial hepatectomy or acute hepatitis. In this study, we investigate the significance of TGF-alpha in hepatocyte proliferation. TGF-alpha contents and DNA synthesis in cultured rat hepatocytes increased in response to HGF addition to the culture medium in a dose-related manner. These increases were suppressed by the addition of anti-sense TGF-alpha mRNA oligonucleotide. Furthermore, the addition of anti-TGF-alpha rabbit IgG suppressed the increase in DNA synthesis. When the anti-TGF-alpha antibody was administered to rats after partial hepatectomy, the number of mitotic hepatocytes was reduced in comparison to rats treated with normal rabbit IgG. These results were observed even though hepatic HGF levels were increased equally in rats given either anti-TGF-alpha antibody or normal rabbit IgG. Our results suggest that HGF stimulates TGF-alpha production in rat hepatocytes, and that the mitogenic activity of HGF depends on endogenous TGF-alpha activity.