Molecularly determined total tumour load in lymph nodes of stage I–II colon cancer patients correlates with high-risk factors. A multicentre prospective study

Stage I–II (pN0) colorectal cancer patients are surgically treated although up to 25 % will eventually die from disease recurrence. Lymph node (LN) status is an independent prognostic factor in colorectal cancer (CRC), and molecular tumour detection in LN of early-stage CRC patients is associated with an increased risk of disease recurrence and poor survival. This prospective multicentre study aimed to determine the relationship between LN molecular tumour burden and conventional high-risk factors in stage I–II colon cancer patients. A total of 1940 LN from 149 pathologically assessed pN0 colon cancer patients were analysed for the amount of tumour cytokeratin 19 (CK19) messenger RNA (mRNA) with the quantitative reverse transcription loop-mediated isothermal amplification molecular assay One-Step Nucleic Acid Amplification. Patient’s total tumour load (TTL) resulted from the sum of all CK19 mRNA tumour copies/μL of each positive LN from the colectomy specimen. A median of 15 LN were procured per case (IQR 12;20). Molecular positivity correlated with high-grade (p < 0.01), mucinous/signet ring type (p = 0.017), male gender (p = 0.02), number of collected LN (p = 0.012) and total LN weight per case (p < 0.01). The TTL was related to pT stage (p = 0.01) and tumour size (p < 0.01) in low-grade tumours. Multivariate logistic regression showed independent correlation of molecular positivity with gender, tumour grade and number of fresh LN [AUC = 0.71 (95 % CI = 0.62–0.79)]. Our results show that lymph node CK19 mRNA detection correlates with classical high-risk factors in stage I–II colon cancer patients. Total tumour load is a quantitative and objective measure that may help to better stage early colon cancer patients.Work supported by the Banc de Tumors-Biobanc Hospital Clinic-IDIBAPS and Xarxa de Bancs de Tumors de Catalunya (XBTC), and by grants from the Fundación Científica de la Asociación Española Contra el Cáncer (GCB13131592CAST), Ministerio de Economía y Competitividad (SAF2014–54,453-R), Agència de Gestió d’Ajuts Universitaris i de Recerca (2014SGR135), and by Sysmex Coorp Spain (Sant Just Desvern, Spain). CIBERehd is funded by the Instituto de Salud Carlos II

Overexpression. of dehydrin tas14 gene improves the osmotic stress imposed by drought and salinity in tomato

[EN] One strategy to increase the level of drought and salinity tolerance is the transfer of genes codifying different types of proteins functionally related to macromolecules protection, such as group 2 of late embryogenesis abundant (LEA) proteins or dehydrins. The TAS14 dehydrin was isolated and characterized in tomato and its expression was induced by osmotic stress (NaCl and mannitol) and abscisic acid (ABA) [Godoy et al., Plant Mol Biol 1994;26:1921-1934], yet its function in drought and salinity tolerance of tomato remains elusive. In this study, transgenic tomato plants overexpressing tas14 gene under the control of the 35SCaMV promoter were generated to assess the function of tas14 gene in drought and salinity tolerance. The plants overexpressing tas14 gene achieved improved long-term drought and salinity tolerance without affecting plant growth under non-stress conditions. A mechanism of osmotic stress tolerance via osmotic potential reduction and solutes accumulation, such as sugars and K+ is operating in tas14 overexpressing plants in drought conditions. A similar mechanism of osmotic stress tolerance was observed under salinity. Moreover, the overexpression of tas14 gene increased Na+ accumulation only in adult leaves, whereas in young leaves, the accumulated solutes were K+ and sugars, suggesting that plants overexpressing tas14 gene are able to distribute the Na+ accumulation between young and adult leaves over a prolonged period in stressful conditions. Measurement of ABA showed that the action mechanism of tas14 gene is associated with an earlier and greater accumulation of ABA in leaves during short-term periods. A good feature for the application of this gene in improving drought and salt stress tolerance is the fact that its constitutive expression does not affect plant growth under non-stress conditions, and tolerance induced by overexpression of tas14 gene was observed at the different stress degrees applied to the long term. (C) 2011 Elsevier GmbH. All rights reserved.This work was supported by the Spanish Ministry of Science and Innovation through grant AGL2009-13388-C03 and by the Council of Science and Technology from the Region of Murcia (Spain) (Fundacion SENECA) through grant 04553/GERM/06.Muñoz Mayor, A.; Pineda Chaza, BJ.; García Abellán, JO.; Antón Martínez, MT.; García Sogo, B.; Sánchez Bel, P.; Flores, FB.... (2012). Overexpression. of dehydrin tas14 gene improves the osmotic stress imposed by drought and salinity in tomato. Journal of Plant Physiology. 169(5):459-468. https://doi.org/10.1016/j.jplph.2011.11.018S459468169

A urease inhibitor reduces ammonia emission in fattening pigs reared on slatted floor in summer conditions

[EN] A urease inhibitor was tested in a naturally ventilated pig farm in summer conditions. In-time evaluation and case-control approach were used to assess the mitigation potential. Urease inhibitor reduced ammonia emission by 29%. Response time of ammonia abatement after application was quantified. Intensive pig farming is a main contributor to ammonia (NH3) emissions. Urease inhibitors block the conversion of the excreted urea into ammonium and may reduce effectively these emissions at the housing level. This study evaluated the effect of applying a urease inhibitor in a naturally ventilated and fully slatted pig house. Emissions were compared using two approaches: in-time evaluation and case-control approach. Two identical rooms in size and management were used in this experiment. Seventy growing pigs of 70 kg weight were placed in each room. One room was treated with the urease inhibitor EBN (based on phosphorodiamidate) during 12 days (treatment phase) at a rate of 0.17 mL m¿2 day¿1. The study also included a pre-treatment phase of 2 days and a post-treatment phase of 15 days. Temperature and concentrations of NH3 and carbon dioxide (CO2) were recorded every 2 min, and then aggregated on an hourly basis. Natural ventilation rate was calculated using the CO2 balance method. The case-control approach showed more reliable results since only two days were available for the in-time approach. On average, emissions were reduced by 29% over the treatment phase. After each application, the maximum abatement potential was found between 4 and 14 h after application of the inhibitor. This study was conducted under specific farm and climate conditions. More studies are needed to confirm the abatement potential in a wider rangeThis study was funded by Fondo de Inversiones de Teruel.Calvet, S.; Arrufat, B.; Salaet, I.; Atares, S.; Sobreviela, A.; Herrero, C.; Romero, J.... (2022). A urease inhibitor reduces ammonia emission in fattening pigs reared on slatted floor in summer conditions. Biosystems Engineering. 221:43-53. https://doi.org/10.1016/j.biosystemseng.2022.06.009435322