Intestinal Atp8b1 dysfunction causes hepatic choline deficiency and steatohepatitis.

Choline is an essential nutrient, and its deficiency causes steatohepatitis. Dietary phosphatidylcholine (PC) is digested into lysoPC (LPC), glycerophosphocholine, and choline in the intestinal lumen and is the primary source of systemic choline. However, the major PC metabolites absorbed in the intestinal tract remain unidentified. ATP8B1 is a P4-ATPase phospholipid flippase expressed in the apical membrane of the epithelium. Here, we use intestinal epithelial cell (IEC)-specific Atp8b1-knockout (Atp8b1IEC-KO) mice. These mice progress to steatohepatitis by 4 weeks. Metabolomic analysis and cell-based assays show that loss of Atp8b1 in IEC causes LPC malabsorption and thereby hepatic choline deficiency. Feeding choline-supplemented diets to lactating mice achieves complete recovery from steatohepatitis in Atp8b1IEC-KO mice. Analysis of samples from pediatric patients with ATP8B1 deficiency suggests its translational potential. This study indicates that Atp8b1 regulates hepatic choline levels through intestinal LPC absorption, encouraging the evaluation of choline supplementation therapy for steatohepatitis caused by ATP8B1 dysfunction.

High-flow nasal cannula oxygen therapy: Alternative respiratory therapy for severe post-transplant hypoxemia in children with hepatopulmonary syndrome.

Severe post-transplant hypoxemia, which is defined as <50 mm Hg of the partial pressure of oxygen in arterial blood/fraction of inspired oxygen (P/F) ratio, is a major post-operative complication with high mortality rates in patients with hepatopulmonary syndrome (HPS). Non-invasive positive pressure ventilation therapy and mechanical ventilation are options for respiratory support of patients with severe post-transplant hypoxemia. However, these therapies are associated with several problems, such as compliance, ventilator-associated pneumonia, and lung injury. We here firstly described two children with HPS who developed severe post-transplant hypoxemia (lowest post-operative P/F ratio, 49.7 and 34.0 mm Hg, respectively) that was successfully managed with high-flow nasal cannula (HFNC) oxygen therapy and vasodilation drugs without adverse complications or necessity of reintubation. We consider that HFNC oxygen therapy could become a safe alternative respiratory therapy or be added to the other such as inhaled nitric oxide (iNO), methylene blue (MB), inhaled epoprostenol, embolization of abnormal pulmonary vessels, and combination of iNO and MB for severe post-transplant hypoxemia in children with HPS.

[New FP Therapy Was Effective for a Case of Massive Hepatocellular Carcinoma].

A 62 year-old woman was hospitalized with the diagnosis of pneumonia, and a huge mass was recognized in the right lobe of the liver during a CT scan. AFP and PIVKA-Ⅱ were elevated to 101.05 ng/mL and 2,177 mAU/mL. The liver function test indicated Child-Pugh classification A, liver damage degree B, and ICG R15 34%. We judged a radical cure resection impossible. We treated the patient with arterial injections of modified new FP therapy. No side effect occurred during the first course. Liver dysfunction with fever and hematuria occurred during the second course, leading to discontinuation of therapy. Because a prominent reduction in the size of the tumor was achieved, liver resection is scheduled. New FP therapy can be expected to attain a favorable result that may allow for curative resection of the tumor.

Effect of zinc on early graft failure following intraportal islet transplantation in rat recipients.

BACKGROUND: Zinc (Zn) is related to insulin synthesis, storage and secretion. Zn status in patients with Type 1 diabetes is significantly lower than in healthy controls. Intraportal islet transplantation (IPIT) is a radical treatment for diabetes, the success of which depends largely on the survival of the transplanted islets. This study demonstrates the impact of a Zn-rich environment on transplanted islet survival. MATERIAL/METHODS: Diabetic Wistar rats were transplanted with syngeneic islets. Rats in the high-Zn-diet group were fed a standard pelleted diet containing ZnSO4 at 1000 ppm, whereas those in the control group were fed an ordinary diet alone (ZnSO4 at 50 ppm) for two weeks prior to islet transplantation. We examined Zn level of plasma, the blood glucose levels, and histological findings, etc., after intraportal islet transplantation. RESULTS: The high-Zn-diet group showed excellent blood glucose control compared with the control group on observation days 3, (237.1±120.6 mg/dl vs. 164.2±69.1 mg/dl; p<0.05) and 14, (273.7±160.9 mg/dl vs. 179.2±114.3 mg/dl; p<0.05). Early graft failure was found to be suppressed in the high-Zn-diet group on day 3 after transplantation (6.7% vs. 33.3%: p<0.05). As for the percentage of granulated islets, the high-Zn-diet group was improved (65.1% vs. 41.8%: p<0.05). CONCLUSIONS: These results indicated that a zinc-rich environment is advantageous for the recipient in intraportal islet transplantation. Zn is harmless in humans; thus, we consider that Zn supplementation could be a simple way to improve clinical results of intraportal islet transplantation.

Reduced carnitine level causes death from hypoglycemia: possible involvement of suppression of hypothalamic orexin expression during weaning period.

The mechanism of onset of hypoglycemia in patients with carnitine deficiency has yet to be determined. Using mice with systemic carnitine deficiency (JVS mice), we examined this mechanism, focusing on the weaning period (days 14-28 postpartum). For normal mice, the survival rate was 100%, and no hypoglycemia was observed at all. Gastric lactose began to decrease on day 17, and cellulose increased sharply in amount thereafter. For JVS mice, the survival rate was 77% on day 14 and 28% on day 28. From day 21 on, hypoglycemia was noted. Gastric lactose had disappeared almost completely by day 17, and cellulose was almost undetectable from days 14 to 28. Expression of orexin mRNA in the hypothalamus did not differ between JVS and normal mice on day 14, but was suppressed in JVS mice on days 21 and 28. When JVS mice were fed a carnitine-rich diet, suppression of expression of orexin mRNA in hypothalamus was eliminated, and on day 28 lactose and cellulose were detected in the stomach without hypoglycemia. In conclusion, the suppression of the expression of orexin in the hypothalamus during the weaning period may be involved in the marked anorexia in JVS mice, which eventually leads to death from hypoglycemia.