A comparison of cytosolic free Ca2+ in resting feline and rat ventricular myocytes

The Ca2+-sensitive dye quin-2 was used to measure the cytosolic free Ca2+ (Cai2+) in suspensions of ventricular myocytes isolated from cat and rat ventricles. Following an isolation procedure that was similar for both species, the cells were loaded with quin-2 AM (25 microM) for 30 min at 37 degrees C. After two washes to remove extracellular dye, the cells were resuspended for fluorescence measurements. Extracellular Ca2+ was 2.0 mM. Resting Cai2+ in the rat (121 +/- 11 nM) was found to be significantly higher than in the cat (57 +/- 4 nM). These results are discussed in terms of known differences in excitation-contraction coupling between these two species.     

An investigation of the correlation between hormonal levels in males and mood, behavior and physical discomfort.

This research examined both inter- and intrasubject correlations between LH, FSH, and plasma testosterone and various measures of behavior, affect, and physical discomfort. Five males between the ages of 22 and 28 participated in the research which took place three times a week over a 10-week period. The data revealed a number of significant intersubject correlations between the various hormones and both behavioral and affective measures. In particular, central nervous system motor functioning was observed to improve with increases in LH and to worsen with increases in FSH and T. Positive affect also was positively correlated with LH and negatively correlated with FSH and T. Three separate stepwise multiple-regression equations were also computed with the hormones acting as the respective dependent variables and the behavioral, affect, and physical discomfort variables as the predictors. The obtained R² ranged from a low of 0.21 for LH to a high of 0.55 for FSH. The findings of this study support the existence of both affect- and behavior-endocrine relationships across individuals, but indicate that there may be no consistent pattern within individuals.     

Hair pulling and eating in captive rhesus monkey troops

Hair pulling and eating has not yet received attention in the nonhuman primate literature. Hair pulling and eating was recorded 388 times in two heterogeneous troops of healthy rhesus monkeys that were kept according to modern management practices. The behavior in question consists of the following sequence: pulling with the fingers (1/3 of cases) or with the teeth (2/3 of cases) tufts of hair from one's own or from a partner's coat; chewing the hair and finally swallowing it; the undigested material is excreted in the feces. Hair pulling was almost exclusively (378/388) partner-directed. It was observed 364 times between animals whose dominance relationships were known; it was performed in 96% (349/364) of observations by a dominant but only in 4% (15/364) of observations by a subordinate monkey. The recipient of hair pulling showed typical fear and/or avoidance reactions. In both troops young animals (2-8 years of age) engaged in hair pulling and eating significantly more often than old animals (10-26 years of age). There was no evidence that nutritional, toxicological or climatic factors were responsible for the manifestation of this behavior. It was concluded that, similar to trichotillomania in man, wool pulling and eating in sheep and muskox, and feather picking in poultry, hair pulling and eating is an aggressive behavioral disorder in rhesus monkeys reflecting adjustment problems to a stressful environment.     

Shape based kinetic outlier detection in real-time PCR

Background  

Real-time PCR has recently become the technique of choice for absolute and relative nucleic acid quantification. The gold standard quantification method in real-time PCR assumes that the compared samples have similar PCR efficiency. However, many factors present in biological samples affect PCR kinetic, confounding quantification analysis. In this work we propose a new strategy to detect outlier samples, called SOD.     

Rap GTPase-mediated adhesion and migration: A target for limiting the dissemination of B-cell lymphomas?

B-cell lymphomas, which arise in lymphoid organs, can spread rapidly via the circulatory system and form solid tumors within multiple organs. Rate-limiting steps in this metastatic process may be the adhesion of lymphoma cells to vascular endothelial cells, their exit from the vasculature and their migration to tissue sites that will support tumor growth. Thus proteins that control B-cell adhesion and migration are likely to be key factors in lymphoma dissemination, and hence potential targets for therapeutic intervention. The Rap GTPases are master regulators of integrin activation, cell motility and the underlying cytoskeletal, adhesion and membrane dynamics. We have recently shown that Rap activation is critical for B-lymphoma cells to undergo transendothelial migration in vitro and in vivo. As a consequence, suppressing Rap activation impairs the ability of intravenously injected B-lymphoma cells to form solid tumors in the liver and other organs. We discuss this work in the context of targeting Rap, its downstream effectors, or other regulators of B-cell adhesion and migration as an approach for limiting the dissemination of B-lymphoma cells and the development of secondary tumors.Key words: B-cell lymphomas, Rap GTPases, extravasation, chemokines, integrins, metastasisB-cell lymphomas are frequently occurring malignancies that are often aggressive and difficult to treat. Abnormally proliferating B cells that acquire survival-promoting mutations originate within the bone marrow or the lymphoid organs but can traffic via the blood and lymphatic systems to other organs, where they can form solid tumors. A consequence of the genetic mechanisms that generate a large repertoire of antigen-detecting B-cell receptors (BCR) and antibodies is an increased frequency of chromosomal translocations and mutations that can lead to oncogenic transformation.¹ During B-cell development in the bone marrow, the vast diversity of the BCR repertoire within an individual is generated by the random rearrangement of the VDJ gene segments that encode the BCR. Subsequent to antigen binding, highly proliferating B cells within the germinal centers of secondary lymphoid organs undergo somatic hypermutation of the genes encoding the immunoglobulin portion of the BCR in order to generate antibodies of higher affinity (“affinity maturation”). These cells can also undergo a second DNA rearrangement event associated with immunoglobulin class switching. Aberrant DNA rearrangements or somatic hypermutation can lead to oncogenic transformation. As examples, translocation of the c-myc gene into the IgH locus is characteristic of Burkitt''s lymphoma whereas somatic hypermutation of genes that encode prosurvival proteins (e.g., pim-1) is associated with diffuse large B-cell lymphomas,² the most common type of non-Hodgkin lymphoma.The ability of B-cell lymphomas to spread to multiple organs reflects the migratory capacity of their normal counterparts. B cells circulate continuously throughout the body via the blood and lymphatic systems. The extravasation of B cells out of the blood and into tissues is a multi-step process that requires selectin-mediated rolling on the surface of vascular endothelial cells, intergin-mediated firm adhesion to the endothelial cells, and migration across the endothelial cell monolayer that makes up the vessel wall (Fig. 1).^3–6 These steps are orchestrated by chemokines and adhesion molecules that are displayed on the surface of the vascular endothelial cells. Chemokines initiate signaling within the B cell that results in integrin activation. The collaboration between chemokine receptor signaling and outside-in integrin signaling causes B cells to reorganize their cytoskeleton. This cytoskeletal reorganization allows B cells to spread on the surface of the vascular endothelial cells, migrate to sites suitable for extravasation (e.g., junctions between endothelial cells) and then deform themselves in order to move across the endothelial cell layer.⁷ The ability of B-cell lymphomas to follow these constitutive organ-homing cues allows them to spread to multiple organs throughout the body, making them difficult to combat. Diffuse large B-cell lymphomas are highly aggressive precisely for this reason and readily spread to the liver, kidneys and lungs.⁸ Thus, identifying key proteins that regulate the extravasation of B-cell lymphomas could suggest new therapeutic strategies for treating these malignancies.⁹Open in a separate windowFigure 1Rap activation is required for multiple steps in lymphoma dissemination. B-cell lymphomas exit the vasculature using the same mechanisms as normal B cells. Once B cells are tethered via selectin-mediated rolling, chemokines immobilized on the surface of vascular endothelial cells convert integrins to a high affinity state via a mechanism that involves activation of the Rap GTPases. This permits firm adhesion. Adhered B cells migrate across the endothelium and then send out actin-rich protrusions, which penetrate the endothelial barrier to reach the subendothelial matrix. The formation of these membrane processes, and the subsequent movement of the cells through the junctions, requires activation of the Rap, Rho and Rac GTPases. Once in the tissue, B-lymphoma cells assume a polarized morphology and can migrate towards optimal growth niches.The ubiquitously-expressed Rap GTPases are master regulators of cell adhesion, cell polarity, cytoskeletal dynamics and cell motility.¹⁰ Receptor-induced conversion of the Rap GTPases to their active GTP-bound state (Rap-GTP) allows them to bind multiple effector proteins and thereby orchestrate their localization and function. These downstream effectors of Rap-GTP control integrin activation, actin polymerization and dynamics and the formation of protrusive leading edges in migrating cells (see below and Fig. 2). In both normal B cells and B-lymphoma cell lines, signaling via chemoattractant receptors, the BCR and integrins all activate Rap.^11–13 Moreover, we have shown that chemokine-induced Rap activation is essential for the chemoattractants CXCL12 (SDF-1), CXCL13 and sphingosine-1-phosphate (S1P) receptors to stimulate B-cell migration and adhesion.^12,14 Rap activation is also important for receptor-induced actin polymerization, cell spreading and cytoskeletal reorganization in both primary B cells and B-lymphoma cells.¹⁵ These findings suggested that Rap activation might be essential for the in vivo metastatic spread of B-cell lymphomas.Open in a separate windowFigure 2The Rap GTPases are master regulators of actin dynamics, cell morphology, cell polarity and integrin-mediated adhesion. The Rap GTPases are activated subsequent to the binding of chemokines to their receptors or activated integrins to their ligands. The active GTP-bound form of Rap binds effector proteins that promote integrin activation, actin polymerization and membrane protrusion, as well as activation of the Pyk2 and FAK tyrosine kinases, which modulate cell spreading, adhesion and migration. Rap-GTP also plays a key role in establishing cell polarity and may direct membrane vesicles to the leading edge of the cell. See text for details. MTOC, microtubule-organizing center.To test this hypothesis, we suppressed Rap activation in A20 murine B-lymphoma cells, a cell line derived from an aggressive diffuse large B-cell lymphoma. We blocked Rap activation in these cells by expressing a Rap-specific GTPase-activating protein (GAP), RapGAPII, which enzymatically converts Rap1 and Rap2 proteins to their inactive GDP-bound states. Injecting stable A20/RapGAPII and A20/empty vector transfectants intravenously into mice showed that Rap activation was required for these cells to form solid lymphomas within organs such as the liver.¹⁶ Solid tumor formation was delayed and reduced when A20/RapGAPII cells were injected instead of A20/control cells. Strikingly, the lymphoma cells isolated from the tumors that developed in mice injected with A20/RapGAPII cells had downregulated RapGAPII expression and regained the ability to activate Rap. Thus tumor formation reflected a strong in vivo selection for lymphoma cells capable of activating Rap. This indicates that Rap-dependent signaling is critical for the metastatic spread of B-cell lymphomas.The ability of B-lymphoma cells to exit the vasculature and migrate into the underlying tissue is likely to be a rate-limiting step in the metastasis of B-cell lymphomas. We showed that this extravasation step is a Rap-dependent process for B-cell lymphomas. To do this, we performed competitive in vivo homing assays in which differentially-labeled A20/vector and A20/RapGAPII cells were co-injected into the tail veins of mice.¹⁶ Analyses performed 1–3 days after injecting the cells showed that A20/RapGAPII cells exhibited a greatly reduced ability to arrest and lodge in the liver, compared to control cells. The liver produces large amounts of the chemokine CXCL12 and is a major site of lymphoma homing and tumor formation. More detailed studies revealed that the control A20 cells that lodged in the liver had entered the liver parenchyma and had an elongated morphology, as expected for cells that are migrating within the tissue and interacting with resident cells. In contrast, a larger fraction of the A20/RapGAPII cells were round and appeared to still be within the vasculature. These findings suggest that Rap activation is required for efficient extravasation of lymphoma cells in vivo, as had previously been shown for in T cells in vitro.¹⁷Leukocyte extravasation is a multi-step process that requires initial adhesion to the vascular endothelium followed by crawling on the luminal surface of the endothelial cells until a suitable site for migration through the endothelial barrier is located. We found that Rap activation was required for the initial adhesion of A20 cells to vascular endothelial cells in vitro.¹⁶ Whether integrin-mediated adhesion is an absolute requirement for tumor cells to arrest within organ vasculature remains an open question as tumor cells can be physically trapped in small vessels in a manner that is independent of integrins or other adhesion molecules (Freeman SA, unpublished data). In contrast, the ability of lymphoma cells to generate polarized membrane protrusions that invade junctions between vascular endothelial cells and then move through the junctions is likely to have a strong dependence on Rap-mediated integrin activation and Rap-mediated cell polarization and cytoskeletal reorganization. Indeed, we found that Rap activation was required for A20 B-lymphoma cells to form membrane projections that penetrated endothelial junctions in vitro, and for the subsequent transendothelial migration of A20 cells.¹⁶In addition to this well-characterized paracellular mode of extravasation in which leukocytes crawl across endothelial cells until they arrive at cell-cell junctions and then migrate across the endothelial cell layer, leukocytes can also extravasate via a transcellular route.¹⁸ T cells can send invadopodia through endothelial cells, which upon contacting the subendothelial matrix pull the cell through and across the endothelial cell. The paracellular and transcellular routes of leukocyte extravasation may involve distinct modes of leukocyte motility and cytoskeletal reorganization. For example, activation of WASp and Src is required for transcellular extravasation of T cells, but dispensable for paracellular extravasation.¹⁸ Our data suggest that Rap activation is involved in the paracellular extravasation of B-cell lymphomas. It is not known if lymphoma cells, which are considerably larger than normal leukocytes, can undergo transcellular extravasation, and if so, whether Rap-dependent signaling is required. Determining the relative contributions of these two modes of extravasation, as well as their underlying molecular mechanisms, could facilitate the development of therapeutic approaches for reducing lymphoma cell extravasation and dissemination.Rap GTPases are ubiquitously expressed and are involved in critical processes such as the formation of tight junctions between vascular endothelial cells.¹⁹ Therefore, targeting downstream effectors of Rap that mediate specific aspects of adhesion and migration may be a more reasonable way to limit lymphoma dissemination than targeting Rap activation. As shown in Figure 2 and reviewed by Bos,¹⁰ the effector proteins that are regulated either directly or indirectly by Rap-GTP control several modules that are critical for cell adhesion and migration.Activated Rap is an essential component of the inside-out signaling pathway by which chemokine receptors activate integrins. Rap-GTP recruits the adaptor protein RapL as well as RIAM/talin complexes to the cytoplasmic domains of integrins.^20,21 This results in conformational changes in the integrin extracellular domains that increase their affinity for adhesion molecules, such as those present on the surface of vascular endothelial cells. Actin-dependent intracellular forces exerted by talin on the integrin cytoplasmic domains also increase integrin affinity²² and may be regulated by Rap-GTP, which promotes actin polymerization (see below).Effector proteins that bind Rap-GTP include upstream activators of Rac and Cdc42,^23,24 GTPases that promote dynamic actin polymerization at the leading edge of migrating cells and at the growing ends of membrane protrusions. Activated Rac and Cdc42 act via the WASp and WAVE proteins to induce branching actin polymerization that drives membrane protrusion and the formation of lamellipodia and filopodia. Other Rap effectors, the RIAM²⁵ and AF-6 adaptor proteins,²⁶ allow Rap-GTP to recruit Ena/Vasp and profilin, proteins that prime actin monomers for incorporation into actin filaments, a rate-limiting step in actin filament assembly.The Pyk2 and FAK tyrosine kinases are key regulators of cell adhesion, cell migration and cell morphology, and we have shown that they are also downstream targets of Rap-GTP signaling.²⁷ Rap-dependent actin dynamics is critical for the activation of Pyk2 and FAK in B-lymphoma cells. Moreover the kinase activities of Pyk2 and FAK are required for B cell spreading, a key aspect of cell adhesion and motility.²⁷ The importance of this Rap/Pyk2 signaling module is supported by the observation that B cells from Pyk2-deficient mice have a severe defect in chemokine-induced migration.²⁸Rap effectors also promote the establishment of cell polarity, another key aspect of cell motility. Rap-GTP binds the evolutionarily-conserved Par3/6 polarity complex²⁹ and promotes the microtubule-dependent transport of vesicles containing integrins to the leading edge of migrating cells and to cell-cell contact sites such as immune synapses.^30,31A key question is whether modulating the expression or activity of individual targets of Rap signaling can effectively limit the dissemination of B-cell lymphomas. An exciting recent paper supports the idea that targeting proteins involved in cell motility may be an effective way to limit the spread and growth of B-cell lymphomas.⁹ Using a library of short hairpin RNAs (shRNAs) directed against 1,000 genes thought to be involved in lymphoma progression, Meachem et al. found that two regulators of the actin cytoskeleton, Rac2 and twinfilin (Twf1), were key determinants of lymphoma motility, invasiveness and progression. shRNA-mediated knockdown of either Rac2 or Twf1 expression dramatically inhibited the growth of Eµ-myc B-cell lymphomas in mice, a model for the development of human Burkitt lymphomas. The decreased lymphoma tumorgenicity, as well as the decreased ability of the lymphoma cells to engraft in the spleen and bone marrow and then metastasize to secondary sites such as the liver was associated with the cells'' inability to migrate and crawl in vitro. This is consistent with our finding that inhibiting the in vitro migration and adhesion of B-lymphoma cells by suppressing Rap activation correlated with reduced extravasation and tumor formation in vivo.The involvement of both Rap and Rac2 in lymphoma motility and dissemination may reflect the fact that these two GTPases lie in the same pathway. Rap-GTP has been shown to bind the Rac activator Vav2 and promote Rac activation.²³ Conversely, Batista and colleagues showed that Rac2 acts upstream of Rap to promote Rap activation and modulate B-cell adhesion and immune synapse formation.³² Although the interrelationship of Rap and Rac2 in B-cell lymphomas remains to be clarified, the Rac2/Rap signaling module is a potential target for limiting the spread of B-cell lymphomas. Inhibiting this Rac2/Rap module that controls B-cell motility and adhesion may reduce both the extravasation of lymphoma cells into organs as well as the ability of B-lymphoma cells to crawl to sites within the organ where they can establish a suitable metastatic niche. Migration through the subendothelial stroma to find optimal growth niches is a rate-limiting step in the dissemination of many types of tumors.³³ Blocking Rap-dependent adhesion may also prevent B-lymphoma cells from forming critical adhesive interactions with tissue-resident stromal cells. In vitro, the survival of many B-cell lymphomas depends on integrin engagement^34,35 and the subsequent activation of pro-survival signaling pathways (e.g., the PI 3-kinase/Akt pathway) by integrin signaling.³⁶ It is not known whether Rap-dependent adhesion and the ensuing integrin-mediated survival signaling are required for B-cell lymphomas to form solid tumors at secondary sites in vivo.A series of recent papers has identified the hematopoietic lineage-restricted adaptor protein kindlin-3 as a key regulator of integrin activation in leukocytes. Kindlin-3 is required for leukocyte adhesion in vitro and for in vivo extravasation,^37–39 making it a potential target for limiting the spread of B-cell lymphomas. Kindlin-3 binds to the cytoplasmic domain of several integrin beta subunits but the mechanism by which it promotes integrin activation is not known. An interesting question is whether Rap-GTP, or the RapL/RIAM/talin complexes that are recruited to integrins by Rap-GTP, regulate the localization or function of kindlin-3. Whether or not Rap and kindlin-3 act in the same pathway, it would be interesting to test whether knocking down the expression of kindlin-3 reduces the dissemination of B-cell lymphomas in either the A20 cell model we have used or the Eµ-myc B-cell lymphoma model used by Meachem et al.⁹Although we have thus far referred to the Rap GTPases collectively as “Rap,” there are five Rap GTPases in humans and mice, Rap1a, Rap1b, Rap2a, Rap2b and Rap2c, each encoded by a separate gene. Several reports have suggested distinct functions for Rap1 versus Rap2,^14,40 but it is not known to what extent the functions of the five Rap proteins are redundant or unique. Although many studies have not assessed Rap2 activation, loss-of-function approaches such as overexpressing Rap-specific GAPs or expressing the dominant-negative Rap1N17 protein may suppress the activation of all Rap proteins. Nevertheless, the possibility that different Rap proteins have distinct functions, coupled with cell type-specific differences in the expression of the Rap proteins, may present additional opportunities for targeting Rap signaling in tumor cells. Rap1b is much more abundant than Rap1a in B cells and recent work has shown that Rap1b-deficient murine B cells exhibit impaired migration and adhesion in vitro, as well as impaired in vivo homing.^41,42 If B-lymphoma cells also express much more Rap1b than Rap1a, then Rap1b could be a target for limiting the spread of these malignant B cells. An important caveat is that Rap1b is also the most abundant Rap1 isoform in platelets and plays a critical role in platelet aggregation and clotting.^43,44As master regulators of cell adhesion and migration, the Rap GTPases and the signaling pathways they control are obvious therapeutic targets for limiting the spread of B-cell lymphomas. Other signaling pathways that impact B-cell migration and adhesion, perhaps independently of Rap, are also attractive targets. Our in vivo experiments and those of Meachem et al.⁹ provide direct evidence that interfering with key regulators of adhesion and migration can dramatically limit the dissemination of B-cell lymphomas and the development of secondary tumors in critical organs. Further studies are needed to determine if this approach would be a useful therapeutic strategy for patients with B-cell lymphoma.Finally, it will be of interest to determine whether gain-of-function mutations that increase Rap signaling, or activate other pathways that promote B cell migration and adhesion, contribute to the aggressiveness of certain types of B-cell lymphomas. Increased Rap activation is associated with enhanced invasiveness in several types of tumors.^45,46 If this were true for B-cell lymphomas, then Rap-GTP levels could be a useful prognostic marker for aggressive lymphomas, in addition to being a potential therapeutic target.     

Angiotensin II and aldosterone increase with fasting in breeding adult male northern elephant seals (Mirounga angustirostris)

The renin-angiotensin-aldosterone system (RAAS) appears to contribute significantly to osmoregulation of fasting northern elephant seal (Mirounga angustirostris) pups; however, RAAS has not been characterized in fasting adult seals. Therefore, this study examined the contribution of RAAS to water turnover rates in fasting adult male northern elephant seals. Blood samples were obtained twice during their breeding fast at an interval of 6.5 wk, and water efflux rate was estimated by isotopic dilution during the same period. Serum electrolytes (Na+, K+, Cl-) and osmolality were unaltered between the two sampling periods, indicating ionic and osmotic homeostasis during the fast. Despite the lack of an increase in vasopressin, serum angiotensin II and aldosterone were increased and were significantly and positively correlated. Changes in aldosterone concentration and water efflux rate were significantly and negatively correlated, suggesting that the greater the increase in aldosterone, the smaller the loss of water. Adult male seals maintain ionic and osmotic homeostasis similar to that of fasting weaned pups, and this homeostasis appears to be mediated, at least in part, by RAAS, which probably contributes to increased water retention as well. The hormonal mechanisms by which northern elephant seals maintain water and electrolyte balance during fasting conditions appear to be similar regardless of age.     

Myocardial hypoperfusion/reperfusion tolerance with exercise training in hypertension.

The purpose of this study was to examine whether exercise training, superimposed on compensated-concentric hypertrophy, could increase myocardial hypoperfusion-reperfusion (H/R) tolerance. Female Wistar-Kyoto rats (WKY) and spontaneously hypertensive rats (SHR) (age: 4 mo; N = 40) were placed into a sedentary (SED) or exercise training (TRD) group (treadmill running; 25 m/min, 1 h/day, 5 days/wk for 16 wk). Four groups were studied: WKY-SED (n = 10), WKY-TRD (n = 10), SHR-SED (n = 10), and SHR-TRD (n = 10). Blood pressure and heart rate were determined, and in vitro isolated heart performance was measured with a retrogradely perfused, Langendorff isovolumic preparation. The H/R protocol consisted of a 75% reduction in coronary flow for 17 min followed by 30 min of reperfusion. Although the rate-pressure product was significantly elevated in SHR relative to WKY, training-induced bradycardia reduced the rate-pressure product in SHR-TRD (P < 0.05) without an attenuation in systolic blood pressure. Heart-to-body weight ratio was greater in both groups of SHR vs. WKY-SED (P < 0.001). Absolute and relative myocardial tolerance to H/R was greater in WKY-TRD and both groups of SHR relative to WKY-SED (P < 0.05). Endurance training superimposed on hypertension-induced compensated hypertrophy conferred no further cardioprotection to H/R. Postreperfusion 72-kDa heat shock protein abundance was enhanced in WKY-TRD and both groups of SHR relative to WKY-SED (P < 0.05) and was highly correlated with absolute left ventricular functional recovery during reperfusion (R2= 0.86, P < 0.0001). These data suggest that both compensated hypertrophy associated with short-term hypertension and endurance training individually improved H/R and that increased postreperfusion 72-kDa heat shock protein abundance was, in part, associated with the cardioprotective phenotype observed in this study.     

New Zealand ground wētā (Anostostomatidae: Hemiandrus): descriptions of two species with notes on their biology

Abstract

Although the New Zealand ground wētā (Anostostomatidae: Hemiandrus) are widespread and abundant, little has been described of their ecology and behaviour. Within the genus several lineages have evolved with ovipositors that are unusually short for this orthopteran family. Some species with this derived morphological character also exhibit maternal care of eggs and offspring. Two new species are described here, Hemiandrus maia sp. nov. and Hemiandrus electra sp. nov. Although morphologically similar with medium length ovipositors, they are not sister taxa and live at opposite ends of South Island, New Zealand. The behaviour of Hemiandrus maia sp. nov. was studied using burrow door re-construction as a key to activity patterns. Observations at night and burrow excavation during the day were used to identify features of their behaviour. Maternal care of both eggs and nymphs was observed. Hemiandrus maia sp. nov. were shown to eat fruit, invertebrates and seeds without discrimination.

http://zoobank.org/urn:lsid:zoobank.org:pub:1C7EB0D2-D01B-4D3A-B643-D17813EC2084     

A profile of carbohydrate metabolites in the fasting northern elephant seal

Northern elephant seals endure prolonged periods of food deprivation at multiple life-history stages and simultaneous with energetically costly activities—including reproduction and development. Most mammals decrease their energy expenditure while fasting, with simultaneous reductions in gluconeogenesis and circulating glucose concentration. Paradoxically, elephant seals maintain high rates of both energy expenditure and gluconeogenesis, and high blood glucose concentrations throughout fasting. We therefore characterized the suite of changes that occur in carbohydrate metabolites during fasting in northern elephant seals. Using a broad-based metabolomics platform we investigated fasting during two states—lactation in adult females and the post-weaning developmental period in pups. A total of 227 metabolites were detected in seal plasma; 31 associated with carbohydrate metabolism were analyzed in the present study. Several compounds showed similar responses during lactation and the post-weaning fast (e.g. glycerol and mesaconate) whereas other compounds displayed quite different abundances between groups (e.g. citrate and pyruvate). This work found that, while the changes that occur with fasting were frequently similar in lactating females and developing pups, the relative abundance of compounds often varied markedly. These differences suggest that the metabolic strategies used to endure prolonged fasts are influenced by life-history or nutrient constraints.     

Assessment of changes in the brca2 and p53 genes in breast invasive ductal carcinoma in northeast Brazil

Background

BRCA protein interacts with at least 13 different proteins that have been implicated with cancer susceptibility and loss of BRCA function is correlated to sensitivity to DNA crosslinking agents in preclinical models.

Results

BRCA2 methylation frequency was 44%, p53 Pro22 allele frequency was 32% and heterozygous frequency of Arg/Pro72 genotype was 60% which could be associated as risk factor for metastasis (p = 0.046 OR = 4.190). Regarding to polymorphism of codon 249 the frequency of Arg249 allele presented 82% which was considered not statistically significant.

Conclusions

There was not statistical significance to BRCA2 promoter methylation with any parameters chosen. However, our findings suggest that patients who present heterozygous genotype at codon 72 of p53 gene may have a major susceptibility to any type of metastasis and this could serve as potential auxiliary biomarker for poor prognosis.