Institute of Veterinary Physiology, Freie Universität Berlin, Berlin, Germany.
PerformaNat GmbH, Berlin, Germany.
Acta Physiol (Oxf). 2021 Sep;233(1):e13694. doi: 10.1111/apha.13694. Epub 2021 Jun 7.
Absorption of ammonia from the gut has consequences that range from encephalitis in hepatic disease to global climate change induced by nitrogenous excretions from livestock. Since patch clamp data show that certain members of the transient receptor potential (TRP) family are permeable to NH , participation in ammonium efflux was investigated.
Digesta, mucosa and muscular samples from stomach, duodenum, jejunum, ileum, caecum and colon of pigs were analysed via colourimetry, qPCR, Western blot, immunohistochemistry and Ussing chambers.
qPCR data show high duodenal expression of TRPV6. TRPM6 was highest in jejunum and colon, with expression of TRPM7 ubiquitous. TRPM8 and TRPV1 were below detection. TRPV2 was highest in the jejunum but almost non-detectable in the colon. TRPV4 was ubiquitously expressed by mucosal and muscular layers. TRPV3 mRNA was only found in the mucosa of the caecum and colon, organs in which NH was highest (>7 mmol·L ). Immunohistochemically, an apical expression of TRPV3 and TRPV4 could be detected in all tissues, with effects of 2-APB and GSK106790A supporting functional expression. In symmetrical NaCl Ringer, removal of mucosal Ca and Mg increased colonic short circuit current (I ) and conductance (G ) by 0.18 ± 0.06 µeq·cm ·h and 4.70 ± 0.85 mS·cm (P < .05, N/n = 4/17). Application of mucosal NH Cl led to dose-dependent and divalent-sensitive increases in G and I , with effects highest in the caecum and colon.
We propose that TRP channels contribute to the intestinal transport of ammonium, with TRPV3 and TRPV4 promising candidate proteins. Pharmacological regulation may be possible.
肠道吸收氨可导致多种后果,从肝脏疾病导致的脑炎到牲畜氮排泄引起的全球气候变化。由于膜片钳数据显示某些瞬时受体电位 (TRP) 家族成员可通透 NH ,因此研究了它们在铵流出中的作用。
通过比色法、qPCR、Western blot、免疫组织化学和 Ussing 室分析来自猪胃、十二指肠、空肠、回肠、盲肠和结肠的消化物、黏膜和肌肉样本。
qPCR 数据显示十二指肠 TRPV6 表达较高。TRPM6 在空肠和结肠中表达最高,TRPM7 表达广泛。TRPM8 和 TRPV1 检测不到。TRPV2 在空肠中表达最高,但在结肠中几乎检测不到。TRPV4 黏膜和肌层均有表达。TRPV3 mRNA 仅在盲肠和结肠的黏膜中发现,这些器官中 NH 的含量最高(>7mmol·L )。免疫组织化学检测到所有组织均有 TRPV3 和 TRPV4 的顶端表达,2-APB 和 GSK106790A 的作用支持功能性表达。在对称的 NaCl Ringer 中,去除黏膜 Ca 和 Mg 可使结肠短路电流 (I ) 和电导率 (G ) 分别增加 0.18±0.06 µeq·cm ·h 和 4.70±0.85 mS·cm(P<0.05,N/n=4/17)。黏膜 NH Cl 的应用导致 G 和 I 呈剂量依赖性和二价敏感性增加,在盲肠和结肠中作用最大。
我们提出 TRP 通道有助于肠道中铵的转运,TRPV3 和 TRPV4 是有前途的候选蛋白。可能进行药理学调节。
