Synthesis and biological activity of 26-norbrassinolide, 26-norcastasterone and 26-nor-6-deoxocastasterone

26-Norbrassinolide, identified as a metabolite of brassinolide in cultured cells of the liverwort, Marchantia polymorpha, as well as 26-norcastasterone and 26-nor-6-deoxocastasterone were synthesized. Synthesis of these new brassinosteroids was conducted by employing the orthoester Claisen rearrangement and asymmetric dihydroxylation as key reactions. The modified rice lamina inclination test indicated that these three 26-norbrassinosteroids were less active than their corresponding C28 brassinosteroids. Growth-promoting activities were also examined by using the brassinosteroid-deficient, dwarf mutant lkb of garden pea (Pisum sativum L.). In this assay, 26-norbrassinolide was as effective as brassinolide and 26-norcastasterone was more effective than castasterone although 26-nor-6-deoxocastasterone was much less effective than 6-deoxocastasterone. Therefore, removal of C-26 of brassinosteroids does not necessarily reduce the biological activity. The role of C-26 removal in Marchantia cells remains unclear.     

Vps26A and Vps26B subunits define distinct retromer complexes

The trimeric Vps29-Vps35-Vps26 sub-complex of retromer mediates retrograde transport of transmembrane proteins from endosomes to the trans-Golgi network. Our group has recently identified a Vps26 paralogue, Vps26B, which is able to suppress the expression of Vps26A when exogenously expressed in mammalian cells and defines a distinct retromer complex (Vps26B-retromer) in vivo and in vitro. In this study, we use HEK293 cells stably expressing either Vps26A-myc or Vps26B-myc to address the role of retromer cargo transport and subcellular localization of the two core retromer complexes as defined by the two mammalian-specific Vps26 paralogues. Vps26B-retromer, like Vps26A-retromer, associates with TBC1D5 and GOLPH3. In contrast, no interaction between Vps26B-retromer and cation-independent mannose 6-phosphate receptor (CI-M6PR) was detected, leading to a degradation of this receptor and an increase in cathepsin D secretion. Colocalization of Vps26 paralogues with different endosomally located Rab proteins shows prolonged association of Vps26B-retromer with maturing endosomes relative to Vps26A-retromer. Interestingly, the cycling of CI-M6PR is restored upon deletion of the variable Vps26B C-terminal region indicating that this region is directly responsible for the differential function of the two paralogues. In summary, we show that the two distinct retromer complexes defined by different Vps26 paralogues are not functionally equivalent and that the Vps26B C-terminal region can control cargo selection of the Vps26B-retromer.     

A second CYP26 P450 in humans and zebrafish: CYP26B1.

A new P450 gene has been found in humans. It has 44% sequence identity to CYP26A1 from human and mouse, which places it in a new subfamily, CYP26B. There is only one human EST from a retinal library (AA012833) that matches the coding region. No homologous ESTs are found in mouse. A zebrafish EST AI721901 shows 68% identity to the human protein. This zebrafish EST is only 41% identical to the zebrafish CYP26A1 protein sequence, so it represents the homolog of the human CYP26B1 sequence. It is not known if this gene product will act on all-trans-retinoic acid like the CYP26A1 protein or if it might hydroxylate the 9-cis- or 13-cis-retinoic acid isoforms not recognized by CYP26A1. The importance of the CYP26A1 P450 in mouse and zebrafish development flags the CYP26B1 gene as a potential developmental gene.     

PKH26 labeling of extracellular vesicles: Characterization and cellular internalization of contaminating PKH26 nanoparticles

PKH lipophilic dyes are highly fluorescent and stain membranes by intercalating their aliphatic portion into the exposed lipid bilayer. They have established use in labeling and tracking of cells in vivo and in vitro. Despite wide use of PKH-labeled extracellular vesicles (EVs) in cell targeting and functional studies, nonEV-associated fluorescent structures have never been examined systematically, nor was their internalization by cells. Here, we have characterized PKH26-positive particles in lymphoblastoid B exosome samples and exosome-free controls stained by ultracentrifugation, filtration, and sucrose-cushion-based and sucrose-gradient-based procedures, using confocal imaging and asymmetric-flow field-flow fractionation coupled to multi-angle light-scattering detector analysis. We show for the first time that numerous PKH26 nanoparticles (nine out of ten PKH26-positive particles) are formed during ultracentrifugation-based exosome staining, which are almost indistinguishable from PKH26-labeled exosomes in terms of size, surface area, and fluorescence intensity. When PKH26-labeled exosomes were purified through sucrose, PKH26 nanoparticles were differentiated from PKH26-labeled exosomes based on their reduced size. However, PKH26 nanoparticles were only physically removed from PKH26-labeled exosomes when separated on a sucrose gradient, and at the expense of low PKH26-labeled exosome recovery. Overall, low PKH26-positive particle recovery is characteristic of filtration-based exosome staining. Importantly, PKH26 nanoparticles are internalized by primary astrocytes into similar subcellular compartments as PKH26-labeled exosomes. Altogether, PKH26 nanoparticles can result in false-positive signals for stained EVs that can compromise the interpretation of EV internalization. Thus, for use in EV uptake and functional studies, sucrose-gradient-based isolation should be the method of choice to obtain PKH26-labeled exosomes devoid of PKH26 nanoparticles.     

Hsp26: a temperature-regulated chaperone

Small heat shock proteins (sHsps) are a conserved protein family, with members found in all organisms analysed so far. Several sHsps have been shown to exhibit chaperone activity and protect proteins from irreversible aggregation in vitro. Here we show that Hsp26, an sHsp from Saccharomyces cerevisiae, is a temperature-regulated molecular chaperone. Like other sHsps, Hsp26 forms large oligomeric complexes. At heat shock temperatures, however, the 24mer chaperone complex dissociates. Interestingly, chaperone assays performed at different temperatures show that the dissociation of the Hsp26 complex at heat shock temperatures is a prerequisite for efficient chaperone activity. Binding of non-native proteins to dissociated Hsp26 produces large globular assemblies with a structure that appears to be completely reorganized relative to the original Hsp26 oligomers. In this complex one monomer of substrate is bound per Hsp26 dimer. The temperature-dependent dissociation of the large storage form of Hsp26 into a smaller, active species and the subsequent re-association to a defined large chaperone-substrate complex represents a novel mechanism for the functional activation of a molecular chaperone.     

Characterization of the specific DNA-binding properties of Tnp26, the transposase of insertion sequence IS26

The bacterial insertion sequence (IS) IS26 mobilizes and disseminates antibiotic resistance genes. It differs from bacterial IS that have been studied to date as it exclusively forms cointegrates via either a copy-in (replicative) or a recently discovered targeted conservative mode. To investigate how the Tnp26 transposase recognizes the 14-bp terminal inverted repeats (TIRs) that bound the IS, amino acids in two domains in the N-terminal (amino acids M1–P56) region were replaced. These changes substantially reduced cointegration in both modes. Tnp26 was purified as a maltose-binding fusion protein and shown to bind specifically to dsDNA fragments that included an IS26 TIR. However, Tnp26 with an R49A or a W50A substitution in helix 3 of a predicted trihelical helix–turn–helix domain (amino acids I13–R53) or an F4A or F9A substitution replacing the conserved amino acids in a unique disordered N-terminal domain (amino acids M1–D12) did not bind. The N-terminal M1–P56 fragment also bound to the TIR but only at substantially higher concentrations, indicating that other parts of Tnp26 enhance the binding affinity. The binding site was confined to the internal part of the TIR, and a G to T nucleotide substitution in the TGT at positions 6 to 8 of the TIR that is conserved in most IS26 family members abolished binding of both Tnp26 (M1–M234) and Tnp26 M1–P56 fragment. These findings indicate that the helix–turn–helix and disordered domains of Tnp26 play a role in Tnp26–TIR complex formation. Both domains are conserved in all members of the IS26 family.     

Regulation of connexons composed of human connexin26 (hCx26) by temperature

This report shows that temperature is a latent regulator of the voltage-dependent conductance of hemichannels composed of hCx26. The latter were expressed in Xenopus oocytes by injection of a mixture of hCx26 cRNA and antisense of endogenous Cx38 (anti-Cx38). At 24-25 degrees C, voltage clamp of oocytes at potentials above -40 mV evoked outward currents which were not observed in control oocytes. These currents were reversibly affected by change in temperature. Increasing temperature of the bath solution amplified gradually, whereas decreasing bath temperatures below 20 degrees C reduced the current. Furthermore analysis revealed that temperature-dependent increase of the conductance of the hemichannels did not correlate with a change of the apparent gating charge, whereas the half-activation voltage V(1/2) of the hemichannel was affected by a temperature change. It is proposed that this finding correlates with a temperature-dependent transition into an open state above 20 degrees C. In addition, a temperature-dependent release of Lucifer Yellow from loaded liposomes containing reconstituted purified and hCx26 hemichannels was observed, which indicate that a temperature-dependent regulation of the permeability of hCx26 hemichannels is not related to intracellular mediators. The involvement of temperature to modulate hemichannels as well as of the corresponding gap junction channel composed of hCx26 at physiological condition is discussed.     

Two autosomal trisomies in the horse: 64,XX,-26,+t(26q26q) and 65,XX,+30

The phenotypic effects in a yearling Arab filly of a newly described equine autosomal trisomy syndrome for chromosome 30 (65,XX,+30) consisted of small size and severe angular deviation of front legs accompanied by mild polydactyly, but no mental dullness. This case was associated with advanced maternal age. Additional banding studies of a second trisomy case confirmed the assignment to chromosome 26 (64,XX,-26,+t(26q26q)) and evidence of her fertility was presented.     

Behavioral effects of 26RFamide and related peptides

A novel 26-amino acid peptide possessing the Arg-Phe-NH(2) motif at its C-terminal extremity has been recently characterized and named 26RFamide (26RFa). The 26RFa precursor encompasses several potential cleavage sites and thus may generate various mature peptides including an N-terminally extended form of 26RFa (termed 43RFa), two fragments of 26RFa (26RFa(1-16) and 26RFa(20-26)), and a 9-amino acid peptide (9RFa) located in tandem in the human 26RFa precursor. In the present study, we have investigated the central effects of 26RFa and related peptides on food intake and locomotor activity in mice. We observed that i.c.v. injection of 26RFa, 43RFa, 26RFa(20-26) and 9RFa stimulated food consumption while 26RFa(1-16) and 26RFa(8-16) had no effect. A dose-dependent stimulation of locomotor activity was observed after i.c.v. administration of 26RFa, 43RFa and 26RFa(1-16), but not 26RFa(20-26), 26RFa(8-16) or 9RFa. These data indicate that the novel neuropeptides 26RFa and 43RFa act centrally to stimulate feeding and locomotor activities but the domains of the peptide involved in each of these responses are different suggesting that the two behavioral effects may be mediated through distinct receptors.     

Regulation of connexons composed of human connexin26 (hCx26) by temperature

This report shows that temperature is a latent regulator of the voltage-dependent conductance of hemichannels composed of hCx26. The latter were expressed in Xenopus oocytes by injection of a mixture of hCx26 cRNA and antisense of endogenous Cx38 (anti-Cx38). At 24-25 °C, voltage clamp of oocytes at potentials above − 40 mV evoked outward currents which were not observed in control oocytes. These currents were reversibly affected by change in temperature. Increasing temperature of the bath solution amplified gradually, whereas decreasing bath temperatures below 20 °C reduced the current. Furthermore analysis revealed that temperature-dependent increase of the conductance of the hemichannels did not correlate with a change of the apparent gating charge, whereas the half-activation voltage V_1/2 of the hemichannel was affected by a temperature change. It is proposed that this finding correlates with a temperature-dependent transition into an open state above 20 °C. In addition, a temperature-dependent release of Lucifer Yellow from loaded liposomes containing reconstituted purified and hCx26 hemichannels was observed, which indicate that a temperature-dependent regulation of the permeability of hCx26 hemichannels is not related to intracellular mediators. The involvement of temperature to modulate hemichannels as well as of the corresponding gap junction channel composed of hCx26 at physiological condition is discussed.     

Cholesterol metabolism. Effect of 26-thiacholesterol and 26-aminocholesterol, analogues of 26-hydroxycholesterol, on cholesterol synthesis and low-density-lipoprotein-receptor binding.

1. The effects of 26-aminocholesterol and 26-thiacholesterol on cholesterol synthesis and LDL (low-density lipoprotein)-receptor activity were compared with naturally occurring 26-hydroxycholesterol utilizing both human fibroblasts and hepatoma (Hep G2) cells. 2. At equimolar concentrations (0.625 microM), down-regulation of LDL-receptor activity and cholesterol synthesis was greater with human fibroblasts than with Hep G2 cells. 3. At much higher concentrations (5-20 microM) the 26-thia analogue had little effect on either cholesterol synthesis or LDL-receptor activity.     

Connexin-30 deletion analysis in connexin-26 heterozygotes

Mutations in the Connexin-26 gene (Cx 26, GJB2) are the most common cause of hereditary nonsyndromic sensorineural hearing loss (SNHL). DNA analysis of the Cx 26 gene in deaf or hard-of-hearing individuals frequently demonstrates heterozygosity despite the fact that most mutations are known to be recessive. A 342-kb deletion in a gene adjacent to Cx 26, the Connexin-30 gene (Cx 30, GJB6), has been reported to cause deafness in the homozygous state or in combination with heterozygous mutations in Cx 26 (digenic inheritance). We have analyzed deaf or hard-of-hearing Cx 26 heterozygotes and individuals with no mutations in Cx 26 for this Cx 30 deletion. We found that 4/20 (20%) of the Cx 26 heterozygotes are heterozygous for this deletion and that no individuals were homozygous for the Cx 30 deletion. Cx 30 deletion analysis is recommended for all individuals with nonsyndromic SNHL following Cx 26 sequencing that does not demonstrate two recessive mutations.     

Molecular cloning and expression of a novel CYP26 gene (cyp26d1) during zebrafish early development

Proper restriction of retinoid signaling by Cyp26s is essential for development of vertebrate embryos while inappropriate retinoid signaling can cause teratogenesis. Here, we report cloning and expression analysis of a novel cyp26 gene (cyp26d1) isolated from zebrafish. The predicted protein encoded by cyp26d1 consists of 554 amino acids. It exhibits 54% amino acid identity with human Cyp26C1, 50% with zebrafish Cyp26B1 and 38% with zebrafish Cyp26A1. Whole-mount in situ hybridization shows that cyp26d1 is first expressed in sphere stage, then disappears at 50% epiboly and resumes its expression at 75% epiboly. During segmentation period, cyp26d1 message is found at presumptive hindbrain. Double in situ hybridization with krox20 and cyp26d1 reveals that cyp26d1 is expressed in presumptive rhombomere 2-4 (r2-r4) at 2-somite stage. At 3-somite stage, cyp26d1 gene is expressed in r6 and pharyngeal arch (pa) one in addition to its expression at r2 and r4. At 6-somite stage, cyp26d1 message is present in continuous bands at r2-r6 and in pa1. This expression pattern is maintained from 10-somite stage through 21-somite stage except that the expression level is greatly reduced at r2 and r4. At 21-somite stage, cyp26d1 is also found in a group of cells in telencephalon and diencephalons. At 25-31h post-fertilization (hpf), the zebrafish cyp26d1 expression domain is extended to eyes, otic vesicles and midbrain in addition to its expression in hindbrain, telencephalon, diencephalons, and pharyngeal arches. At 35-48hpf, the expression of cyp26d1 is mainly restricted to otic vesicles, pharyngeal arches and pectoral fins and the expression level is greatly reduced.     

A comprehensive radiation hybrid map of bovine Chromosome 26 (BTA26): comparative chromosomal organization between HSA10q and BTA26 and BTA28

In this study, we present a comprehensive 3000-rad radiation hybrid (RH) map of bovine Chromosome (Chr) 26 (BTA26) with 80 markers including 50 genes or ESTs: 44 have an ortholog mapping to human Chr 10 (HSA10) and 29 to mouse Chr (MMU) 7, 10, and 19. Moreover, 12 other HSA10 genes were integrated in a newly developed RH map of BTA28 (seven represent new assignments). The available draft of the mouse genome allowed us to present a detailed picture of the distribution of conserved synteny segments among the three species (human, cattle, and mouse) and to propose a simple model of the comparative chromosomal organization between the long arm of HSA10 and BTA26 and 28. Finally, the INRA bovine BAC library was screened for most of the BTA26 markers considered in this study to provide anchors for the bovine physical map.     

Atg26-mediated pexophagy and fungal phytopathogenicity

Colletotrichum orbiculare is a plant pathogenic fungus that causes disease on cucumber plants. A homologue of ATG26 (CoATG26) was identified as the gene involved in pathogenesis. The peroxisomes are degraded via pexophagy during formation of an infection structure called the appressorium of C. orbiculare. The Coatg26 mutant developed appressoria but exhibited a specific defect in the subsequent host invasion step. Importantly, the autophagic degradation of peroxisomes was significantly delayed in the appressoria of the Coatg26 mutant. Domain and localization analysis of CoAtg26 also demonstrated a strong correlation of functional pexophagy with pathogenicity. Furthermore, in contrast to the Coatg26 mutant, the Coatg8 mutant, defective in the entire autophagic pathway, could not form normal appressoria in the earlier steps of morphogenesis. These results indicate that CoAtg26-mediated pexophagy plays critical roles in host plant invasion.     

巴尔通体（Bartonella tribocorum）P26蛋白原核重组表达研究

目的 构建巴尔通体表面蛋白p26基因的原核重组表达载体,表达和纯化重组表达蛋白P26,并鉴定其抗原性.方法 利用PCR方法从巴尔通体B.tribocorum厦门分离株的基因组DNA中扩增出p26蛋白基因,并将该基因的编码区克隆到pGEX-4T-1表达载体中,从而构建GST-p26融合蛋白原核重组表达载体.将表达载体转化大肠埃希菌（E.coli DH5α）,诱导表达GST-p26,并运用亲和层析技术纯化蛋白.通过蛋白质斑点印迹试验和间接ELISA法检验GST-p26是否具有抗原性.结果 成功构建了p26的原核表达载体,该表达载体可在E.coli DH5α中大量表达GST-p26,原核表达的GST-p26能够与感染动物血液样本发生特异性免疫反应.结论 原核重组表达的GST-p26可作为潜在的抗原,应用于巴尔通体的血清学检测.     

Kinetics and plasma concentrations of 26-hydroxycholesterol in baboons

26-Hydroxycholesterol (26OHC), a major oxysterol in human blood, is believed to play an important role in reverse cholesterol transport, bile acid formation, and regulation of various cellular processes. Using isotope dilution mass spectrometry, we measured plasma 26OHC concentrations in baboons fed either a high cholesterol/saturated fat (HC-SF) or normal chow diet. Plasma 26OHC levels in baboons were comparable to those reported for humans and were positively correlated with plasma cholesterol concentrations. Animals on the HC-SF diet had significantly higher 26OHC levels (0.274+/-0.058 microM, mean+/-S.D.) than those on the chow diet (0.156+/-0.046 microM). In separate experiments, [(3)H]26OHC was injected into four tethered baboons, and multiple blood samples drawn over a 1-h period were analyzed for [(3)H]26OHC and 26OHC. Fitting the specific radioactivity data to a two-pool compartmental model indicated a rapidly turning over plasma compartment (t(1/2) 2.9-6.0 min) and a second compartment with slow turnover (t(1/2) 76-333 min). The calculated 26OHC production rate was 2.5 micromol/kg body weight/day. Assuming all 26OHC is converted to bile acids, the 26OHC production rate corresponds to about 10% of total bile acid production in adult baboons. These results indicate that rapid turnover of plasma 26OHC at submicromolar concentrations could significantly contribute to bile acid synthesis.     

CD26 Expression on T Helper Populations and sCD26 Serum Levels in Patients with Rheumatoid Arthritis

We studied dipeptidyl peptidase IV (DPP-IV, CD26) expression in different T helper cells and serum soluble DPP-IV/sCD26 levels in rheumatoid arthritis (RA) patients, correlated these with disease activity score (DAS), and examined how they were affected by different therapies, conventional or biological (anti-TNF, anti-CD20 and anti-IL6R or Ig-CTLA4). The percentage of CD4⁺CD45R0⁺CD26^- cells was greatly reduced in patients (up to 50%) when compared with healthy subjects. Three other subsets of CD4 cells, including a CD26high Th1-associated population, changed variably with therapies. Data from these subsets (frequency and staining density) significantly correlated with DAS28 or DAS28 components but different in each group of patients undergoing the different therapies. Th17 and Th22 subsets were implicated in RA as independent CCR4⁺ and CCR4^- populations each, with distinct CD26 expression, and were targeted with varying efficiency by each therapy. Serum DPP-IV activity rather than sCD26 levels was lower in RA patients compared to healthy donors. DPP-IV and sCD26 serum levels were found related to specific T cell subsets but not to disease activity. We conclude that, according to their CD26 expression, different cell subsets could serve to monitor RA course, and an uncharacterized T helper CD26^- subset, not targeted by therapies, should be monitored for early diagnosis.     

ZFYVE26/SPASTIZIN

Defective autophagy is associated with neurodegenerative disorders including Alzheimer, Parkinson and Huntington diseases, amyotrophic lateral sclerosis and SCA (spinocerebellar ataxias). Autophagy defects were detected also in SPG49, a complicated form of hereditary spastic paraparesis (cHSP) associated with mutations in the TECPR2 gene, suggesting a role of autophagy also in this heterogeneous group of neurodegenerative diseases. We recently found defective autophagy in SPG15, another HSP subtype associated with mutations in the ZFYVE26/SPG15 gene. Patient-derived cells (fibroblasts/lymphoblasts) carrying different ZFYVE26 mutations show accumulation of immature autophagosomes and increased MAP1LC3B-II and SQSTM1/p62 levels. These findings indicate that ZFYVE26 is a key determinant of autophagosome maturation, which is impaired when the protein is defective or absent. Replication of these findings in primary neurons supports the relevance of defective autophagy in SPG15-related neurodegeneration.