Kidney proteome responses in the teleost fish Paralichthys olivaceus indicate a putative immune response against Streptococcus parauberis

The proteomic response to bacterial infection in a teleost fish (Paralichthys olivaceus) infected with Streptococcus parauberis was analyzed using label-free protein quantitation coupled with LC-MS(E) tandem mass spectrometry. A total of 82 proteins from whole kidney, a major lymphoid organ in this fish, were found to be differentially expressed between healthy and diseased fish analyzed 6, 24, 72 and 120 h post-infection. Among the differentially expressed proteins, those involved in mediating immune responses (e.g., heat shock proteins, cathepsins, goose-type lysozyme and complement components) were most significantly up-regulated by infection. In addition, cell division cycle 48 (CDC48) and calreticulin, which are associated with cellular recovery and glycoprotein synthesis, were up-regulated in the universal protein group, whereas the other proteins in that group were down-regulated. There was continuous activation of expression of immune-associated proteins during infection, but there was also loss of expression of proteins not involved in immune function. We expect that our findings regarding immune response at the protein level would offer new insight into the systemic response to bacterial infection of a major immune organ in teleost fish.     

Modeling human osteosarcoma in mice through 3AB-OS cancer stem cell xenografts

Osteosarcoma is the second leading cause of cancer‐related death for children and young adults. In this study, we have subcutaneously injected—with and without matrigel—athymic mice (Fox1nu/nu) with human osteosarcoma 3AB‐OS pluripotent cancer stem cells (CSCs), which we previously isolated from human osteosarcoma MG63 cells. Engrafted 3AB‐OS cells were highly tumorigenic and matrigel greatly accelerated both tumor engraftment and growth rate. 3AB‐OS CSC xenografts lacked crucial regulators of beta‐catenin levels (E‐cadherin, APC, and GSK‐3beta), and crucial factors to restrain proliferation, resulting therefore in a strong proliferation potential. During the first weeks of engraftment 3AB‐OS‐derived tumors expressed high levels of pAKT, beta1‐integrin and pFAK, nuclear beta‐catenin, c‐Myc, cyclin D2, along with high levels of hyperphosphorylated‐inactive pRb and anti‐apoptotic proteins such as Bcl‐2 and XIAP, and matrigel increased the expression of proliferative markers. Thereafter 3AB‐OS tumor xenografts obtained with matrigel co‐injection showed decreased proliferative potential and AKT levels, and undetectable hyperphosphorylated pRb, whereas beta1‐integrin and pFAK levels still increased. Engrafted tumor cells also showed multilineage commitment with matrigel particularly favoring the mesenchymal lineage. Concomitantly, many blood vessels and muscle fibers appeared in the tumor mass. Our findings suggest that matrigel might regulate 3AB‐OS cell behavior providing adequate cues for transducing proliferation and differentiation signals triggered by pAKT, beta1‐integrin, and pFAK and addressed by pRb protein. Our results provide for the first time a mouse model that recapitulates in vivo crucial features of human osteosarcoma CSCs that could be used to test and predict the efficacy in vivo of novel therapeutic treatments. J. Cell. Biochem. 113: 3380–3392, 2012. © 2012 Wiley Periodicals, Inc.     

Role of bone marrow-derived mesenchymal stem cells in the prevention of hyperoxia-induced lung injury in newborn mice

BPD (bronchopulmonary dysplasia) is predominantly characterized by persistent abnormalities in lung structure and arrested lung development, but therapy can be palliative. While promising, the use of BMSC (bone marrow-derived mesenchymal stem cell) in the treatment of lung diseases remains controversial. We have assessed the therapeutic effects of BMSC in vitro and in vivo. In vitro co-culturing with injured lung tissue increased the migration-potential of BMSC; and SP-C (surfactant protein-C), a specific marker of AEC2 (type II alveolar epithelial cells), was expressed. Following intraperitoneal injection of BMSC into experimental BPD mice on post-natal day 7, it was found that BMSC can home to the injured lung, express SP-C, improve pulmonary architecture, attenuate pulmonary fibrosis and increase the survival rate of BPD mice. This work supports the notion that BMSC are of therapeutic benefit through the production of soluble factors at bioactive levels that regulate the pathogenesis of inflammation and fibrosis following hyperoxia.     

Distinct requirement for an intact dimer interface in wild-type, V600E and kinase-dead B-Raf signalling

The dimerisation of Raf kinases involves a central cluster within the kinase domain, the dimer interface (DIF). Yet, the importance of the DIF for the signalling potential of wild-type B-Raf (B-Raf(wt)) and its oncogenic counterparts remains unknown. Here, we show that the DIF plays a pivotal role for the activity of B-Raf(wt) and several of its gain-of-function (g-o-f) mutants. In contrast, the B-Raf(V600E), B-Raf(insT) and B-Raf(G469A) oncoproteins are remarkably resistant to mutations in the DIF. However, compared with B-Raf(wt), B-Raf(V600E) displays extended protomer contacts, increased homodimerisation and incorporation into larger protein complexes. In contrast, B-Raf(wt) and Raf-1(wt) mediated signalling triggered by oncogenic Ras as well as the paradoxical activation of Raf-1 by kinase-inactivated B-Raf require an intact DIF. Surprisingly, the B-Raf DIF is not required for dimerisation between Raf-1 and B-Raf, which was inactivated by the D594A mutation, sorafenib or PLX4720. This suggests that paradoxical MEK/ERK activation represents a two-step mechanism consisting of dimerisation and DIF-dependent transactivation. Our data further implicate the Raf DIF as a potential target against Ras-driven Raf-mediated (paradoxical) ERK activation.     

Label-free LC-MSMS analysis of vitreous from autoimmune uveitis reveals a significant decrease in secreted Wnt signalling inhibitors DKK3 and SFRP2

Equine recurrent uveitis is a severe and frequent blinding disease in horses which presents with auto-reactive invading T-cells, resulting in the destruction of the inner eye. Infiltration of inflammatory cells into the retina and vitreous is driven by currently unknown guidance cues, however surgical removal of the vitreous (vitrectomy) has proven therapeutically successful. Therefore, proteomic analyses of vitrectomy samples are likely to result in detection of proteins contributing to disease pathogenesis. Vitreous from healthy and ERU diseased horses were directly compared by quantitative mass spectrometry based on label-free quantification of peak intensities across samples. We found a significant upregulation of complement and coagulation cascades and downregulation of negative paracrine regulators of canonical Wnt signalling including the Wnt signalling inhibitors DKK3 and SFRP2. Based on immunohistochemistry, both proteins are expressed in equine retina and suggest localisation to retinal Müller glial cells (RMG), which may be the source cells for these proteins. Furthermore, retinal expression levels and patterns of DKK3 change in response to ERU. Since many other regulated proteins identified here are associated with RMG cells, these cells qualify as the prime responders to autoimmune triggers.     

克隆技术引发的伦理之争

自从克隆羊多莉诞生以来,有关克隆人的伦理学争论就一直喋喋不休。世界上的各种政治组织和各国政府都明确反对生殖性克隆,而科学家们则对克隆技术的不完善心存疑虑。为了克服克隆过程中的伦理学障碍和技术缺陷,科学家们在核移植技术的基础上,又发展了异种核移植技术、诱导多能干细胞技术等。诱导的多能干细胞可以分化成各种组织,甚至能发育成个体,这些方法使克隆技术不再破坏胚胎,避免了伦理学纠纷。尽管科学技术在进步,但是人们对克隆人仍有很多不解和困惑。从自主、不伤害、行善和公正等四大生命伦理学原则着手,在技术层面上提出了尽管克隆人不会搞乱人际关系,不会减少人类基因多样性,也不会克隆出类似希特勒的战争狂人,但是,人类的生殖性克隆却剥夺了克隆人的自主性,对克隆人的生理和心理都有所伤害,违反了公正和行善的原则。因此,是否可以克隆人在伦理上仍然是需要长期讨论的问题。     

Improbable but true: the invasive inbreeding ambrosia beetle Xylosandrus morigerus has generalist genotypes

The wide distribution and dominance of invasive inbreeding species in many forest ecosystems seems paradoxical in face of their limited genetic variation. Successful establishment of invasive species in new areas is nevertheless facilitated by clonal reproduction: parthenogenesis, regular self-fertilization, and regular inbreeding. The success of clonal lineages in variable environments has been explained by two models, the frozen niche variation (FNV) model and the general-purpose genotype (GPG) model. We tested these models on a widely distributed forest pest that has been recently established in Costa Rica-the sibling-mating ambrosia beetle Xylosandrus morigerus. Two deeply diverged mitochondrial haplotypes coexist at multiple sites in Costa Rica. We find that these two haplotypes do not differ in their associations with ecological factors. Overall the two haplotypes showed complete overlap in their resource utilization; both genotypes have broad niches, supporting the GPG model. Thus, probable or not, our findings suggest that X. morigerus is a true ecological generalist. Clonal aspects of reproduction coupled with broad niches are doubtless important factors in the successful colonization of new habitats in distant regions.     

The effect of osmolarity on metabolism and morphology in adhesion and suspension chinese hamster ovary cells producing tissue plasminogen activator

The effects of constant osmolarity, between 300 and500 mOsm/kg, on the metabolism of Chinese HamsterOvary (CHO) cells producing tissue plasminogenactivator (tPA) were compared between adhesion andsuspension cultures. In both suspension and adhesionculture, the specific rates of glucose consumption(_G), lactate production (q_L), and tPAproduction (q_tPA) increased as osmolarityincreased, while these rates decreased when osmolaritywas higher than the respective critical levels. However, specific growth rate () decreased withincrease in osmolarity and this slope grew steeper inthe osmolarity range higher than the critical level. The decrease in in the adhesion culture was morerapid than that in the suspension culture. Thecritical osmolarity for adhesion culture (400 mOsm/kg)was lower than that for suspension culture (450 mOsm/kg). These results indicated that the adhesionculture was more sensitive to increase of osmolaritythan the suspension culture, while the specific ratesobtained from the adhesion cultures were in general1.5- to 3-fold higher than those obtained from thesuspension cultures. Cell volume increased asosmolarity increased in both the suspension andadhesion cultures, as reported previously forsuspension culture of hybridoma cells, but there wasno morphological change in the suspension culture. Incontrast, cell height decreased and cell adhesion areamarkedly increased as osmolarity increased in theadhesion culture. This morphological change inadhesion cultures may be one reason for the highersensitivity of adherent cells to the increase ofosmolarity than suspended cells.     

G protein-coupled, extracellular Ca2+ (Ca o 2+ )-sensing receptor enables Ca o 2+ to function as a versatile extracellular first messenger

The cloning of a G protein-coupled, extracellular Ca²⁺ (Ca _o ²⁺ )-sensing receptor (CaR) has afforded a molecular basis for a number of the known effects of Ca _o ²⁺ on tissues involved in maintaining systemic calcium homeostasis, especially parathyroid gland and kidney. In addition to providing molecular tools for showing that CaR messenger RNA and protein are present within these tissues, the cloned CaR has permitted documentation that several human diseases are the result of inactivating or activating mutations of this receptor as well as generation of mice that have targeted disruption of the CaR gene. Characteristic changes in the functions of parathyroid and kidney in these patients as well as in the CaR “knockout” mice have elucidated considerably the CaR’s physiological roles in mineral ion homeostasis. Nevertheless, a great deal remains to be learned about how this receptor regulates the functioning of other tissues involved in Ca _o ²⁺ metabolism, such as bone and intestine. Further study of these human diseases and of the mouse models will doubtless be useful in gaining additional understanding of the CaR’s roles in these latter tissues. Furthermore, we understand little of the CaR’s functions in tissues that are not directly involved in systemic mineral ion metabolism, where the receptor probably serves diverse other roles. Some of these functions may be related to the control of intra- and local extracellular concentrations of Ca²⁺, while others may be unrelated to either systemic or local ionic homeostasis. In any case, the CaR and conceivably additional receptors/sensors for Ca²⁺ or other extracellular ions represent versatile regulators of a wide variety of cellular functions and represent important targets for novel classes of therapeutics.