Peribiliary Capillary Plexus Research Articles

A Pathological Assessment of the Microvasculature of Biliary Tract Neoplasms Referring to Pre-Existing Blood Vessels and Vessel Co-Option.

There are several types of microvasculature supplying neoplasms: "newly formed blood vessels" (neoangiogenesis), which are a component of the tumor microenvironment (TME) of invasive carcinoma with wound healing-like reaction; and "pre-existing blood vessels", which are used as tumor-supplying vessels by neoplasms (co-option vessels) and are likely to develop in hypervascularized organs. We herein review the microvasculature of neoplasms of biliary tract with reference to pre-existing vessels and vessel co-options. In the hepatobiliary system, intrahepatic large and extrahepatic bile ducts (large bile ducts) and the gallbladder as well as hepatic lobules are highly vascularized regions. In large bile ducts, the biliary lining epithelia and underlining capillaries (peribiliary capillary plexus [PCP]) form the biliary epithelia-PCP alignment, whereas the hepatocyte-sinusoid alignment composes hepatic lobules. Cholangiocarcinoma (CCA) and gallbladder carcinoma (GBC) are the main biliary tract carcinomas. CCA is subdivided into distal (d/CCA), perihilar (pCCA), and intrahepatic (iCCA), and iCCA is subdivided into small duct type (SD-iCCA) and large duct type (LD-iCCA). High-grade biliary intraepithelial neoplasm (BilIN), intraductal papillary neoplasm of the bile duct (IPNB), pyloric gland adenoma (PGA), and intracholecystic papillary neoplasm (ICPN) have recently been proposed as the precursors of LD-iCCA, p/dCCA, and GBC. In the large bile ducts and gallbladder, all cases of high-grade BilIN and PGA, about half of IPNB, and one-third of ICPN with less-complicated structure were found to have hijacked the PCP as their supporting vessels (vessel co-option), while p/dCCA, LD-iCCA, and GBC were supplied by neo-angiogenetic vessels associated with fibrous stroma. The intraluminal components of the remaining cases of ICPN and IPNB with complicated structure presented sparse capillaries without fibrous stroma, a unique microvasculature different from that of co-option or neoangiogenesis. Regarding iCCA showing invasion into the hepatic lobules, some SD-iCCAs replaced hepatocytic cords and used pre-existing sinusoids as co-opted vessels. Visualization of pre-existing vessels could be a new pathological tool for the evaluation of malignant progression and of vascular supply in CCAs and its precursors.

Pathologic characterization of precursors and cholangiocarcinoma referring to peribiliary capillary plexus: a new pathologic approach to bile duct neoplasm.

The peribiliary capillary plexus (PCP) regularly and densely lines the basal side of the lining epithelia of normal bile ducts. To determine the pathology of the PCP in high-grade biliary intraepithelial neoplasms (BilINs) and intraductal papillary neoplasms of the bile duct (IPNBs), a precursor of cholangiocarcinoma (CCA), and CCA. Seventy-six cases of surgically resected high-grade BilIN and 83 cases of IPNB were histopathologically examined using endothelial immunostaining of PCP; all cases of high-grade BilIN and 40 cases of IPNB were associated with invasive CCA. Invasive and preinvasive neoplasms were pathologically examined referring to a two-layer pattern composed of biliary lining epithelia and underlying PCP unique to the bile duct. All high-grade BilIIN cases had an underlying single layer of capillaries, similar to PCP (PCP-like capillaries). In 43% of the 83 cases of IPNB, these capillaries were regularly distributed in almost all stalks and intervening stroma of intraluminal neoplastic components, while in the remaining 57% of IPNB, capillaries were sparsely or irregularly distributed in intraluminal components showing cribriform or solid growth patterns composed of striking atypical neoplastic epithelia. Invasive carcinomas associated with high-grade BilIN and IPNB were not lined with capillaries. The loss of PCP-like capillaries underlying high-grade BilIN and in stalks or stroma of IPNB may be involved in the malignant progression of these precursors. Immunostaining of PCP could be a new pathological tool for the evaluation of malignant progression and vascular supply in CCA and its precursors.

Pathologic significance of peribiliary capillary plexus in gallbladder neoplasm

AimsSignificance of peribiliary capillary plexus (PCP) in gallbladder neoplasms remains unclear. Aims are to characterize high-grade biliary intraepithelial neoplasm (BilIN), pyloric gland adenoma (PGA), and intracholecystic papillary neoplasm (ICPN), precursors of gallbladder carcinoma, and to differentiate invasive carcinoma from pseudo-invasive lesions in gallbladder walls, referring to PCP. Materials and methodsHigh-grade BilIN (38 cases), PGA (5 cases), and ICPN (25 cases) were examined using capillary immunostaining. Non-neoplastic gallbladders were used as controls. ResultsIn non-neoplastic gallbladders, a single layer of regularly dotted capillaries (PCP) was located beneath lining epithelia and around non-neoplastic glands (NNGs), including Rokitansky-Aschoff sinus (RAS), presenting a two-layer of lining epithelia and PCP. Intra-luminal components of all cases of high-grade BilIN and PGA and one-third of ICPNs presented a two-layer pattern. In the remaining ICPNs, capillaries were irregular and sparse in intraluminal neoplastic components presenting irregular and complicated lesions. Neoplastic glands in gallbladder walls of high-grade BilIN and ICPN were classifiable into 2 types: glands that were underlain by densely dotted capillaries and those that were not, with the latter suggestive of invasive carcinoma, while the former suggestive of non-invasive neoplasms involving NNGs intraepithelially and/or showing an expanding growth into gallbladder wall (pseudo-invasion). ConclusionA two-layer pattern of lining epithelia and underlining capillaries were preserved in all cases of high-grade BilIN and PGA and one-third of ICPN cases. Presence or absence of dotted capillaries around neoplastic glands may be able to be added as a new pathologic feature to differentiate invasive carcinomas from pseudo-invasion in gallbladder wall.

Plasmalemmal Vesicle-Associated Protein Is Associated with Endothelial Cells Sprouting from the Peribiliary Capillary Plexus in Human Cirrhotic Liver

Introduction: Plasmalemmal vesicle-associated protein (PLVAP) is an endothelial-specific integral membrane glycoprotein that localizes to caveolae and fenestrae in animal models; however, little is known about PLVAP in endothelial cells (ECs) in hepatic sinusoids during liver cirrhosis (LC). Here, we aimed to elucidate PLVAP localization and expression in the human liver during LC progression. Methods: PLVAP protein expression was detected in specimens from normal control livers and hepatitis C-related cirrhotic livers using immunohistochemistry, Western blotting, and immunoelectron microscopy. Results: PLVAP mainly localized to the peribiliary capillary plexus (PCP) and was rarely observed in hepatic artery branches and portal venules in control tissue, but was aberrantly expressed in capillarized sinusoids and proliferated capillaries in fibrotic septa within cirrhotic liver tissue. Ultrastructural analysis indicated that PLVAP localized to thin ECs in some caveolae, whereas PLVAP localized primarily to caveolae-like structures and proliferative sinusoid capillary EC vesicles in cirrhotic liver tissue. Western blot analysis confirmed that PLVAP was overexpressed at the protein level in advanced cirrhotic liver tissue. Conclusion: PLVAP was strongly expressed in the caveolae of proliferated capillaries directly connected with sinusoids linked with the PCP, suggesting that it plays a role in angiogenesis and sinusoidal remodeling in LC.

Safety and Outcomes in 100 Consecutive Donation After Circulatory Death Liver Transplants Using a Protocol That Includes Thrombolytic Therapy.

Donation after circulatory death (DCD) liver transplantation (LT) reportedly yields inferior survival and increased complication rates compared with donation after brain death (DBD). We compare 100 consecutive DCD LT using a protocol that includes thrombolytic therapy (late DCD group) to an historical DCD group (early DCD group n = 38) and a cohort of DBD LT recipients (DBD group n = 435). Late DCD LT recipients had better 1- and 3-year graft survival rates than early DCD LT recipients (92% vs. 76.3%, p = 0.03 and 91.4% vs. 73.7%, p = 0.01). Late DCD graft survival rates were comparable to those of the DBD group (92% vs. 93.3%, p = 0.24 and 91.4% vs. 88.2%, p = 0.62). Re-transplantation occurred in 18.4% versus 1% for the early and late DCD groups, respectively (p = 0.001). Patient survival was similar in all three groups. Ischemic-type biliary lesions (ITBL) occurred in 5%, 3%, and 0.2% for early DCD, late DCD, and DBD groups, respectively, but unlike in the early DCD group, in the late DCD group ITBL was endoscopically managed and resolved in each case. Using a protocol that includes a thrombolytic therapy, DCD LT yielded patient and graft survival rates comparable to DBD LT.

Development of extrahepatic bile duct excluding gall bladder in human fetuses: histological, histochemical, and immunohistochemical analysis.

The fetal development of extrahepatic bile ducts (EBD) is unkown. Development of EBD was examined by immunohistochemistry in 16 fetuses of 7-40 gestational week (GW). Gall bladder (GB) was not investigated. At seven GW, a hepato-pancreatic bud (HPB) was seen near the hepatic hilus. At eight GW, embryonic EBD, GB and pacreas developed from HPB. Portal veins (PV) and hepatic arteries (HAs) were present in EBD at eight GW. Liver parenchyma was already present in seven GW. At eight GW, EBD at porta hepatis (PH) was already established; PH EBD was derived from ductal plate (DP). The distal and middle EBD gradually develeped and took shape of EBD at nine GW. In PH, cystic and hepatic ducts developed from DP at eight GW. EBD developed further, accompanying many nerve fibers (NF) at PH and distal and middle EBD. Apparent PV and HA were seen around 12 GW. Around 20 GW, HA and capillaries proliferated, giving rise to peribiliary capillary plexus (PCP) in all parts of EBD. EBD grew gradually further, and around 30 GW extrahepatic peribiliary glands (EPG) emerged from EBD but not from cystic duct. Around 36 GW, exocrine pancreatic acinar cells emerged from remodeled DP at PH. At term (40 GW), EBD was established but was as yet immature. Numerous NF were present around EBD. Histochemically, EBD epithelium had no mucins at 7-12 GW but contained neutral and acidic mucins at 23-40 GW. EPG had abundant neutral and acidic mucins. Immunohistochemically, alpha-fetoprotein (AFP) was consistently positive in the epithelial and mesenychyma. The NF and muscles of HPB present at seven GW were positive for neural cell adhesion molecule (NCAM), neuron-specific enolase (NSE), platelet-derived growth factor receptor-α (PDGFRA), and KIT, but they disappeared in nine GW. Expressions of cytokeratin (CK) seven and CK19 in EBD and EPG were slight or none, while expression of CK8 was moderate, and that of CK18 was strong. NF were positive for NCAM, NSE, synaptophysin, and chromogranin, and PDGFRA. MUC1 and MUC6 apomucins were noted in EBD and EPG. EPG contained numerous endocrine cells positive for chromogranin, synaptophysin, NCAM and NSE. A few endocrine cells positive for these antigens were seen in EBD. Numeous KIT-positive stem cells (SC) were seen in PH, EBD, PV, HA, PCP, and EPG. NCAM-positive and bcl-2-positive SC were also located in these structures. Epithelial cells of EBD and EPG showed expressions of MET, PDGFRA, CA19-9, MUC1, MUC2, MUC6, KIT, bcl-2, and ErbB2. No expressions of HepPar1, carcinoembryonic antigen (CEA), and epithelial membrane antigen (EMA) were noted. Although the findings have limitatios because this study of humans are descriptive one, the present data suggest that the processes of the development and differentiation of EBD system may be associated with EBD SC, CK prolifes, SFC/KIT signaling, HGF/MET signaling, PDGRa/PDGFRA signaling, fibroblast growth factor/ErbB2 signaling, neuroendocrine lineage, NF differentiation, pancreatic aninar cell differentiation, PCP differentiation, MUC apomucins differentiation, and expressions of AFP and CA19-9. HepPar1, EMA and CEA were not involved in them.

Sclerosing cholangitis following severe trauma: Description of a remarkable disease entity with emphasis on possible pathophysiologic mechanisms

Persistent cholestasis is a rare complication of severe trauma or infections. Little is known about the possible pathomechanisms and the clinical course. Secondary sclerosing cholangitis was diagnosed in five patients with persistent jaundice after severe trauma (one burn injury, three accidents, one power current injury). Medical charts were retrospectively reviewed with regard to possible trigger mechanisms for cholestasis, and the clinical course was recorded. Diagnosis of secondary sclerosing cholangitis was based in all patients on the primary sclerosing cholangitis (PSC)-like destruction of the intrahepatic bile ducts at cholangiography after exclusion of PSC. In four patients, arterial hypotension with subsequent ischemia may have caused the bile duct damage, whereas in the case of power current injury direct thermal damage was assumed to be the trigger mechanism. The course of secondary liver fibrosis was rapidly progressive and proceeded to liver cirrhosis in all four patients with a follow-up >2 years. Therapeutic possibilities were limited. Posttraumatic sclerosing cholangitis is a rare but rapidly progressive disease, probably caused by ischemia of the intrahepatic bile ducts via the peribiliary capillary plexus due to arterial hypotension. Gastroenterologists should be aware of this disease in patients with persistent cholestasis after severe trauma.

Three-dimensional observations of the human hepatic artery: (Arterial system in the liver)

Background/Aims: We examined the three-dimensional structures of the hepatic artery.Materials/Methods: A 39-year-old man who died of brain hemorrhage was autopsied. The liver was perfused with physiological saline and 20% formalin from the hepatic artery and portal vein. More than 700 serial sections were obtained from a paraffin-embedded block, and vascular reconstruction was performed under a light microscope.Results: The hepatic artery divides into the axial artery and the peribiliary branch given off from it. These two systems also connect to each other by a few anastomoses. The former systematically supplies arterial blood to all the parenchymal liver cells. The latter forms two layers of plexes around the bile duct. The inner capillary layer is afferent and the outer vascular layer is efferent to the bile duct.Conclusion: To maintain constant sinusoidal blood flow, the terminal portions of the axial arteries may contract and thereby divert blood to peribiliary branches through bifurcations and anastomoses. The blood flow of the peribiliary capillary plexus may affect bile flow. The hepatic artery may act as a functional mediator between portal flow and bile excretion.

Cumulative damaging effect of liver hypoperfusion and cyclosporine a on the peribiliary capillary plexus: a study in an isolated dually perfused rat model.

Cyclosporine (CsA) is an essential posttransplantation immunosuppressive drug. It may cause hepatotoxicity, mostly cholestasis, by unknown mechanism. CsA causes nephrotoxicity mainly by increased vascular resistance. We investigated the effects of CsA on the peribiliary capillary plexus, in an isolated, dually perfused (i.e., via the hepatic artery and the portal vein) rat liver preparation. After 30 min of stabilization with optimal flow (4 ml/min/g liver), four liver groups were perfused (control, n=5 each) and four groups were hypoperfused (n=5 each, 1 ml/min/g) for 120 min. This was followed by a 30-min optimal reperfusion phase, during which the controls and the hypoperfused groups were injected (60 sec) via the hepatic artery with CsA at high (3 mg/kg body weight in 1 ml) or low dose (0.03 mg/kg), cremophore (130 mg/kg), or saline (1 ml). A ninth group (n=5) underwent 2-hr ischemia and 30-min reperfusion to standardize liver damage. Dark nonradioactive microspheres (approximately 10 microm diameter) were injected via the hepatic artery 15 min after drug or saline injection. Neither of the two CsA doses, nor cremophore controls, nor hypoperfusion alone caused entrapment of microspheres in the peribiliary circulation as assessed by light microscopy; perfusion pressures and resistances were also not altered. Significant arteriolar impaction and vasculature engorgement occurred in the hypoperfused plus high-dose CsA livers; hypoperfusion plus low-dose CsA or cremophore groups were minimally tainted. Vascular notable obstruction was associated with 15-40% increase in portal and arterial perfusion pressures and resistances, 50% decrease in oxygen extraction, and increase in lactate/pyruvate ratio, hepatocellular damage, and wet-to-dry weight ratio. Such findings were superior to those detected in the ischemic livers. Acute single high-dose CsA injection, but not low-dose or cremophore, if combined with decreased flow, alters hepatic microcirculatory resistance. Possible correlations between such changes and clinical implications in organ transplantation are discussed.

Microanatomy of the human liver-exploring the hidden interfaces.

Microanatomy of the human liver-exploring the hidden interfaces.

Peribiliary capillary plexus around interlobular bile ducts in various chronic liver diseases: An immunohistochemical and morphometric study.

Peribiliary capillary plexus (PCP) is a network of capillaries which arise from the hepatic artery surrounding the intrahepatic bile ducts. We immunohistochemically investigated the density of PCP around interlobular bile ducts in various chronic liver diseases including primary biliary cirrhosis (PBC) (n = 47), autoimmune hepatitis (AIH) (n = 12), chronic hepatitis B (n = 16), chronic hepatitis C (n = 19), liver cirrhosis due to hepatitis B virus (n = 13), liver cirrhosis due to hepatitis C virus (n = 20), alcoholic hepatitis (n = 20), alcoholic liver cirrhosis (n = 17), using human liver biopsies fixed in formalin and embedded in paraffin wax. PCP was immunohistochemically detected by an endothelial marker, the CD34 antigen. The number of PCP per duct was 1.21 +/- 0.18 in normal livers. Compared with normal liver, vasopenia was observed in PBC and AIH, the number in which was 0.93 +/- 0.34 (P < 0.0001) and 0.82 +/- 0.38 (P < 0.005) per duct, respectively. In contrast, increased number of PCP was observed in liver cirrhosis due to hepatitis B or C virus, alcoholic hepatitis, and alcoholic liver cirrhosis, the number in which were 1.59 +/- 0.37 (P < 0.005), 1.55 +/- 0.52 (P < 0. 02), 1.38 +/- 0.23 (P < 0.02) and 1.61 +/- 0.33 (P < 0.002) per duct, respectively. These data suggest that PCP may be destroyed in autoimmune liver diseases, including PBC and AIH, but PCP may proliferate in other inflammatory and alcoholic liver diseases.

Ischemic Cholangitis

Ischemia-induced bile duct lesions have been collectively labeled as ischemic cholangitis. The biliary epithelium is dependent on arterial blood flow, unlike the hepatic parenchyma with its dual arterial and portal venous blood supply. As such, the biliary epithelium is susceptible to injury when arterial blood flow is compromised. This compromise can occur at the level of the major, named hepatic artery branches or at the microscopic, peribiliary capillary plexus level. Typically, ischemic cholangitis manifests as segmental strictures and cholangiectases with resultant mechanical impairment of bile flow and, occasionally, secondary infection of the biliary system. Ischemic cholangitis after liver transplantation is becoming an important problem and likely is attributable to numerous factors. Hepatic arterial infusion of chemotherapy and systemic vasculitis are other causes of ischemic cholangitis. The role of ischemia in other chronic biliary and ductopenic diseases remains speculative.

Vasoactive effect of cyclosporine on the rat peribiliary capillary plexus: relationship with cholestasis and hyperbilirubinemia

Vasoactive effect of cyclosporine on the rat peribiliary capillary plexus: relationship with cholestasis and hyperbilirubinemia

Role of the Hepatic Artery in the Metabolism of Phenacetin and Acetaminophen: An Intravital Microscopic and Multiple–Indicator Dilution Study in Perfused Rat Liver

We studied the pattern of intermixing of the hepatic arterial and portal venous flows in a perfused rat liver preparation under constant flow (12 ml/min) with intravital epifluorescent microscopy; changes in the steady state extraction ratio of carbon 14-labeled phenacetin and tritiated acetaminophen, probes metabolized primarily in perivenous and periportal regions of the rat liver, respectively; and the spaces accessed by noneliminated reference indicators introduced as a bolus into the hepatic artery and portal vein at different hepatic arterial/portal venous flow regimens of 0:12, 2:10 and 4:8. The sinusoidal velocities for the hepatic arterial- and portal venous (hepatic arterial/portal venous flow at 4:8)-infused fluorescein isothiocyanate-erythrocytes (100 microliters/min) were 327 +/- 78 and 301 +/- 63 microns/sec, respectively, and the velocity for the solely portal venous-perfused liver (12 ml/min) was 347 +/- 74 microns/sec; the flow-weighted sinusoidal velocity was highly correlated to the sinusoidal volume for the dually perfused rat liver. Small but significant decreases in the extraction ratio of [14C]phenacetin (from 0.989 to 0.984 and 0.980) and tritiated acetaminophen (from 0.631 to 0.607 to 0.563), delivered simultaneously into the hepatic artery and portal vein, were observed with an increment of hepatic arterial flow within the same liver preparation; oxygen consumption rate also fell slightly, in parallel fashion. When a multiple-indicator dilution dose containing chromium 51-labeled RBCs, iodine 125-labeled albumin and tritiated water or [14C]urea was injected into the hepatic artery (which accesses both the peribiliary capillary plexus [nonsinusoidal] and the sinusoidal bed) and portal vein (which enters only the sinusoids) at 10-min intervals within each steady state, the blood volume, total albumin space, albumin Disse space, total water and parenchymal cellular water spaces were unchanged after portal venous injection for all hepatic arterial/portal venous flow ratios, suggesting that the arterial flow is ineffective in perturbing average sinusoidal flow dynamics. However, slightly larger total water spaces were obtained with hepatic arterial injection. This excess water space was almost completely accounted for by the "nonsinusoidal" extravascular space associated with the peribiliary capillary plexus; it averaged 0.03 ml/gm and was independent of flow. The anomaly, a reduced flow-weighted sinusoidal velocity for the dually perfused liver, an unchanged diameter of the terminal hepatic venule (32 microns) among the hepatic arterial/portal venous flow ratios and the reduction in the extraction ratio of the drug probes and oxygen consumption rates suggest that some of the arterial flow must have entered the sinusoids somewhat downstream.

Hepatic artery and portal vein vascularization of normal and cirrhotic rat liver†

The hepatic artery and portal vein vascularization of seven normal and seven cirrhotic rats was evaluated by means of the multiple-indicator dilution technique using the flow-limited model analysis. Injected 15-micron microspheres were all trapped by the liver in normal and cirrhotic rats after portal vein and hepatic artery injections, ruling out the presence of intrahepatic shunts larger than 15 microns. The albumin curve was linearly displaced relative to the red blood cell curve in both groups of rats, indicating that albumin distribution remained compatible with the flow-limited distribution model. Albumin extravascular space was similar when measured following both routes of injection. Sucrose outflow profile was also compatible with the flow-limited model after portal vein injection in normal rats, but not in severely cirrhotic rats. In contrast, after hepatic artery injection in both normal and cirrhotic rats the sucrose curve was not linearly displaced compared with that of red blood cells; its curve peak was less delayed than its downslope. This finding indicates that, after hepatic artery injection, sucrose distribution was not compatible with the flow-limited model; moreover, its extravascular space was much larger than that after portal vein injection, particularly in cirrhotic rats. This phenomenon is best explained by the peribiliary capillary plexus, lying between terminal arteries and sinusoids, a plexus enlarged in cirrhotic livers. Finally, sinusoidal volume was apparently much larger after hepatic arterial injection compared with that after portal venous injection. This occurrence may well result from an unshared arterial sinusoidal bed or the peribiliary capillary plexus.

Development of human peribiliary capillary plexus: A lectin-histochemical and immunohistochemical study

We investigated the development of human intrahepatic peribiliary capillary plexus by lectin-histochemistry and immunohistochemistry, using 40 fetal livers of various gestational ages, 52 postnatal livers of various ages, and 10 adult livers. In the earliest developmental stage of intrahepatic bile ducts ("the stage of ductal plate"), no vasculatures were found around the ductal plate, but progenitor vascular cells positive for von Willebrand factor, Ulex europaeus agglutinin I and succinylated wheat germ agglutinin appeared in the mesenchyme of the portal tracts. In "the stage of biliary cell migration into the mesenchyme," the progenitor vascular cells transformed into capillaries positive for von Willebrand factor, Ulex europaeus agglutinin I, and succinylated wheat germ agglutinin. In "the stage of bile duct formation," capillaries began to surround the bile ducts (immature peribiliary capillary plexus). The capillaries of the immature peribiliary capillary plexus proliferated and formed premature peribiliary capillary plexus around 40 wk of gestation in large bile ducts and around 6 wk after birth in small bile ducts. The former was composed of inner and outer layers, whereas the latter consisted of scattered capillaries without layer formation. The premature peribiliary capillary plexus continued to proliferate in the postnatal life and reached an adult and mature state around 15 yr. These data suggest that endothelial cells of capillaries of peribiliary capillary plexus derive from mesenchyme at the earliest stage of bile duct development and that the development and maturation of peribiliary capillary plexus progress parallel to those of the intrahepatic bile ducts.

Development of human peribiliary capillary plexus: A lectin-histochemical and immunohistochemical study

Development of human peribiliary capillary plexus: A lectin-histochemical and immunohistochemical study

IMMUNE DISORDERS OF THE LIVER AND BILE DUCT

Several hepatobiliary diseases appear to be mediated by the host immune response. They can be subdivided into those in which the immune reaction is against an infectious agent such as hepatitis viruses, those in which the immune reaction appears to be against an autoantigen expressed on hepatobiliary cells, and those due to alloimmunity. The existence of autoimmune liver diseases indicates a breakdown in the mechanisms responsible for self-tolerance. In HBV infection, the hepatocellular necrosis appears to be mediated by the host immune response against viral antigens expressed on the membranes of infected hepatocytes. Autoimmune chronic active hepatitis can be subdivided on the basis of differences in circulating autoantibodies. In classic type I autoimmune chronic hepatitis, autoantibodies are directed against non-organ- and non-species-specific antigens. Thus, they are unlikely to be involved in pathogenesis. In contrast, type II autoimmune chronic hepatitis is characterized by antibodies against specific cytochrome P-450 isoenzymes that appear to be expressed on the surface membrane of hepatocytes. Immunogenic cytochrome P-450 also can be induced by drug metabolism and haptenation. This indicates that environmental or medicinal xenobiotics may initiate autoimmune liver damage. Primary biliary cirrhosis is characterized by T-cell-mediated inflammation and destruction of interlobular and septal bile ducts and antibodies specific for epitopes of the 2-oxo-acid dehydrogenase multienzyme complex of mitochondria. The histopathologic lesion NSDC also is observed in alloimmune-mediated diseases such as CGVHD and rejection of liver allografts. PSC may be mediated by an immune response against endothelial cells of the peribiliary capillary plexus, with secondary reactions to bile duct epithelial cell antigens. The pathogenesis of alcoholic liver disease is multifactorial, but one component involves an immune response to acetaldehyde-protein adducts. Secondary sensitization of cell-mediated effector mechanisms, endothelial damage, and secretion of noxious cytokines appear to be involved in pathogenesis.

Ultrastructural and immunohistochemical studies of the intrahepatic peribiliary capillary plexus in normal livers and extrahepatic biliary obstruction in human beings.

Ultrastructural and immunohistochemical study was conducted on the intrahepatic peribiliary capillary plexus in normal livers and in those with extrahepatic biliary obstruction. In both conditions, capillaries positive for Ulex europaeus agglutinin I and type IV collagen were always present in the vicinity of the bile ducts. Immunoelectron microscopy showed the presence of type IV collagen on the basal lamina of these capillaries; Ulex europaeus agglutinin I was also positive on their cytoplasms. Under electron microscope, a considerable number of these capillaries were seen as being composed of fenestrated endothelium with a diaphragm and with extreme cytoplasmic attenuations that were dense at the sides facing the bile duct in comparison with the opposite sides in normal livers. In extrahepatic biliary obstruction, plasmalemmal pinocytic vesicles, multivesicular bodies and other cellular organellae such as rough endoplasmic reticulum and Weibel-Palade bodies increased in number in these capillaries, relative to normal livers, probably reflecting increased permeability and functional activities. These characteristic ultrastructural features of the peribiliary capillary plexus might be arranged to transport substances effectively by way of intrahepatic biliary epithelial cells in normal livers and also might be altered to meet the increased functional demands of extrahepatic biliary obstruction.

Movement of IgM antibody from blood to bile in rats

The movement from blood to bile of passively injected autologous IgM antibody against horse erythrocytes was studied in rats. Both native and neuraminidase-treated antibody entered bile intact, with the peak titers for both measured between 60 and 90 min after injection. A small part (0.38%) of the injected dose of native antibody and 1.05% of the asialo-IgM antibody appeared in bile over 24 hr. These recoveries represented only a small fraction of the activity, which apparently disappeared from serum over the period. The pathways used by IgM antibody to enter bile were partially assessed. Prior injection of fetuin was found to abrogate the biliary secretion of native antibody and to significantly reduce the recovery of asialo-antibody in bile. In contrast, the presence of asialofetuin reduced (but not significantly) the secretion of native antibody and markedly changed the kinetics of appearance of asialo-IgM activity in bile. Some candidate routes to bile can be excluded as unlikely. The parahepatocellular pathway to bile canaliculi appears uninvolved because the secretion of antibody is slow and the inhibitory effects of fetuin argue against secretory component-mediated transport. Instead, two secretory pathways appear to be present. The first appears to be available to both native and asialo-IgM antibody, and may involve the peribiliary capillary plexus. The second route to bile is available to asialo-IgM antibody alone and is probably initiated by binding to the hepatic asialoglycoprotein receptor.