Embryonic lineage tracing with Procr-CreER marks balanced hematopoietic stem cell fate during entire mouse lifespan

The functional heterogeneity of hematopoietic stem cells (HSCs) has been comprehensively investigated by single-cell transplantation assay. However, the heterogeneity regarding their physiological contribution remains an open question, especially for those with life-long hematopoietic fate of rigorous self-renewing and balanced differentiation capacities. In this study, we revealed that Procr expression was detected principally in phenotypical vascular endothelium co-expressing Dll4 and CD44 in the mid-gestation mouse embryos, and could enrich all the HSCs of the embryonic day 11.5 (E11.5) aorta-gonad-mesonephros (AGM) region. We then used a temporally restricted genetic tracing strategy to irreversibly label the Procr-expressing cells at E9.5. Interestingly, most labeled mature HSCs in multiple sites (such as AGM) around E11.5 were functionally categorized as lymphomyeloid-balanced HSCs assessed by direct transplantation. Furthermore, the labeled cells contributed to an average of 7.8% of immunophenotypically defined HSCs in E14.5 fetal liver (FL) and 6.9% of leukocytes in peripheral blood (PB) during one-year follow-up. Surprisingly, in aged mice of 24 months, the embryonically tagged cells displayed constant contribution to leukocytes with no bias to myeloid or lymphoid lineages. Altogether, we demonstrated, for the first time, the existence of a subtype of physiologically long-lived balanced HSCs as hypothesized, whose precise embryonic origin and molecular identity await further characterization.     

Biosynthetic origin of the saw-toothed profile in δC and δΗ of n-alkanes and systematic isotopic differences between n-, iso- and anteiso-alkanes in leaf waxes of land plants

The n-fatty acids containing an even number of carbons (ECN-n-FAs) in higher plants are biosynthesised by repetitive addition of a two carbon unit from malonyl-ACP. The n-alkanes containing an odd number of carbon atoms (OCN-n-alkanes) are generally formed by the decarboxylation of ECN-n-FAs, but it is unknown how the less abundant even-carbon-numbered alkanes (ECN-n-alkanes) are biosynthesised in higher plants.There is a distinctive compositional pattern of incorporation of stable carbon (¹³C) and hydrogen (²H) isotopes in co-existing ECN- and OCN-n-alkanes in leaves of higher plants, such that the OCN n-alkanes are relatively enriched in ¹³C but relatively depleted in ²H against the ECN-n-alkanes. This is consistent with the OCN-n-fatty acids having a propionate precursor which is derived from reduction of pyruvate. A tentative pathway is presented with propionate produced by enzymatic reduction of pyruvate which is then thio-esterified with CoSH (coenzyme A thiol) in the chloroplast to form the terminal precursor molecule propionyl-CoA. This is then repetitively extended/elongated with the 2-carbon unit from malonyl-ACP to form the long chain OCN-n-fatty acids.The anteiso- and iso-alkanes in Nicotiana tabacum leaf waxes have previously been found to be systematically enriched in ¹³C compared with the n-alkanes by Grice et al. (2008). This is consistent with the isotopic composition of their putative respective precursors (pyruvate as precursor for n-alkanes, valine for iso-alkanes and isoleucine for anteiso-alkanes). The current study complements that of Grice et al. (2008) and looks at the distribution of hydrogen isotopes. The n-alkanes were found to be more enriched in deuterium (²H) than the iso-alkanes which in turn were more enriched than the anteiso-alkanes. We propose therefore that the depletion of ²H in the iso-alkanes, relative to the n-alkanes is the consequence of accepting highly ²H-depleted hydrogen atoms from NADPH during their biosynthesis. The anteiso-alkanes are further depleted again because there are three NADPH-derived hydrogen atoms in their precursor isoleucine, as compared with only one NADPH-derived hydrogen in valine, the precursor of the iso-alkanes.     

Dual Cre and Dre recombinases mediate synchronized lineage tracing and cell subset ablation in vivo

Genetic technology using site-specific recombinases, such as the Cre-loxP system, has been widely employed for labeling specific cell populations and for studying their functions in vivo. To enhance the precision of cell lineage tracing and functional study, a similar site-specific recombinase system termed Dre-rox has been recently used in combination with Cre-loxP. To enable more specific cell lineage tracing and ablation through dual recombinase activity, we generated two mouse lines that render Dre- or Dre+Cre-mediated recombination to excise a stop codon sequence that prevents the expression of diphtheria toxin receptor (DTR) knocked into the ubiquitously expressed and safe Rosa26 locus. Using different Dre- and Cre-expressing mouse lines, we showed that the surrogate gene reporters tdTomato and DTR were simultaneously expressed in target cells and in their descendants, and we observed efficient ablation of tdTomato⁺ cells after diphtheria toxin administration. These mouse lines were used to simultaneously trace and deplete the target cells of interest through the inducible expression of a reporter and DTR using dual Cre and Dre recombinases, allowing a more precise and efficient study of the role of specific cell subsets within a heterogeneous population in pathophysiological conditions in vivo.     

Salicylic acid biosynthesis is not from phenylalanine in Arabidopsis

The phytohormone salicylic acid(SA) regulates biotic and abiotic stress responses in plants. Two distinct biosynthetic pathways for SA have been well documented in plants: the isochorismate(IC)pathway in the chloroplast and the phenylalanine ammonia-lyase(PAL) pathway in the cytosol.However, there has been no solid evidence that the PAL pathway contributes to SA biosynthesis. Here,we report that feeding Arabidopsis thaliana with Ring-¹³C-labeled phenylalanine(¹³C₆     

Intrastriatal Grafting of Cos Cells Stably Expressing Human Aromatic l-Amino Acid Decarboxylase: Neurochemical Effects

Abstract: To study the possibility that increasing striatal activity of aromatic l -amino acid decarboxylase (AADC; EC 4.1.1.28) can increase dopamine production in dopamine denervated striatum in response to l -3,4-dihydroxyphenylalanine ( l -DOPA) administration, we grafted Cos cells stably expressing the human AADC gene (Cos- haadc cells) into 6-hydroxydopamine denervated rat striatum. Before grafting, the catalytic activity of the enzyme was assessed in vitro via the generation of ¹⁴CO₂ from l -[¹⁴C]DOPA. The K _m value for l -DOPA in intact and disrupted cells was 0.60 and 0.56 m M , respectively. The cofactor, pyridoxal 5-phosphate, enhanced enzymatic activity with maximal effect at 0.1 m M . The pH optimum for enzyme activity was 6.8. Grafting Cos- haadc cells into denervated rat striatum enhanced striatal dopamine levels measured after systemic administration of l -DOPA. When measured 2 h after l -DOPA administration, the mean dopamine level in the striata of Cos- haadc -grafted animals was 2 µg/g of tissue, representing 31% of normal striatal dopamine concentration. The mean dopamine concentration in the striata grafted with untransfected Cos cells (Cos-ut cells) was 1 µg/g. At 6–8 h after l -DOPA administration, striatal dopamine content in the Cos- haadc -grafted animals was 0.67 µg/g of tissue weight, representing 9% of intact striatum dopamine content. By contrast, the average dopamine content in the Cos-ut-grafted animals was undetectable. These findings demonstrate that enhancing striatal AADC activity can improve dopamine bioformation in response to systemically administered l -DOPA.     

Carbon and nitrogen partitioning during the post‐anthesis period is conditioned by N fertilisation and sink strength in three cereals

Further knowledge of the processes conditioning nitrogen use efficiency (NUE) is of great relevance to crop productivity. The aim of this paper was characterise C and N partitioning during grain filling and their implications for NUE. Cereals such as bread wheat (Triticum aestivum L. cv Califa sur), triticale (× Triticosecale Wittmack cv. Imperioso) and tritordeum (× Tritordeum Asch. & Graebn line HT 621) were grown under low (LN, 5 mm NH₄NO₃) and high (HN, 15 mm NH₄NO₃) N conditions. We conducted simultaneous double labelling (¹²CO₂ and ¹⁵NH₄¹⁵NO₃) in order to characterise C and N partitioning during grain filling. Although triticale plants showed the largest total and ear dry matter values in HN conditions, the large investment in shoot and root biomass negatively affected ear NUE. Tritordeum was the only genotype that increased NUE in both N treatments (NUE_total), whereas in wheat, no significant effect was detected. N labelling revealed that N fertilisation during post‐anthesis was more relevant for wheat and tritordeum grain filling than for triticale. The study also revealed that the investments of C and N in flag leaves and shoots, together with the ‘waste’ of photoassimilates in respiration, conditioned the NUE of plants, and especially under LN. These results suggest that C and N use by these plants needs to be improved in order to increase ear C and N sinks, especially under LN. It is also remarkable that even though tritordeum shows the largest increase in NUE, the low yield of this cereal limits its agronomic value.     

An enhanced protocol for expression and purification of heat-stable enterotoxin of enterotoxigenic Escherichia coli

We present an improved protocol for expression and purification of heat-stable enterotoxin (STa) of enterotoxigenic Escherichia coli (ETEC). In this protocol, controlled growth conditions at different pHs (7.4, 8.0, and 8.6) were adopted using a bioreactor. In addition, specific adsorbent resins, methacrylate, were used for STa purification. The bioreactor provided optimal ETEC growth at pH 7.4 with high STa production. Furthermore, methacrylate bounded specifically to STa and dramatically enhanced the purification process of STa. The STa-specific activity was high (8.9 × 10(6) units/mg protein), and the minimal effective dose of STa required for production of gut weight to remaining body weight ratio ≥ 0.083 was recorded as less than 0.2 ng in 2-3 days old suckling mice. The protocol presented, produces highly purified STa as documented by matrix-assisted laser desorption ionization-time of flight mass spectroscopy/. Also, as compared with the traditional methods, this procedure is trouble-free and practical for scale-up production and purification of STa peptides.