Direct anabolic metabolism of three-carbon propionate to a six-carbon metabolite occurs in vivo across tissues and species

Anabolic metabolism of carbon in mammals is mediated via the one- and two-carbon carriers S-adenosyl methionine and acetyl-coenzyme A. In contrast, anabolic metabolism of three-carbon units via propionate has not been shown to extensively occur. Mammals are primarily thought to oxidize the three-carbon short chain fatty acid propionate by shunting propionyl-CoA to succinyl-CoA for entry into the TCA cycle. Here, we found that this may not be absolute as, in mammals, one nonoxidative fate of propionyl-CoA is to condense to two three-carbon units into a six-carbon trans-2-methyl-2-pentenoyl-CoA (2M2PE-CoA). We confirmed this reaction pathway using purified protein extracts provided limited substrates and verified the product via LC-MS using a synthetic standard. In whole-body in vivo stable isotope tracing following infusion of ¹³C-labeled valine at steady state, 2M2PE-CoA was found to form via propionyl-CoA in multiple murine tissues, including heart, kidney, and to a lesser degree, in brown adipose tissue, liver, and tibialis anterior muscle. Using ex vivo isotope tracing, we found that 2M2PE-CoA also formed in human myocardial tissue incubated with propionate to a limited extent. While the complete enzymology of this pathway remains to be elucidated, these results confirm the in vivo existence of at least one anabolic three- to six-carbon reaction conserved in humans and mice that utilizes propionate.     

Studies on the epidemiology of Strongylus vulgaris infection of the horse.

Observations are reported on the size and age structure of Stronglyus vulgaris populations recovered from the anterior mesenteric artery and its main branches of horses slaughtered at regular intervals throughout a year. Marked seasonal variations were found in the mean monthly numbers of worms present. During spring/early summer the numbers were relatively low and a large proportion of the arteries had no worms in them at all. Thereafter, the arterial worm burdens quite rapidly increased and the highest levels were reached during the winter months. During summer, small, newly-arrived larvae were quite abundant but by the end of the year well-developed (fifth-stage and late fourth-stage) worms predominated. These observations support the view that S. vulgaris is in Britain an annual species completing its development mainly during the winter months of the year.     

Targeting host mitochondria: A role for the Trypanosoma cruzi amastigote flagellum

Trypanosoma cruzi is the kinetoplastid protozoan parasite that causes human Chagas disease, a chronic disease with complex outcomes including severe cardiomyopathy and sudden death. In mammalian hosts, T. cruzi colonises a wide range of tissues and cell types where it replicates within the host cell cytoplasm. Like all intracellular pathogens, T. cruzi amastigotes must interact with its immediate host cell environment in a manner that facilitates access to nutrients and promotes a suitable niche for replication and survival. Although potentially exploitable to devise strategies for pathogen control, fundamental knowledge of the host pathways co‐opted by T. cruzi during infection is currently lacking. Here, we report that intracellular T. cruzi amastigotes establish close contact with host mitochondria via their single flagellum. Given the key bioenergetic and homeostatic roles of mitochondria, this striking finding suggests a functional role for host mitochondria in the infection process and points to the T. cruzi amastigote flagellum as an active participant in pathogenesis. Our study establishes the basis for future investigation of the molecular and functional consequences of this intriguing host–parasite interaction.     

荷包牡丹碱对垂体前叶组织块释放促肾上腺皮质激素的刺激效应

本实验利用垂体组织块离体灌流技术,观察到－氨基丁酸Ａ受体拮抗剂荷包牡丹碱对切除双侧肾上腺９６ｈ后的大鼠垂体前叶ＡＣＴＨ的分泌具有强烈的刺激作用。但同样浓度的荷包牡丹碱对分离的垂体前叶细胞的ＡＣＴＨ分泌无影响。提示肾上腺切除后,－氨基丁酸在垂体前叶直接或通过间接途径抑制ＡＣＴＨ分泌。     

Fine-Structural Changes Associated with Pseudocyst Formation in Trichomitus batrachorum*

SYNOPSIS. Several fine-structural changes were observed during formation of the so-called pseudocysts of Trichomitus batrachorum grown in an agar-free medium. Among these changes the most frequent were those of the undulating membrane complex. Internalization of the marginal lamella combined with disappearance of the fin-like, membranous dorsal fold occurred with the highest frequency. In many organisms these alterations were accompanied by internalization of the recurrent flagellum, which, however, remained external in other, presumably earlier stages of pseudocyst formation. In some of the internalized and even still external recurrent flagella the microtubules were in various states of disassembly. The often distended flagellar membrane enclosed large accumulations of filaments 5 nm in diameter. Internalization of the anterior flagella also was noted. Changes similar to those characteristic of the recurrent flagella were not seen, however, among the microtubules of the anterior flagella or among those of the pelta or the axostyle.     

A light microscopic study of nuclear and cytoplasmic size of the aggregate acidophil population in the hypophysis cerebri,pars distalis,of adult male mule deer,Odocoileus hemionus hemionus,relative to seasons of the photoperiod and antler cycles

Summary Nuclear and cytoplasmic size (²) of acidophils in the pars distalis of adult male deer were measured and the data analyzed statistically with reference to the four classical seasons of the photoperiodic cycle and five periods and two events of the antler cycle. The seasons, and the respective mean cross-sectional areas of cell nuclei and cytoplasm, are: Spring (21 March–20 June; increasing photoperiod greater than 12 hours), 28.45 and 48.68 ²; Summer (21 June–20 September; decreasing photoperiod greater than 12 hours), 27.81 and 44.25 ²; Fall (21 September–20 December; decreasing photoperiod less than 12 hours), 30.40 and 45.07 ²; Winter (21 December–20 March; increasing photoperiod less than 12 hours) 27.28 and 40.30 ². Beginning in late winter and early spring the components of the antler cycle, and the respective cross-sectional areas of cell nuclei and cytoplasm, are: Initial Antler Growth, 28.08 and 38.58 ²; Growth of Velvet Antler Form, 28.93 and 50.61 ², Antlers Hardening, 27.53 and 40.83 ²; Velvet Shedding, 29.03 and 53.20 ²; Rutting Season, 29.95 and 44.97 ²; Preparation for Shedding, 26.50 and 40.38 ²; Antlers Recently Shed, 27.53 and 47.85 ². Shedding of boney antlers, growth of velvet antlers and increases in nuclear and cytoplasmic areas of acidophil cells in the pars distalis occur when the photoperiod is increasing. Construction and retention of hard antlers occur when photoperiod is decreasing. This lessening of day length appears to influence the gonadotrophs that regulate secretion of testosterone.A part of a dissertation submitted in partial fulfillment of the requirements for the degree Doctor of Philosophy, Anatomy, Colorado State University. Specimens were contributed by Colorado Federal Aid Project W-105-R, Colorado Division of Game, Fish and Parks, Game Research Center, Fort Collins and investigations of them was supported by grant T1-DE130 from the National Institutes of Health, Bethesda, Maryland, U.S.A.NIDR Predoctoral Trainee.     

铜绿假单胞菌fur基因缺失突变株的构建及其表型分析

铁摄取调节蛋白(ferric uptake regulator, Fur)是控制铜绿假单胞菌铁代谢和毒力的关键调节因子。许多课题组尝试构建铜绿假单胞菌fur的缺失突变株均失败,因此铜绿假单胞菌的fur一直被认为是必需基因,这导致其生物学功能一直未得到全面的解析。【目的】构建铜绿假单胞菌fur的缺失突变株,并对该突变株的表型进行分析。【方法】以铜绿假单胞菌PAO1为亲本菌株,通过同源重组的方法构建fur缺失突变株,研究该基因对铜绿假单胞菌生长、铁载体生物合成、抗氧胁迫能力、鞭毛形成、生物被膜形成和毒力等的影响。同时,通过遗传分析对fur缺失突变株生长缺陷表型的原因进行探究。【结果】本研究成功构建了铜绿假单胞菌fur基因的缺失突变株,发现缺失突变fur极大地限制了铜绿假单胞菌的生长能力,并降低了该菌对限铁环境的生长适应性,但不影响该菌对高铁环境的生长适应性。铜绿假单胞菌Δfur的这种生长缺陷表型是细胞生长增殖变慢造成的,而不是诱导细胞死亡引起的。然而,其他异源的fur基因能完全互补Δfur的这种生长缺陷表型,暗示铜绿假单胞菌的Fur蛋白在功能上不存在独特性。尽管Fur与毒素-抗毒素系统PacTA存在功能关联性,但是铜绿假单胞菌Δfur的这种生长缺陷表型却与PacT毒素无关。除了影响铜绿假单胞菌的生长表型,缺失突变fur还使铜绿假单胞菌丧失了对铁载体生物合成的抑制作用,导致该菌对H₂O₂更敏感并丧失了鞭毛的形成能力,同时降低了该菌对大蜡螟幼虫的毒力。此外,缺失突变fur还显著提升了铜绿假单胞菌的胞内环二鸟苷酸(cyclic diguanylate, c-di-GMP)水平,从而诱导pelF和pslA基因的表达,进而促进铜绿假单胞菌生物被膜的形成。【结论】fur是可以缺失的非必需基因,在铜绿假单胞菌的正常生长、铁载体生物合成、抗氧胁迫能力、鞭毛形成、生物被膜形成和毒力等方面都发挥着十分重要的作用,这为针对铜绿假单胞菌的疫苗和抗菌药物开发奠定了基础。     

Imaging mass spectroscopy delineates the thinned and thickened walls of intracranial aneurysms

Object

The wall thickness of intracranial aneurysms (IAs) is heterogeneous. Although thinning of the IA wall is thought to contribute to IA rupture, the underlying mechanism remains poorly understood. Recently, imaging mass spectroscopy (IMS) has been used to reveal the distribution of phospholipids in vascular diseases. To investigate the feature of phospholipid composition of IA walls, we conducted IMS in a rat model of experimentally induced IA.