Are polymorphisms of N-acetyltransferase genes susceptible to primary liver cancer in Luoyang, China?

doi:10.3748/wjg.v11.i10.1457

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Mar 14, 2005 (publication date) through Feb 14, 2025

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World Journal of Gastroenterology

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1007-9327

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Baishideng Publishing Group Inc, 7041 Koll Center Parkway, Suite 160, Pleasanton, CA 94566, USA

Liver Cancer

World J Gastroenterol. Mar 14, 2005; 11(10): 1457-1462
Published online Mar 14, 2005. doi: 10.3748/wjg.v11.i10.1457

Table 1 Primer sequence of NAT1 and NAT2.

Primer	Position	Length (bp)	Primer sequence
NAT1a	10-29	1158	5’-TTAGGAATTCATGGACATTGAAGCATATCTTGAAAGAAT-3’
NAT1b	1127-1148		5’-GCTTTCTAGCATAAATCACCAA -3’
NAT2a	1-30	895	5’-ATGGACATTGAAGCATATTTTGAAAGAATT-3’
NAT2b	867-895		5’-AAGGGTTTATTTTGTTCCTTATTCTAAAT-3’

Table 2 Goodness-of-fit test for Hardy-Weinberg law for genotype frequencies of NAT1 in control group.

Genotypes	Observed number	Expected number
NAT13/ 3	20	11
NAT13/ 4	30	40
NAT13/ 10	15	22
NAT13/ 14B	4	4
NAT14/ 4	50	37
NAT14/ 10	27	39
NAT14/ 14B	5	6
NAT110/ 10	19	10
NAT110/ 14B	4	3
Total	173	173

χ² = 7.24, P>0.05.

Table 3 Goodness-of-fit test for Hardy-Weinberg law for genotype frequencies of NAT2 in control group.

Genotypes	Observed number	Expected number
NAT24/4	100	91
NAT24/6	23	33
NAT24/7	28	34
NAT26/6	6	4
NAT26/7	12	7
NAT27/7	4	4
Total	173	173

χ² = 4.51, P>0.05.

Table 4 Genotype frequencies of NAT1 in case group and control group.

Genotypes	Cases (%)	Controls (%)	Total
NAT13/ 3	4 (4.2)	20 (11.5)	24
NAT13/ 4	24 (25.0)	30 (17.2)	54
NAT13/ 10	3 (3.1)	15 (8.6)	18
NAT13/ 14B	4 (4.2)	4 (2.3)	8
NAT14/ 4	30 (31.3)	50 (28.7)	80
NAT14/ 10	10 (10.4)	27 (15.5)	37
NAT14/ 14B	3 (3.1)	5 (2.9)	8
NAT110/ 10	14 (14.7)	19 (10.9)	33
NAT110/ 14B	4 (4.2)	4 (2.3)	8
Total	96 (100.0)	173 (100.0)	269

χ² = 11.86, P>0.05.

Table 5 Genotype frequencies of NAT2 in case group and control group.

Genotypes	Cases (%)	Controls (%)	Total
NAT24/4	57 (59.4)	100 (57.8)	157
NAT24/6	9 (9.4)	23 (13.3)	32
NAT24/7	15 (15.6)	28 (16.2)	43
NAT26/6	2 (2.1)	6 (3.5)	8
NAT26/7	8 (8.3)	12 (6.9)	20
NAT27/7	5 (5.2)	4 (2.3)	9
Total	96 (100.0)	173 (100.0)	269

χ² = 2.94, P>0.05.

Table 6 Frequency distribution of phenotypes of NAT1 and NAT2 in case and control group.

NAT phenotypes	Cases (%)	Controls (%)	Total
NAT1 rapid acetylator	31 (32.3)	64 (37.0)	95
NAT1 slow acetylator	65 (67.7)	109 (63.0)¹	174
Total	96 (100.0)	173 (100.0)	269
NAT2 rapid acetylator	81 (84.4)	151 (87.3)	232
NAT2 slow acetylator	15 (15.6)	22 (12.7)²	37
Total	96 (100.0)	173 (100.0)	269

¹χ² = 0.598, P>0.05;

²χ² = 0.44, P>0.05.

Table 7 Interaction between occupational exposure and NAT1*10 allele.

Occupationalexposures	*NAT110**	Cases	Controls	OR	95%CI
		51	124	1
	+	11	34	0.79	0.37-1.67
+		15	15	2.43	1.11-5.34
+	+	7	5	3.4	1.03-11.22

χ² = 8.42, P = 0.004.

Table 8 Interaction between NAT2 genotypes and HBV infection.

Genotypes	HBV infection (-)		HBV infection (+)
Genotypes	Cases	Controls	Cases	Controls
NAT24/4	33	100	24	1
NAT24/6	5	24	4	2
NAT24/7	6	28	11	0
NAT26/6	1	5	1	1
NAT27/7	6	4	1	0
NAT26/7	2	8	2	0

HBV infection (): χ² = 8.26, P = 0.143; HBV infection (+): χ² = 11.13, P = 0.049.

Citation: Zhang XF, Bian JC, Zhang XY, Zhang ZM, Jiang F, Wang QM, Wang QJ, Cao YY, Tang BM. Are polymorphisms of N-acetyltransferase genes susceptible to primary liver cancer in Luoyang, China? World J Gastroenterol 2005; 11(10): 1457-1462
URL: https://www.wjgnet.com/1007-9327/full/v11/i10/1457.htm
DOI: https://dx.doi.org/10.3748/wjg.v11.i10.1457