División de Neurociencias, Departamento de Neuropatología Molecular, Instituto de Fisiología Celular, Universidad Nacional Autónoma de México, México, DF, México.
Int J Cancer. 2012 May 1;130(9):2013-23. doi: 10.1002/ijc.26210. Epub 2011 Aug 12.
Functional activity of voltage-gated sodium channels (VGSC) has been associated to the invasion and metastasis behaviors of prostate, breast and some other types of cancer. We previously reported the functional expression of VGSC in primary cultures and biopsies derived from cervical cancer (CaC). Here, we investigate the relative expression levels of VGSC subunits and its possible role in CaC. Quantitative real-time PCR revealed that mRNA levels of Na(V) 1.6 α-subunit in CaC samples were ∼40-fold higher than in noncancerous cervical (NCC) biopsies. A Na(V) 1.7 α-subunit variant also showed increased mRNA levels in CaC (∼20-fold). All four Na(V) β subunits were also detected in CaC samples, being Na(V) β1 the most abundant. Proteins of Na(V) 1.6 and Na(V) 1.7 α-subunits were immunolocalized in both NCC and CaC biopsies and in CaC primary cultures as well; however, although in NCC sections proteins were mainly relegated to the plasma membrane, in CaC biopsies and primary cultures the respective signal was stronger and widely distributed in both cytoplasm and plasma membrane. Functional activity of Na(V) 1.6 channels in the plasma membrane of CaC cells was confirmed by whole-cell patch-clamp experiments using Cn2, a Na(V) 1.6-specific toxin, which blocked ∼30% of the total sodium current. Blocking of sodium channels VGSC with tetrodotoxin and Cn2 did not affect proliferation neither migration, but reduced by ∼20% the invasiveness of CaC primary culture cells in vitro assays. We conclude that Na(V) 1.6 is upregulated in CaC and could serve as a novel molecular marker for the metastatic behavior of this carcinoma.
电压门控钠离子通道(VGSC)的功能活动与前列腺癌、乳腺癌和其他一些类型癌症的侵袭和转移行为有关。我们之前报道了 VGSC 在宫颈癌(CaC)原代培养物和活检组织中的功能表达。在这里,我们研究了 VGSC 亚基的相对表达水平及其在 CaC 中的可能作用。定量实时 PCR 显示,CaC 样本中 Na(V) 1.6 α亚基的 mRNA 水平比非癌性宫颈(NCC)活检高约 40 倍。Na(V) 1.7 α亚基的一种变体在 CaC 中也显示出 mRNA 水平的增加(约 20 倍)。所有四个 Na(V) β亚基也在 CaC 样本中被检测到,其中 Na(V) β1 最为丰富。Na(V) 1.6 和 Na(V) 1.7 α亚基的蛋白在 NCC 和 CaC 活检组织以及 CaC 原代培养物中均被免疫定位;然而,尽管在 NCC 切片中,蛋白主要局限于质膜,但在 CaC 活检和原代培养物中,相应的信号更强,并广泛分布于细胞质和质膜中。使用 Cn2(一种 Na(V) 1.6 特异性毒素)进行全细胞膜片钳实验证实了 Na(V) 1.6 通道在 CaC 细胞质膜中的功能活性,该毒素阻断了约 30%的总钠电流。使用河豚毒素和 Cn2 阻断 VGSC 钠通道并不影响增殖或迁移,但减少了 CaC 原代培养细胞在体外侵袭实验中的侵袭性约 20%。我们得出结论,Na(V) 1.6 在 CaC 中上调,可能成为这种癌转移行为的新的分子标志物。
