睾丸支持细胞紧密连接的动力学调控

在睾丸精子发生的过程中,处于细线期和细线前期的精母细胞必须从生精上皮的基底室进入近腔室,这样形态上发育完全的精子才能在精子释放时进入到生精小管的内腔。显然,构成血-睾屏障的支持细胞间紧密连接的开放和关闭受到一系列信号分子的调节。已经发现的对该过程起调控作用的信号分子包括：转化生长因子β3(TGFβ3)、闭锁蛋白、PKA、PKC等。现就该领域研究的新进展以及可用于研究紧密连接动力学的一些模型进行综述。     

AKAP9 Is Essential for Spermatogenesis and Sertoli Cell Maturation in Mice

Mammalian male fertility relies on complex inter- and intracellular signaling during spermatogenesis. Here we describe three alleles of the widely expressed A-kinase anchoring protein 9 (Akap9) gene, all of which cause gametogenic failure and infertility in the absence of marked somatic phenotypes. Akap9 disruption does not affect spindle nucleation or progression of prophase I of meiosis but does inhibit maturation of Sertoli cells, which continue to express the immaturity markers anti-Mullerian hormone and thyroid hormone receptor alpha in adults and fail to express the maturation marker p27^Kip1. Furthermore, gap and tight junctions essential for blood–testis barrier (BTB) organization are disrupted. Connexin43 (Cx43) and zona occludens-1 are improperly localized in Akap9 mutant testes, and Cx43 fails to compartmentalize germ cells near the BTB. These results identify and support a novel reproductive tissue-specific role for Akap9 in the coordinated regulation of Sertoli cells in the testis.     

The MRC1/CD68 Ratio Is Positively Associated with Adipose Tissue Lipogenesis and with Muscle Mitochondrial Gene Expression in Humans

Background

Alternative macrophages (M2) express the cluster differentiation (CD) 206 (MCR1) at high levels. Decreased M2 in adipose tissue is known to be associated with obesity and inflammation-related metabolic disturbances. Here we aimed to investigate MCR1 relative to CD68 (total macrophages) gene expression in association with adipogenic and mitochondrial genes, which were measured in human visceral [VWAT, n = 147] and subcutaneous adipose tissue [SWAT, n = 76] and in rectus abdominis muscle (n = 23). The effects of surgery-induced weight loss were also longitudinally evaluated (n = 6).

Results

MCR1 and CD68 gene expression levels were similar in VWAT and SWAT. A higher proportion of CD206 relative to total CD68 was present in subjects with less body fat and lower fasting glucose concentrations. The ratio MCR1/CD68was positively associated with IRS1gene expression and with the expression of lipogenic genes such as ACACA, FASN and THRSP, even after adjusting for BMI. The ratio MCR1/CD68 in SWAT increased significantly after the surgery-induced weight loss (+44.7%; p = 0.005) in parallel to the expression of adipogenic genes. In addition, SWAT MCR1/CD68ratio was significantly associated with muscle mitochondrial gene expression (PPARGC1A, TFAM and MT-CO3). AT CD206 was confirmed by immunohistochemistry to be specific of macrophages, especially abundant in crown-like structures.

Conclusion

A decreased ratio MCR1/CD68 is linked to adipose tissue and muscle mitochondrial dysfunction at least at the level of expression of adipogenic and mitochondrial genes.     

Tsg101 Is Necessary for the Establishment and Maintenance of Mouse Retinal Pigment Epithelial Cell Polarity

The retinal pigment epithelium (RPE) forms a monolayer sheet separating the retina and choroid in vertebrate eyes. The polarized nature of RPE is maintained by distributing membrane proteins differentially along apico-basal axis. We found the distributions of these proteins differ in embryonic, post-natal, and mature mouse RPE, suggesting developmental regulation of protein trafficking. Thus, we deleted tumor susceptibility gene 101 (Tsg101), a key component of endosomal sorting complexes required for transport (ESCRT), in embryonic and mature RPE to determine whether ESCRT-mediated endocytic protein trafficking correlated with the establishment and maintenance of RPE polarity. Loss of Tsg101 severely disturbed the polarity of RPE, which forms irregular aggregates exhibiting non-polarized distribution of cell adhesion proteins and activation of epidermal growth factor receptor signaling. These findings suggest that ESCRT-mediated protein trafficking is essential for the development and maintenance of RPE cell polarity.     

MT1-MMP Is Required for Myeloid Cell Fusion via Regulation of Rac1 Signaling

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Highlights? Myeloid cells fuse during osteoclast and giant cell formation ? MT1-MMP is required for this fusion in vitro and in vivo ? MT1-MMP regulates the GTPase Rac1 through p130Cas binding ? MT1-MMP proteolytic activity is not required     

The Mouse Mitotic Checkpoint Gene Bub1b,a Novel Bub1 Family Member,Is Expressed in a Cell Cycle-Dependent Manner

A search for genes differentially expressed in normal and leukemic mouse thymocytes yielded a homolog of the yeast mitotic checkpoint protein Bub1. This novel protein (“mBub1b”) has 40% sequence similarity to the mouse Bub1 (“mBub1a”) previously described by Taylor and McKeon (1997,Cell 89,727–735) over four extended domains. Differences between the Bub1 sequences suggest that the two proteins may have different substrate specificities and that Bub1b alone has a putative “destruction” box that can target proteins for degradation by proteosomes during mitosis. Northern blots of normal tissues show that mouse Bub1a and Bub1b genes are expressed in thymus and spleen, but not in nondividing tissues. In synchronized cells, expression of both Bub1 genes is undetectable in G₁; Bub1 gene expression peaks in G₂/M with Bub1b delayed by 6 h relative to Bub1a. This cell cycle-dependent expression explains the tissue distribution and the abundance of Bub1 mRNAs in rapidly dividing cell lines. The human equivalent of mBub1b was isolated and mapped to chromosome 15q15. The existence in mammals of two separate Bub1 genes encoding distinct proteins, coupled with the different timing of peak expression, suggests that Bub1a and Bub1b have distinct roles in the mitotic checkpoint.     

Surf1, Associated with Leigh Syndrome in Humans, Is a Heme-binding Protein in Bacterial Oxidase Biogenesis

Biogenesis of mitochondrial cytochrome c oxidase (COX) relies on a large number of assembly factors, among them the transmembrane protein Surf1. The loss of human Surf1 function is associated with Leigh syndrome, a fatal neurodegenerative disorder caused by severe COX deficiency. In the bacterium Paracoccus denitrificans, two homologous proteins, Surf1c and Surf1q, were identified, which we characterize in the present study. When coexpressed in Escherichia coli together with enzymes for heme a synthesis, the bacterial Surf1 proteins bind heme a in vivo. Using redox difference spectroscopy and isothermal titration calorimetry, the binding of the heme cofactor to purified apo-Surf1c and apo-Surf1q is quantified: Each of the Paracoccus proteins binds heme a in a 1:1 stoichiometry and with K_d values in the submicromolar range. In addition, we identify a conserved histidine as a residue crucial for heme binding. Contrary to most earlier concepts, these data support a direct role of Surf1 in heme a cofactor insertion into COX subunit I by providing a protein-bound heme a pool.Leigh syndrome (LS)³ is an autosomal recessive inherited neurodegenerative disorder characterized by focal, bilateral lesions in one or more areas of the central nervous system (1). Symptoms start in early childhood, and the disease usually progresses rapidly. Although mutations in various mitochondrial enzymes can result in LS, its most frequent trigger is deficiency of cytochrome c oxidase (COX) caused by mutations in the SURF1 gene, as identified in LS patients (2, 3). Human SURF1, the first gene of the SURFEIT gene locus on chromosome 9, encodes a 30-kDa protein related to COX assembly (2, 3).Mitochondrial COX consists of up to 13 subunits (SU). The three core SU encoded by the mitochondrial genome carry all of the redox-active cofactors, two heme a moieties, and three copper ions. These three SU are highly conserved among different organisms and represent the main components of bacterial oxidase complexes as well (4, 5). The assembly process of mitochondrial COX is only marginally understood, involving the interplay of a large number of auxiliary proteins (6–9).Despite intensive efforts over more than a decade to unravel Surf1 function, its exact role in COX assembly still remains unclear. Surf1 is not strictly essential for COX assembly because patients with LS have residuals of assembled oxidase with remaining activity of approximately 10–20% in all tissues (2, 3). Located in the inner mitochondrial membrane, Surf1 is predicted to form two transmembrane helices connected by a long loop facing the intermembrane space (10, 11). Sequence alignments confirm the presence of Surf1 homologs in many eukaryotes and prokaryotes (12).One of the best studied Surf1 proteins is the yeast homolog Shy1p, which has been discovered and characterized in the context of pet mutants (10). Deletion of the gene leads to a strongly decreased COX level, although the residual enzyme appears fully functional. This points to a role of Shy1p in assembly or stabilization of COX (13), most likely during the formation of an early assembly intermediate consisting of the highly conserved core SU I and II (14).So far, only three bacterial homologs have been inspected in closer detail (15, 16). In Paracoccus denitrificans, two Surf1 homologs were identified and named Surf1c and Surf1q for their specific role in serving a heme aa₃-type COX and a related heme ba₃-type quinol oxidase, respectively (15). With the function of Surf1 in COX assembly still being speculative, a role in heme a insertion into COX SU I seemed conceivable (15, 16).Here we show that P. denitrificans Surf1c and Surf1q are able to bind heme a both in vivo and in vitro. This novel finding suggests that Surf1 proteins promote heme a insertion into SU I of either cytochrome c oxidase or quinol oxidase. In addition, Surf1 may modulate heme a synthase activity and provide a heme a cofactor pool in a safe, chelated form for COX SU I biogenesis.     

FoxM1 Is Associated with Poor Prognosis of Non-Small Cell Lung Cancer Patients through Promoting Tumor Metastasis

Background

FoxM1 has been reported to be important in initiation and progression of various tumors. However, whether FoxM1 has any indication for prognosis in non-small cell lung cancer patients remains unclear.

Methodology/Principal Findings

In this study, FoxM1 expression in tumor cells was examined first by immunohistochemistry in 175 NSCLC specimens, the result of which showed that FoxM1 overexpression was significantly associated with positive smoking status (P = 0.001), poorer tissue differentiation (P = 0.0052), higher TNM stage (P<0.0001), lymph node metastasis (P<0.0001), advanced tumor stage (P<0.0001), and poorer prognosis (P<0.0001). Multivariable analysis showed that FoxM1 expression increased the hazard of death (hazard ratio, 1.899; 95% CI, 1.016–3.551). Furthermore, by various in vitro and in vivo experiments, we showed that targeted knockdown of FoxM1 expression could inhibit the migratory and invasive abilities of NSCLC cells, whereas enforced expression of FoxM1 could increased the invasion and migration of NSCLC cells. Finally, we found that one of the cellular mechanisms by which FoxM1 promotes tumor metastasis is through inducing epithelial-mesenchymal transition (EMT) program.

Conclusions

These results suggested that FoxM1 overexpression in tumor tissues is significantly associated with the poor prognosis of NSCLC patients through promoting tumor metastasis.     

Gene Regulation of Iron-Deficiency Responses Is Associated with Carbon Monoxide and Heme Oxydase 1 in Chlamydomonas reinhardtii

Carbon monoxide (CO) as an endogenous gaseous molecule regulates a variety of biological processes in animals. However, CO regulating nutrient stress responses in green alga is largely unknown. On the other hand, heme oxydase (HO1 as a rate-limiting enzyme of the first step for heme degration and to catalyze heme into biliverdin (BV), which is concomitant with releasing of CO and ferrous ions, probably participates in the process of CO-regulating response to nutrient stress in green alga. In this paper, we described an observation that CO could regulate iron-homeostasis in iron-starving Chlamydomonas reinhardtii. Exogenous CO at 8 µM was able to prevent the iron deficient-inducing chlorosis and improve chlorophyll accumulation. Expression pattern of FOX1, FTR1 and ferredoxin was up-regulated by CO exposure in iron-deficient mediam. treatment with external CO increasing iron accumulation in iron-deficient C. reinhardtii. Moreover, to get insights into the regulatory role of HO1, we constructed a transgenic alga overexpressing HO1 and HO1 knock-out mutants. The results show that there was no significant influence on chlorosis with HO1 overexpression of C. reinhardtii under iron-deficiency and the chlorophyll accumulation, and gene expression associated with iron deficiency of mutant were greatly improved. Otherwise, those results from HO1 knock-out mutants were opposite to HO1 overexpression mutants. Finally, CO exposure induced NO accumulation in cells. However, such an action could be blocked by NO scavenger cPTIO. These results indicate that CO/HO1 may play an important role in improving green algae adaptation to iron deficiency or cross-talking with NO under the iron deficiency.     

Tumor Necrosis Factor Receptor Associated Factor 6 Is Not Required for Atherogenesis in Mice and Does Not Associate with Atherosclerosis in Humans

Background

Tumor necrosis factor receptor-associated factors (TRAFs) are important signaling molecules for a variety of pro-atherogenic cytokines including CD40L, TNF α, and IL1β. Several lines of evidence identified TRAF6 as a pro-inflammatory signaling molecule in vitro and we previously demonstrated overexpression of TRAF6 in human and Murine atherosclerotic plaques. This study investigated the role of TRAF6-deficiency in mice developing atherosclerosis, a chronic inflammatory disease.

Methodology/Principal Findings

Lethally irradiated low density lipoprotein receptor-deficient mice (TRAF6^+/+/LDLR^−/−) were reconstituted with TRAF6-deficient fetal liver cells (FLC) and consumed high cholesterol diet for 18 weeks to assess the relevance of TRAF6 in hematopoietic cells for atherogenesis. Additionally, TRAF6^+/−/LDLR^−/− mice received TRAF6-deficient FLC to gain insight into the role of TRAF6 deficiency in resident cells. Surprisingly, atherosclerotic lesion size did not differ between the three groups in both aortic roots and abdominal aortas. Similarly, no significant differences in plaque composition could be observed as assessed by immunohistochemistry for macrophages, lipids, smooth muscle cells, T-cells, and collagen. In accord, in a small clinical study TRAF6/GAPDH total blood RNA ratios did not differ between groups of patients with stable coronary heart disease (0.034±0.0021, N = 178), acute coronary heart disease (0.029±0.0027, N = 70), and those without coronary heart disease (0.032±0.0016, N = 77) as assessed by angiography.

Conclusion

Our study demonstrates that TRAF6 is not required for atherogenesis in mice and does not associate with clinical disease in humans. These data suggest that pro- and anti-inflammatory features of TRAF6 signaling outweigh each other in the context of atherosclerosis.     

小鼠生精相关基因SRG4的cDNA克隆及在小鼠各发育阶段的表达

从大鼠精子尾部基因Spag4出发,在dbEST数据库中同源搜寻与大鼠Spag4基因编码氨基酸同源性较高的表达序列标签(Expressed Sequence Tag,EST),找到两个在小鼠精母细胞中表达的ESTs,BG101130和BG100990。通过电子杂交得到1155bp的片段,包含了小鼠假想基因AK006225的全部序列,定位于2H1-H2,其开放阅读框为87～1133bp,并被RT-PCR所证实,将该基因命名为小鼠生精相关基因4(Sperrnatogenesis Related Gene4,SRG4,GenBank登录号为AY307077)。SRG4基因推定编码348个氨基酸,有一个coiled-coil区,可能是一个跨膜蛋白。该基因与人类同源基因TSARG4同源性为74％(277／374),与大鼠Spag4同源性为45％(103／224)。多组织RT-PCR和Northern blot结果显示,SRG4在睾丸中特异性表达。RT-PCR结果发现,小鼠出生后2周内,SRG4表达量极低;3周开始时SRG4大量表达,到4∽5周时表达量最高。该结果提示。SRG4基因可能在小鼠精子形成过程中发挥着重要的作用。