Measurement and regulation of thyroidal status in teleost fish

Summary We have reviewed the stages in teleost thyroid function and its regulation, from the initial biosynthesis of the TH to their eventual interaction with putative receptors.TH biosynthesis depends on an adequate plasma iodide level, determined partly by dietary iodide and partly by active branchial iodide uptake from the water, Pulse-injected radioiodide can be used to evaluate thyroidal iodide uptake, aspects of TH biosynthesis and TH thyroidal secretion. However, owing to variable plasma iodide levels, care is required in interpretating these parameters. TH biosynthesis, thyroglobulin properties and intrathyroidal secretion mechanisms have received limited recent attention. Histological indices of thyroid tissue changes, while useful in many situations, do not always correlate with more direct estimates of thyroidal secretion and can be misleading.Thyroid function is regulated by the hypothalamo-pituitary-thyroid axis, but neither the identities of the hypothalamic factors nor a reliable immunoassay for TSH have been established. Currently, activity of the hypothalamic-pituitary axis is usually determined by pituitary thyrotrope histological appearance or bioassay of pituitary TSH. Plasma free T₄ feeds back at both the pituitary and hypothalamic levels and inhibits TSH release. Thyroidal T₄ secretory activity is presumably adjusted to maintain a constant plasma T₄level according to physiologic state.Plasma T₄ is probably the most commonly used index of thyroidal status. However, (1) T₄ is probably not the active form of TH, (2) the T₄ plasma level may be influenced by the binding properties of plasma proteins, and (3) the T₄ concentration alone makes no provision for the rate of T₄ turnover in plasma. The most practical way to measure thyroidal T₄SR is to determine plasma T₄DR, and assuming steady-state conditions, equate it to T₄SR. The T₄DR is determined from kinetic studies employing^*T₄, which also enable estimates of sizes of vascular and extravascular T₄ pools and their rates of exchange. Excretion of T₄ or its derivatives in urine or bile can be determined also. A high proportion of T₄ is enzymatically monodeiodinated in liver and other tissues, generating T₃ for local (intracellular) and vascular systemic compartments.Bothin vivo andin vitro methods have been used to quantify T₄ deiodinase activity, which is highly responsive to physiologic state and environmental variables. T₃ production is inhibited by a moderate T₃ excess indicating an autoregulatory system, whereby tissue T₃ levels are maintained at a set-point appropriate for a particular physiologic state. The rate of T₃ production provides an informative measure of thyroidal status in a given tissue. However, other pathways also contribute to the maintenance of T₃ homeostasis at a particular set-point. These include the rate of T₃ degradation to 3,3-T₂, the rate of T₄ substrate diversion to rT₃ (an inactive isomer) and by the excretion of parent compounds or conjugates in bile and urine. Potential losses across branchial or integumentary surfaces have yet to be evaluated.The most fundamental measure of thyroidal status is represented by the amount of T₃ saturably bound to receptors/nucleus for the cell type of interest. This is estimated most accurately in double isotope studies in which T₃ contributions from both vascular and intracellular compartments are evaluated. Less satisfactory but meaningful indices of T₃ availability to receptor sites may be obtained from the plasma T₃ (or free T₃) level and from the tissue T₃ level. The former is appropriate if the cell type in question obtains its T₃ primarily from plasma; the latter should be measured if the cell type derives its T₃ mainly through intracellular deiodinase activity. If the proportion of vascular T₃/intracellular T₃ bound to receptors is known, it may indicate the degree of receptor activation. However, even cytosolic T₃ levels may not vary in proportion to nuclear T₃ levels.Differences in thyroidal function between teleosts and homeotherms can be attributed to distinctive strategies in iodide economy and to fundamental differences in control of thyroidal status. Owing to more certain iodide availability (branchial iodide pump and plasma iodide-binding proteins), teleosts are probably more liberal in their iodide use and have less efficient mechanisms for recovery and retention of hormonal iodide than homeotherms. Also, primary control of teleost thyroidal function appears peripheral. It is the finely regulated conversion of T₄ to T₃ in tissues which may largely determine the T₄ secretion rate. Thus, T₄, as a prohormone, may be produced more to satisfy the substrate needs for T₄ conversion rather than to drive T₃ production. Because TH are mainly implicated in tissue- or cell-specific processes involved in development, growth and reproduction in teleosts, it may be advantageous for their thyroidal status to be determined locally through T₄-to-T₃ deiodination. In homeotherms, primary control is mainly central through the hypothalamic-pituitary axis, which regulates thyroidal secretion of T₄ and significant amounts of T₃. The level of T₄ (free T₄) is believed to drive the production of T₃ in most peripheral tissues. Because TH are extensively involved in the systemically integrated adjustment of basal metabolic rate in homeotherms, it may have been advantageous to evolve a system leaning towards central control by the hypothalamus, the brain centre associated with thermoregulation.     

中国的炭疽杆菌DNA分型及其地理分布

炭疽广泛分布于中国各地,特别是西部地区,并经常造成人畜疾病,在一项合作研究中,用多位点VNTR分析（MLVA）对从1952-1998年自中国主要地理流行区域分离的病人,病畜和土壤等来源的炭疽杆菌进行了基因分型,MLVA分析结果揭示了21种新的基因型,其等位基因组合在以前世界范围分离物的研究中未曾发现,此外,分离物的分群显示,A3b组是地理上最广泛分布的基因组,说明该组可能是中国的“地方流行株”。而来自古丝绸之路重要贸易中心新疆的大量分离株其基因型特别分散。     

Song learning in zebra finches: some effects of song model availability on what is learnt and when

This study indicates that captive male zebra finches (Taeniopygia guttata) normally learn their song during the juvenile period between independence from their parents and sexual maturity, from whatever suitable song model is available. Virtually nothing is learnt from the father before this time. Hybrid songs may develop if birds are removed from the father and given a new song model before song learning is complete. The absence of a song model during the juvenile stage appears to postpone the sensitive phase and abnormal song is produced until a suitable model becomes available. Normal song will then develop, even in a sexually mature adult. This indicates that experience and not age is the important factor determining the timing of the sensitive phase for song learning in zebra finches.     

Lateral asymmetry of paw usage: phenotypic survey of constitutive and experience-conditioned paw-usage behaviours among common strains of the mouse.

Left-right direction of paw usage in the mouse is defined by the right-paw entry (RPE) score, which is the number of reaches with the right paw to retrieve food from a small food tube in a total of 50 right- and left-paw reaches. Two qualitatively different paw-usage behaviours can be identified by the difference in the RPE scores from naive mice in left- or right-biased test chambers and their retest, 1 week later, in the opposite-biased test chamber. In mice with constitutive paw usage, the RPE score may respond to the direction of a biased test chamber, but it returns to the value that is expected for naive mice in the opposite-biased test chamber. In mice with experience-conditioned paw usage, the RPE score responds to the direction of a biased test chamber and does not return to its expected value in the opposite-biased test chamber. In this report, we document the alternate paw usage behaviours in an extended phenotypic survey of different strains that will be useful for its genetic analysis. We also validate an alternate biometrical method to identify constitutive and experience-conditioned paw usage that is based on the mean average RPE score from the biased test and opposite-biased retest of individual mice. This alternate biometrical method demonstrated that, in some strains with experience-conditioned paw usage, there may be asymmetry or an interaction between genotype and the direction of the test sequence. In addition, the strain survey demonstrated that the qualitative difference between constitutive and experience-conditioned paw usage is independent of the well-known quantitative difference in the degree of lateralization of preferred-paw usage.     

Signatures of miR-181a on the Renal Transcriptome and Blood Pressure

MicroRNA-181a binds to the 3′ untranslated region of messenger RNA (mRNA) for renin, a rate-limiting enzyme of the renin-angiotensin system. Our objective was to determine whether this molecular interaction translates into a clinically meaningful effect on blood pressure and whether circulating miR-181a is a measurable proxy of blood pressure. In 200 human kidneys from the TRANScriptome of renaL humAn TissuE (TRANSLATE) study, renal miR-181a was the sole negative predictor of renin mRNA and a strong correlate of circulating miR-181a. Elevated miR-181a levels correlated positively with systolic and diastolic blood pressure in TRANSLATE, and this association was independent of circulating renin. The association between serum miR-181a and systolic blood pressure was replicated in 199 subjects from the Genetic Regulation of Arterial Pressure of Humans In the Community (GRAPHIC) study. Renal immunohistochemistry and in situ hybridization showed that colocalization of miR-181a and renin was most prominent in collecting ducts where renin is not released into the systemic circulation. Analysis of 69 human kidneys characterized by RNA sequencing revealed that miR-181a was associated with downregulation of four mitochondrial pathways and upregulation of 41 signaling cascades of adaptive immunity and inflammation. We conclude that renal miR-181a has pleiotropic effects on pathways relevant to blood pressure regulation and that circulating levels of miR-181a are both a measurable proxy of renal miR-181a expression and a novel biochemical correlate of blood pressure.     

MicroRNAs in systemic rheumatic diseases

MicroRNAs (miRNAs) are endogenous, non-coding, single-stranded RNAs about 21 nucleotides in length. miRNAs have been shown to regulate gene expression and thus influence a wide range of physiological and pathological processes. Moreover, they are detected in a variety of sources, including tissues, serum, and other body fluids, such as saliva. The role of miRNAs is evident in various malignant and nonmalignant diseases, and there is accumulating evidence also for an important role of miRNAs in systemic rheumatic diseases. Abnormal expression of miRNAs has been reported in autoimmune diseases, mainly in systemic lupus erythematosus and rheumatoid arthritis. miRNAs can be aberrantly expressed even in the different stages of disease progression, allowing miRNAs to be important biomarkers, to help understand the pathogenesis of the disease, and to monitor disease activity and effects of treatment. Different groups have demonstrated a link between miRNA expression and disease activity, as in the case of renal flares in lupus patients. Moreover, miRNAs are emerging as potential targets for new therapeutic strategies of autoimmune disorders. Taken together, recent data demonstrate that miRNAs can influence mechanisms involved in the pathogenesis, relapse, and specific organ involvement of autoimmune diseases. The ultimate goal is the identification of a miRNA target or targets that could be manipulated through specific therapies, aiming at activation or inhibition of specific miRNAs responsible for the development of disease.     

Frequent coexistence of anti-topoisomerase I and anti-U1RNP autoantibodies in African American patients associated with mild skin involvement: a retrospective clinical study

Introduction  

The presence of anti-topoisomerase I (topo I) antibodies is a classic scleroderma (SSc) marker presumably associated with a unique clinical subset. Here the clinical association of anti-topo I was reevaluated in unselected patients seen in a rheumatology clinic setting.     

Hand-preference training in the mouse reveals key elements of its learning and memory process and resolves the phenotypic complexity in the behaviour.

Handedness in the mouse comprises 2 different behaviours. Some strains have a conditional behaviour, in that the mice learn a direction of hand preference in response to reaching for food, whereas other strains have an innate or constitutive behaviour, and prior experience has no measurable effect on their hand preference. However, hybrids from different strains have revealed both recessive and dominant forms of constitutive hand preference. We proposed that kinetic parameters of the learning process would resolve this genetic heterogeneity as well as the phenotypic complexity in the behaviour. We conducted and report here a detailed kinetic analysis of hand-preference training in the C57BL/6J strain. It revealed elements of the fundamental process of learning and long-term memory that underlies the behaviour by documenting consolidation of memory, blocking of this consolidation by an inhibitor of protein synthesis, retention of memory, and speed of learning in response to training reaches. Furthermore, speed of learning is clearly described by 2 parameters that we call "capacity" (or maximum amount of learned preference) and "ability" (or number of training reaches to achieve half the capacity). These 2 kinetic parameters can vary independently among genetically different strains that learn a preference, and we used them to demonstrate that the respective recessive and dominant forms of constitutive hand-preference may be the consequence of a true null or loss of function and a gain of function, possibly a memory regulator, in the learning process. The quantitative measures provide a sensitive and selective method to establish the fundamental learning process underlying mouse hand preference and to demonstrate empirically how genes and contextual environment shape its phenotypic complexity.