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We reanalysed published data to evaluate whether climate and habitat are barriers to dispersal in one of the most mobile and widely distributed mammals, the grey wolf (Canis lupus). Distance-based redundancy analysis (dbRDA) was used to examine the amount of variation in genetic distances that could be explained by an array of environmental factors, including geographical distance. Patterns in genetic variation were also examined using MDS plots among populations and relationships between genetic structure and individual environmental variables were further explored using the BIOENV procedure. We found that, contrary to a previous report, a pattern of isolation with distance is evident on a continental scale in the North American wolf population. This pattern is apparently related to climate and habitat. Specifically, vegetation types appear to play a role in the genetic dissimilarities among populations. When we controlled for the effect of spatial variation, climate was still associated with genetic distance. Further, partitioning of geographical distances into latitudinal and longitudinal axes revealed that the east-west gradient had the strongest relationship with genetic distance. We suggest two possible mechanisms by which environmental conditions may influence the dispersal decisions made by wolves.
Mol Ecol 2004 Aug
PMID:Climate and habitat barriers to dispersal in the highly mobile grey wolf. 1524 20

Despite the relatively recent divergence time between domestic dogs (Canis familiaris) and gray wolves (Canis lupus), the two species show remarkable behavioral differences. Since dogs and wolves are nearly identical at the level of DNA sequence, we hypothesize that the two species may differ in patterns of gene expression. We compare gene expression patterns in dogs, wolves and a close relative, the coyote (Canis latrans), in three parts of the brain: hypothalamus, amygdala and frontal cortex, with microarray technology. Additionally, we identify genes with region-specific expression patterns in all three species. Among the wild canids, the hypothalamus has a highly conserved expression profile. This contrasts with a marked divergence in domestic dogs. Real-time PCR experiments confirm the altered expression of two neuropeptides, CALCB and NPY. Our results suggest that strong selection on dogs for behavior during domestication may have resulted in modifications of mRNA expression patterns in a few hypothalamic genes with multiple functions. This study indicates that rapid changes in brain gene expression may not be exclusive to the development of human brains. Instead, they may provide a common mechanism for rapid adaptive changes during speciation, particularly in cases that present strong selective pressures on behavioral characters.
Brain Res Mol Brain Res 2004 Jul 26
PMID:From wild wolf to domestic dog: gene expression changes in the brain. 1524 44

Systemic lupus erythematosus (SLE) is characterized by abnormal activation and cell death signaling within the immune system. Activation, proliferation, or death of cells of the immune system are dependent on controlled reactive oxygen intermediate (ROI) production and ATP synthesis in mitochondria. The mitochondrial transmembrane potential (Delta(Psi)m) reflects the energy stored in the electrochemical gradient across the inner mitochondrial membrane, which in turn is used by F0F1-ATPase to convert adenosine 5'-diphosphate to ATP during oxidative phosphorylation. Mitochondrial hyperpolarization and transient ATP depletion represent early and reversible steps in T-cell activation and apoptosis. By contrast, T lymphocytes of patients with SLE exhibit elevated Delta(Psi)m, that is, persistent mitochondrial hyperpolarization, cytoplasmic alkalinization, increased ROI production, as well as diminished levels of intracellular glutathione and ATP. Oxidative stress affects signaling through the T-cell receptor as well as the activity of redox-sensitive caspases. ATP depletion may be responsible for diminished activation-induced apoptosis and sensitize lupus T cells to necrosis. Mitochondrial dysfunction is identified as a key mechanism in the pathogenesis of SLE.
Methods Mol Med 2004
PMID:Apoptosis and mitochondrial dysfunction in lymphocytes of patients with systemic lupus erythematosus. 1528 82

Murine models of systemic lupus erythematosus provide fertile research systems for the pathogenesis and therapy of systemic autoimmune disease. Their phenotypes span the broad range of clinical manifestations of human lupus and consist of both spontaneous and experimentally induced disease in both inbred and targeted mutant animals. This chapter contrasts the clinical characteristics of these various models, providing an outline for the use and analysis of these in vivo autoimmune systems.
Methods Mol Med 2004
PMID:Experimental use of murine lupus models. 1528 89

CD4+ T-cell DNA hypomethylation may contribute to the development of drug-induced and idiopathic human lupus. Inhibiting DNA methylation in mature CD4+ T cells causes autoreactivity specific to the major histocompatibility complex in vitro. The lupus-inducing drugs hydralazine and procainamide also inhibit T-cell DNA methylation and induce autoreactivity, and T cells from patients with active lupus have hypomethylated DNA and a similarly autoreactive T-cell subset. Further, T cells treated with DNA methylation inhibitors demethylate the same sequences that demethylate in T cells from patients with active lupus. The pathological significance of the autoreactivity induced by inhibiting T-cell DNA methylation has been tested by treating murine T cells in vitro with drugs that modify DNA methylation, then injecting the cells into syngeneic female mice. Mice receiving CD4+ T cells demethylated by a variety of agents, including procainamide and hydralazine, develop a lupuslike disease. This chapter describes the protocols for inducing autoreactivity in murine T cells in vitro and using the cells to induce autoimmunity in vivo.
Methods Mol Med 2004
PMID:Murine models of lupus induced by hypomethylated T cells. 1528 91

Bloom syndrome (BS) is a rare autosomal recessive genetic disorder characterized by lupus-like erythematous facial telangiectasia, sun sensitivity, infertility, stunted growth and a high predisposition to various types of cancer. Chromosomal abnormalities are hallmarks of this disorder, and high frequencies of sister chromatid exchanges and quadriradial configurations in lymphocytes and fibroblasts are diagnostic features. BLM is the causative gene for BS. We investigated the mutation in the BLM gene in 4 Japanese BS kindreds. Taken together with previously documented mutations, 2 kindreds were homozygous for 631delCAA and 2 were compound heterozygous for 631delCAA. The silent mutation of A1055C (Thr to Thr) was detected in control Japanese individuals. The 6-bp deletion/7-bp insertion at position 2,281, which most Askenazi Jewish BS patients carry, was not detected in 200 Japanese alleles. These results suggest that 631delCAA is a relatively common mutation among the Japanese BS patients.
Int J Mol Med 2004 Sep
PMID:Relatively common mutations of the Bloom syndrome gene in the Japanese population. 1528 97

Few diseases exemplify the integration of research from bench to bedside as well as neonatal lupus, often described as a model of passively acquired autoimmunity. The signature histologic lesion of autoimmune congenital heart block (CHB) is fibrosis of the conducting tissue and, in some cases, the surrounding myocardium. Although anti-SSA/Ro-SSB/La antibodies are detected in > 85% of mothers whose fetuses are identified with conduction abnormalities in a structurally normal heart, the risk for a woman with the candidate antibodies to have a child with CHB is 2%. The mechanism by which maternal anti-SSA/Ro-SSB/La antibodies initiate and finally eventuate in atrioventricular nodal scarring is not yet defined, but it is clear that the antibodies alone are insufficient to cause disease and fetal factors are likely contributory. Previous in vitro and in vivo studies suggest that the pathologic cascade is initiated via apoptosis, resulting in translocation of SSA/Ro-SSB/La antigens to the cell surface where they are bound by maternal autoantibodies. Subsequently, the Fc portion of the bound immunoglobulin engages Fcgamma receptors on tissue macrophages, resulting in release of TGF-beta at a threshold favoring a profibrotic milieu and irreversible scarring. This cascade also involves tissue-specific activation of TGF-beta, which promotes the modulation of fibroblasts into myofibroblasts, a scarring phenotype. Recent findings point to genetic polymorphisms that promote high production of TGF-beta as possible fetal risk factors for CHB. Further elucidation of maternal and fetal contributory factors should provide insight into the pathogenesis of CHB and the rarity of irreversible injury.
Anat Rec A Discov Mol Cell Evol Biol 2004 Oct
PMID:Autoimmune-associated congenital heart block: dissecting the cascade from immunologic insult to relentless fibrosis. 1536 47

Mice from the MRL strain are prone to develop systemic lupus erythematosus (SLE) and have demonstrated accelerated wound healing and scarless tissue regeneration; however, many of the mechanisms involved in these clinically relevant pathologies are unclear. Prior studies have described macrophage accumulation and functional defects in mice prone to lupus. Monocyte-macrophages have also been shown to have a high degree of plasticity. To determine whether there might be innate differences in the hematopoietic systems of MRL mice, we evaluated hematopoietic progenitor cell content in a variety of tissues and the proliferative responses of derived marrow and thioglycolate (TG)-elicited peritoneal macrophages. Our experiments reveal that MRL mice have significantly lower numbers of circulating blood leukocytes and platelets. Even more strikingly, we found that MRL blood and marrow contain an unusually robust number of unique and assayable macrophage colony-stimulating factor responsive cells which have the characteristics of macrophage colony-forming cell precursors. In culture, in contrast to cells derived from control C57BL/6 mice, this cell type and thioglycolate-elicited peritoneal macrophages from MRL mice can be extensively expanded with just macrophage colony-stimulating factor to acquire an in situ "f-mac-like" (see Y. Zhao, D. Glesne and E. Huberman, A human peripheral blood monocyte-derived subset acts as pluripotent stem cells. Proc. Natl. Acad. Sci. U.S.A. 100, (2003) 2426-2431.) morphology when plated on plastic surfaces. Our results suggest that these increased numbers of macrophage progenitor cells and their potential differentiation plasticity may play a functional role in the onset of systemic lupus erythematosus and may also contribute to the accelerated and scarless tissue regenerative repair response observed in MRL mice.
Blood Cells Mol Dis
PMID:Mice with a regenerative wound healing capacity and an SLE autoimmune phenotype contain elevated numbers of circulating and marrow-derived macrophage progenitor cells. 1560 95

Special populations of T helper cells drive B cells to produce IgG class switched, pathogenic autoantibodies in lupus. The major source of antigenic determinants (epitopes) that trigger interactions between lupus T and B cells is nucleosomes of apoptotic cells. These epitopes can be used for antigen-specific therapy of lupus. Secondly, the autoimmune T cells of lupus are sustained because they resist anergy and activation-induced programmed cell death by markedly upregulating cyclooxygenase (COX) 2 along with the antiapoptotic molecule c-FLIP. Only certain COX-2 inhibitors block pathogenic anti-DNA autoantibody production in lupus by causing death of autoimmune T helper cells. Hence COX-2 inhibitors may work independently of their ability to block the enzymatic function of COX-2, and structural peculiarities of these select inhibitors may lead to better drug discovery and design.
J Mol Med (Berl) 2005 Apr
PMID:T-helper cell intrinsic defects in lupus that break peripheral tolerance to nuclear autoantigens. 1563 May 91

By the mid 20th century, the grey wolf (Canis lupus) was exterminated from most of the conterminous United States (cUS) and Mexico. However, because wolves disperse over long distances, extant populations in Canada and Alaska might have retained a substantial proportion of the genetic diversity once found in the cUS. We analysed mitochondrial DNA sequences of 34 pre-extermination wolves and found that they had more than twice the diversity of their modern conspecifics, implying a historic population size of several hundred thousand wolves in the western cUS and Mexico. Further, two-thirds of the haplotypes found in the historic sample are unique. Sequences from Mexican grey wolves (C. l. baileyi) and some historic grey wolves defined a unique southern clade supporting a much wider geographical mandate for the reintroduction of Mexican wolves than currently planned. Our results highlight the genetic consequences of population extinction within Ice Age refugia and imply that restoration goals for grey wolves in the western cUS include far less area and target vastly lower population sizes than existed historically.
Mol Ecol 2005 Jan
PMID:Legacy lost: genetic variability and population size of extirpated US grey wolves (Canis lupus). 1564 47

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