Lactic Secretion Research Articles

O012 The role of the anti-miR-135/Spock1 axis on metabolism and drug response in intestinal/colon tumour organoids

Abstract Introduction Little is known about the role of microRNAs (miRNAs) in rewiring the metabolism within tumours and adjacent non-tumour bearing normal tissue and their potential in cancer therapy. This study aimed to investigate the relationship between deregulated miRNAs and metabolic components in murine duodenal polyps and non-polyp-derived organoids (mPOs and mNPOs) from a double mutant Apc/Fbxw7 mouse model of intestinal/colorectal cancer (CRC). Methods We measured glucose consumption and lactate production, and analysed the expression of 373 miRNAs and 12 metabolic genes using qRT-PCR and Western blotting in mPOs and mNPOs. The overexpressed miRNAs systematically target metabolic genes explored by the TargetScan web server. Organoid viability was assessed using MTT and Sulforhodamine-B (SRB) colorimetric assays. Results The tumour and adjacent non-tumour organoids showed differential metabolic activity. mPOs showed elevated lactate and consumption of glucose in the medium. Murine Apc/Fbxw7 duodenal polyp-derived organoids mimicked colorectal cancer patient-derived organoids. Our findings revealed miR-135b might target Spock1. Upregulation of SPOCK1 correlated with advanced stages of CRCs. Knockdown of miR-135b decreased the expression level of SPOCK1, glucose consumption and lactic secretion in CRC patient-derived tumours organoids (CRC tPDOs). Increased SPOCK1 induced by miR-135b overexpression promoted the Warburg effect and consequently antitumour effect of 5-fluorouracil. Conclusion Combination with miR-135b antisense nucleotides may represent a novel strategy to sensitise CRC to the chemo-reagent based treatment. Take-home message Our data highlight the therapeutic potential of targeting miR-135/SPOCK1 to enhance the treatment of colorectal cancer.

Anti-miR-135/SPOCK1 axis antagonizes the influence of metabolism on drug response in intestinal/colon tumour organoids

Little is known about the role of microRNAs (miRNAs) in rewiring the metabolism within tumours and adjacent non-tumour bearing normal tissue and their potential in cancer therapy. This study aimed to investigate the relationship between deregulated miRNAs and metabolic components in murine duodenal polyps and non-polyp-derived organoids (mPOs and mNPOs) from a double-mutant ApcMinFbxw7∆G mouse model of intestinal/colorectal cancer (CRC). We analysed the expression of 373 miRNAs and 12 deregulated metabolic genes in mPOs and mNPOs. Our findings revealed miR-135b might target Spock1. Upregulation of SPOCK1 correlated with advanced stages of CRCs. Knockdown of miR-135b decreased the expression level of SPOCK1, glucose consumption and lactic secretion in CRC patient-derived tumours organoids (CRC tPDOs). Increased SPOCK1 induced by miR-135b overexpression promoted the Warburg effect and consequently antitumour effect of 5-fluorouracil. Thus, combination with miR-135b antisense nucleotides may represent a novel strategy to sensitise CRC to the chemo-reagent based treatment.

Perfil da contagem de células somáticas na infecção intramamária em búfalas na Região Nordeste do Brasil

Objetivou-se com esse estudo avaliar o perfil de células somáticas na mastite subclínica em búfalas leiteiras no Nordeste do Brasil. Foram analisadas 1896 amostras de leite de 474 búfalas procedentes de quatro propriedades de exploração leiteira nos Estados de Pernambuco, Alagoas, Bahia e Ceará. A secreção láctea de cada teto foi submetida ao Califórnia Mastitis Test (CMT) e as amostras positivas, a partir de duas cruzes foram coletadas para realização da contagem de células somáticas (CCS) e exame microbiológico. Observou-se que as amostras positivas no exame microbiológico apresentaram CCS entre 280.000 a 401.000 cel/mL com mediana de 328.000 cel/mL. Conclui-se que valores de CCS acima de 280.000 cel/mL é um indicativo de infecção da glândula mamária, contudo o exame microbiológico do leite é o melhor método para diagnóstico da mastite subclínica em búfalas. A observação dos Staphylococcus coagulase negativa exercendo influência na elevação da CCS deve ser objeto de outros estudos para elucidar a patogenicidade desse grupo de microrganismos na mastite de búfalas.