Partial purification and characterization of taurodeoxycholate 7α-monooxygenase

Taurodeoxycholate 7α-monooxygenase was partially purified from rat liver microsomes. The enzyme was solubilized with cholate, fractionated with polyethylene glycol and chromatographed on a Sepharose 4B column with cholate as ligand. The enzyme activity was eluted from the column into the fraction eluted with 50 mM phosphate buffer containing cholate and KCl, whereas the benzphetamine demethylase activity was eluted in the non-bound fraction. Thus it was established that both enzymes are different entities. The taurodeoxycholate 7α-monooxygenase activity was reconstituted from the partially purified cytochrome P-450, highly purified NADPH-cytochrome P-450 reductase, dilauroylglyceryl-3-phosphorylcholine and NADPH.     

Loss of functional MYO1C/myosin 1c,a motor protein involved in lipid raft trafficking,disrupts autophagosome-lysosome fusion

MYO1C, a single-headed class I myosin, associates with cholesterol-enriched lipid rafts and facilitates their recycling from intracellular compartments to the cell surface. Absence of functional MYO1C disturbs the cellular distribution of lipid rafts, causes the accumulation of cholesterol-enriched membranes in the perinuclear recycling compartment, and leads to enlargement of endolysosomal membranes. Several feeder pathways, including classical endocytosis but also the autophagy pathway, maintain the health of the cell by selective degradation of cargo through fusion with the lysosome. Here we show that loss of functional MYO1C leads to an increase in total cellular cholesterol and its disrupted subcellular distribution. We observe an accumulation of autophagic structures caused by a block in fusion with the lysosome and a defect in autophagic cargo degradation. Interestingly, the loss of MYO1C has no effect on degradation of endocytic cargo such as EGFR, illustrating that although the endolysosomal compartment is enlarged in size, it is functional, contains active hydrolases, and the correct pH. Our results highlight the importance of correct lipid composition in autophagosomes and lysosomes to enable them to fuse. Ablating MYO1C function causes abnormal cholesterol distribution, which has a major selective impact on the autophagy pathway.     

Calcium-Dependent Interaction Sites of Tropomyosin on Reconstituted Muscle Thin Filaments with Bound Myosin Heads as Studied by Site-Directed Spin-Labeling

To identify the interaction sites of Tm, we measured the rotational motion of a spin-label covalently bound to the side chain of a cysteine that was genetically incorporated into rabbit skeletal muscle tropomyosin (Tm) at positions 13, 36, 146, 160, 174, 190, 209, 230, 271, or 279. Most of the Tm residues were immobilized on actin filaments with myosin-S1 bound to them. The residues in the mid-portion of Tm, namely, 146, 174, 190, 209, and 230, were mobilized when the troponin (Tn) complex bound to the actin-Tm-S1 filaments. The addition of Ca²⁺ ions partially reversed the Tn-induced mobilization. In contrast, residues at the joint region of Tm, 13, 36, 271, and 279 were unchanged or oppositely changed. All of these changes were detected using a maleimide spin label and less obviously using a methanesulfonate label. These results indicated that Tm was fixed on thin filaments with myosin bound to them, although a small change in the flexibility of the side chains of Tm residues, presumably interfaced with Tn, actin and myosin, was induced by the binding of Tn and Ca²⁺. These findings suggest that even in the myosin-bound (open) state, Ca²⁺ may regulate actomyosin contractile properties via Tm.     

Induced pluripotent stem cell‐derived melanocyte precursor cells undergoing differentiation into melanocytes

Induced pluripotent stem cell (iPSC) technology offers a novel approach for conversion of human primary fibroblasts into melanocytes. During attempts to explore various protocols for differentiation of iPSCs into melanocytes, we found a distinct and self‐renewing cell lineage that could differentiate into melanocytes, named as melanocyte precursor cells (MPCs). The MPCs exhibited a morphology distinctive from that of melanocytes, in lacking either the melanosomal structure or the melanocyte‐specific marker genes MITF, TYR, and SOX10. In addition, gene expression studies in the MPCs showed high‐level expression of WNT5A, ROR2, which are non‐canonical WNT pathway markers, and its related receptor TGFβR2. In contrast, MPC differentiation into melanocytes was achieved by activating the canonical WNT pathway using the GSK3β inhibitor. Our data demonstrated the distinct characteristic of MPCs' ability to differentiate into melanocytes, and the underlying mechanism of interfacing between canonical WNT signaling pathway and non‐canonical WNT signaling pathway.     

Efficacy of Recombinant Canine Distemper Virus Expressing Leishmania Antigen against Leishmania Challenge in Dogs

Canine distemper virus (CDV) vaccination confers long-term protection against CDV reinfection. To investigate the utility of CDV as a polyvalent vaccine vector for Leishmania, we generated recombinant CDVs, based on an avirulent Yanaka strain, that expressed Leishmania antigens: LACK, TSA, or LmSTI1 (rCDV–LACK, rCDV–TSA, and rCDV–LmSTI1, respectively). Dogs immunized with rCDV-LACK were protected against challenge with lethal doses of virulent CDV, in the same way as the parental Yanaka strain. To evaluate the protective effects of the recombinant CDVs against cutaneous leishmaniasis in dogs, dogs were immunized with one recombinant CDV or a cocktail of three recombinant CDVs, before intradermal challenge (in the ears) with infective-stage promastigotes of Leishmania major. Unvaccinated dogs showed increased nodules with ulcer formation after 3 weeks, whereas dogs immunized with rCDV–LACK showed markedly smaller nodules without ulceration. Although the rCDV–TSA- and rCDV–LmSTI1-immunized dogs showed little protection against L. major, the cocktail of three recombinant CDVs more effectively suppressed the progression of nodule formation than immunization with rCDV–LACK alone. These results indicate that recombinant CDV is suitable for use as a polyvalent live attenuated vaccine for protection against both CDV and L. major infections in dogs.     

The aglomerular kidney of the deep-sea gulper eel <Emphasis Type="Italic">Saccopharynx ampullaceus</Emphasis> (Saccopharyngiformes: Saccopharyngidae)

We report the presence of an aglomerular kidney in the pelagic deep-sea fish Saccopharynx ampullaceus (Saccopharyngiformes: Saccopharyngidae). The thin kidney is unpaired and ribbon-like rostrally, while it is thicker caudally with a rod-like shape. Light microscopic observation of serial sections revealed no glomeruli at all. The kidney is composed of renal tubules, sinusoids and capillaries of the renal portal system and extensive interstitial lymphoid tissues. Each renal tubule is surrounded by well-developed renal portal sinusoids, and the tubules are well separated from each other. There is a large space dorsal to the vertebrae, similar to the situation in the closely related Eurypharynx pelecanoides. We consider that S. ampullaceus possesses an aglomerular kidney to gain neutral buoyancy. The urinary bladder of S. ampullaceus is a distinct vesicular structure, unlike that of E. pelecanoides.     

Cynomolgus monkeys (Macaca fascicularis) may not become infected with equine herpesvirus 9

Background It was suggested that Equine herpesvirus 9 (EHV‐9) could be transmitted to higher non‐human primates. Methods Four cynomolgus monkeys (Macaca fascicularis) were inoculated with EHV‐9 by the nasal route. Results No abnormalities were observed pathologically, immunohistochemically, and genetically. Conclusions These findings indicate that cynomolgus monkeys are not susceptible to EHV‐9.