Jackson P E, Hall C N, Badawi A F, O'Connor P J, Cooper D P, Povey A C
Cancer Research Campaign Department of Carcinogenesis, Paterson Institute for Cancer Research, Manchester, United Kingdom.
Mol Carcinog. 1996 May;16(1):12-9. doi: 10.1002/(SICI)1098-2744(199605)16:1<12::AID-MC3>3.0.CO;2-Q.
Most human colorectal cancers arise through the accumulation of a series of genetic alterations such as point mutations within the Ki-ras and p53 genes, but the chemical carcinogens that may be implicated in these events are still unidentified. In a previous study, we showed that DNA from human colorectal tissue contained O6-methyldeoxyguanosine (O6-MedG), a promutagenic lesion arising from exposure to as yet unidentified methylating agents. To address whether such exposure may result in oncogene activation in human colorectal tumors, we examined another series of paired normal and tumor DNA samples from the lower intestinal tract for the presence of O6-MedG in DNA (as a marker of exposure) and for mutations within the Ki-ras gene. After isolation by high pressure liquid chromatography, O6-MedG was quantified by a radioimmunoassay with a limit of detection of 0.01 mumol O6-MedG/mol dG. The frequencies of methylation were 33%, 52%, and 48% for normal DNA and 58%, 32%, and 63% for tumor DNA isolated from the cecum, sigmoid colon, and rectum, respectively. Overall, 35% of the individuals had no detectable O6-MedG in the DNA from both their tumor and normal tissue. Ki-ras mutations were initially identified by a restriction site mutation assay and then sequenced to ascertain the mutations thus detected. The frequencies of mutations in tumor DNA isolated from the cecum, sigmoid colon, and rectum were 28%, 29%, and 42%, respectively. DNA isolated from macroscopically normal tissue was found to contain Ki-ras mutations in 14% of sigmoid colon samples and 12% of rectal samples. Most base mutations were in codon 12 (72%), and 64% were GC-->AT transitions: 28% and 8% were GC-->TA and CG-->CG transversions, respectively. All mutations were at the second base of either codon 12 or codon 13 except for a single GC-->TA transversion at the first base of codon 13 in a rectal tumor sample. There was no association between the presence of O6-MedG in DNA from either normal or tumor tissue or both normal and tumor tissue and the incidence of Ki-ras mutations or GC-->AT transitions in mutated Ki-ras genes. It remains to be determined, however, whether there is a relationship between methylating-agent exposure and Ki-ras mutations, as (i) the presence of O6-MedG in colorectal DNA in these samples may not represent the exposure when Ki-ras mutational activation was occurring (i.e., at some unknown time in the past), (ii) interindividual differences in repair-enzyme activity may alter susceptibility to a mutational event after exposure, (iii) the predominant mutagen in the colon and rectum may not be a methylating agent (e.g., nitric oxide), and (iv) exposure to methylating agents need not result in oncogene activation in human tissues but may perhaps promote the emergence of the mutator phenotype.
大多数人类结直肠癌是通过一系列基因改变的积累而发生的,比如Ki-ras和p53基因内的点突变,但可能与这些事件有关的化学致癌物仍未明确。在之前的一项研究中,我们发现人类结肠组织的DNA中含有O6-甲基脱氧鸟苷(O6-MedG),这是一种由接触尚未明确的甲基化剂而产生的促突变损伤。为了探讨这种接触是否会导致人类结肠肿瘤中的癌基因激活,我们检测了另一组来自下肠道的配对正常和肿瘤DNA样本,以检测DNA中O6-MedG的存在情况(作为接触的标志物)以及Ki-ras基因内的突变情况。通过高压液相色谱分离后,用放射免疫分析法对O6-MedG进行定量,检测限为0.01 μmol O6-MedG/mol dG。从盲肠、乙状结肠和直肠分离的正常DNA的甲基化频率分别为33%、52%和48%,肿瘤DNA的甲基化频率分别为58%、32%和63%。总体而言,35%的个体在其肿瘤和正常组织的DNA中均未检测到可检测水平的O6-MedG。Ki-ras突变最初通过限制性位点突变分析进行鉴定,然后进行测序以确定所检测到的突变。从盲肠、乙状结肠和直肠分离的肿瘤DNA中的突变频率分别为28%、29%和42%。在宏观上正常的组织中分离的DNA,在14%的乙状结肠样本和12%的直肠样本中发现含有Ki-ras突变。大多数碱基突变位于密码子12(72%),64%为GC→AT转换:分别有28%和8%为GC→TA和CG→CG颠换。除了一个直肠肿瘤样本中密码子13的第一个碱基发生的单个GC→TA颠换外,所有突变均发生在密码子12或密码子13的第二个碱基。无论是正常组织还是肿瘤组织或两者的DNA中O6-MedG的存在与Ki-ras突变的发生率或突变的Ki-ras基因中的GC→AT转换之间均无关联。然而,甲基化剂接触与Ki-ras突变之间是否存在关系仍有待确定,原因如下:(i)这些样本中结肠DNA中O6-MedG的存在可能并不代表Ki-ras突变激活发生时(即过去某个未知时间)的接触情况;(ii)个体间修复酶活性的差异可能会改变接触后对突变事件的易感性;(iii)结肠和直肠中的主要诱变剂可能不是甲基化剂(例如一氧化氮);(iv)接触甲基化剂不一定会导致人类组织中的癌基因激活,但可能会促进突变体表型的出现。
