Some aspects of molecular diagnostics in Lynch syndrome

This manuscript is composed of five parts which summarize five publications in succession. Essentially, they are concerned with molecular diagnostics of Lynch syndrome and are based on studies in 238 families. The finding that young age at diagnosis is the key feature in patients with MSH2 and MLH1 mutations (Part 1) has helped to define simple criteria for the preliminary diagnosis of this syndrome. A cheaper method for the detection of mutations has been developed (Part 2) and applied to study the types of mutations and their prevalence in Poland (Part 3) and the Baltic States (Part 4). A specific feature of these mutations, i.e. presence of recurrent mutations in the majority of affected families with mutations, has suggested the feasibility of effective diagnostics with a single test disclosing all of them. An attempt to reveal other causes of familial aggregation of colorectal cancer has ruled out any association with C insertion in the NOD2 gene (Part 5).


A Ab bs st tr ra ac ct t
This manuscript is composed of five parts which summarize five publications in succession. Essentially, they are concerned with molecular diagnostics of Lynch syndrome and are based on studies in 238 families. The finding that young age at diagnosis is the key feature in patients with MSH2 and MLH1 mutations (Part 1) has helped to define simple criteria for the preliminary diagnosis of this syndrome. A cheaper method for the detection of mutations has been developed (Part 2) and applied to study the types of mutations and their prevalence in Poland (Part 3) and the Baltic States (Part 4). A specific feature of these mutations, i.e. presence of recurrent mutations in the majority of affected families with mutations, has suggested the feasibility of effective diagnostics with a single test disclosing all of them. An attempt to reveal other causes of familial aggregation of colorectal cancer has ruled out any association with C insertion in the NOD2 gene (Part 5).
I In nt tr ro od du uc ct ti io on n More than 90 years ago, Warthin described a family in which members from several generations died at a young age because of colorectal cancer (CRC) or carcinoma of the endometrium [1]. The clinical characteristics of this disorder, called hereditary non-polyposis colorectal cancer (HNPCC) or Lynch syndrome, which was the reason for the early dead cases in that family, were shown many years later by Lynch [2]. The members of families with Lynch syndrome are particularly at risk of developing cancers of the colon and endometrium inherited as monogenic disorders with high penetration in an autosomal dominant manner. Today it is well known that this disorder results from a mutation carrier state in one of the mutator genes and can be defined as hereditary deficiency of mismatch repair (MMR) activity. There are at least four genes definitely associated with HNPCC, and these include MLH1 [3], MSH2 [4], MSH6 [5] and PMS2 [6]. Two further genes, MLH3 and PMS1, have also been implicated in HNPCC, but their role is less clear [7][8][9]. The majority of mutations lead to truncation of the encoded protein (based on the Insight database -http://www.insight-group.org/). Usually, pathogenicity of mutations is caused by the loss of an important protein domain or a change of structure in the site of interaction with other mismatch repair proteins. Deficiency of MMR activity manifested as microsatellite instability (MSI) and loss of expression of mutated genes in cancer has been used as a preselective factor in many diagnostic procedures, also investigated by the author [10,11]*.
At first, diagnosis of this syndrome was based mainly on the Amsterdam criteria (Table 1), which were proposed by the International Collaborative Group on HNPCC -ICG-HNPCC [12].
Afterwards, these criteria were expanded [13] by adding cancers characteristic for HNPCC tumours such as: endometrium, small intestine, urinary tract (HNCCP related cancer -HNPCC-rc). Despite all the

Grzegorz Kurzawski
T Ta ab bl le e 1 1. . Diagnostic criteria of HNPCC according to ICG-HNPCC   A Am ms st te er rd da am m c cr ri it te er ri ia a I I  A Am ms st te er rd da am m c cr ri it te er ri ia a I II I Colorectal cancer confirmed histologically in at least three Cancer 1 confirmed histologically in at least three affected relatives, affected relatives, one of whom is a first-degree relative one of whom is a first-degree relative of the other two of the other two At least two first-degree relatives in two successive generations At least two first-degree relatives in two successive generations At least one member diagnosed with colorectal cancer At least one member diagnosed with cancer 1 before age 50 years before age 50 years Familial adenomatous polyposis has been excluded Familial adenomatous polyposis has been excluded 1 colorectal or endometrial or small intestine or urinary tract cancer (HNPCC-related cancers).
modifications, it appears that their sensitivity was not adequate. In a population tested by Syngal et al. [14], 39% of families with MSH2 and MLH1 mutations did not fulfil the Amsterdam criteria. Better criteria, concerning sensitivity, were the Bethesda criteria [15], which were not sufficiently specific. The criticism of the Amsterdam criteria led to the definition of other criteria, which could not be as specific as previous, but which have greater application in practical diagnosis. These criteria, acknowledged by an international group of specialists from ICG-HNPCC, were in year 2000 the Parks criteria (developed by using information about families with mutations detected in the Pomeranian Academy of Medicine in Szczecin) [16]*, which were modified later [17]*. Analysis of information from the literature, related to correlation between occurrence of constitutional mutations in the MSH2 and MLH1 genes, and the clinical and pedigree features, allowed the hypothesis to be made that in families with CRC aggregation unclassified to the Amsterdam criteria prevalence of MSH2 and MLH1 gene mutations is very high and sequencing without any pre-selection can be applied if cancers are diagnosed at early age [14,[18][19][20][21][22]. Analysis of significance of age at cancer diagnosis as a factor allowing identification of a subgroup of patients with a high frequency of MSH2 and MSH1 mutations among families that fulfil suspected HNPCC criteria was performed. In this study frequency of mutation of MSH2 and MLH1 was compared between groups of patients matching the Park I criteria and discriminated by the age of diagnosis. DNA from thirtyone unrelated patients affected by colorectal cancer from families matching the above criteria [16]* (Table 2) was studied by direct sequencing for occurrence of MSH2 and MSH1 gene mutations.
Seven mutations were detected: five in the MLH1 gene and two in the MSH2 gene. All seven mutations were found in a subgroup of 19 patients with cancer diagnosed before the age of 50 years. In a subgroup T Ta ab bl le e 2 2. . Park I criteria for suspected HNPCC families (according to [16]*). At least one item in each category must be met (A or B) and (C or D or E) C Ca at te eg go or ry y I I C Ca at te eg go or ry y I II I A -vertical transmission of colorectal cancer C -multiple colorectal tumours (including polyps) B -at least two siblings affected with colorectal cancer in a family D -at least one colorectal cancer diagnosed before the age of 50 years -E -development of extracolonic cancer (endometrium, small intestine, urinary tract, stomach, hepatobiliary system or ovary) in family members Some aspects of molecular diagnostics in Lynch syndrome of 12 patients with cancer diagnosed at an older age only one case of MLH1 alteration of unknown significance was detected. Our results indicate that early age at cancer diagnosis seems to be a crucial pedigree factor in discrimination of patients with MSH2 or MLH1 mutations among families suspected of HNPCC and matching Park's criteria I. The meaning of criteria of age at diagnosis and presence of at least two cancers diagnosed in first-degree relatives in kindreds was verified on greater genetic material, with cooperation of the Pomeranian Academy of Medicine in Szczecin with German and Danish scientists, entitled: Nuclear Pedigree Criteria of Suspected HNPCC [24]*. That canon has become the main standard, used in daily work with patients suspected of HNPCC. The criteria are summarized in Table 3.
Analysis of families with HNPCC based only on pedigree and clinical criteria is insufficient, because it did not allow definite identification of patients suspected of HNPCC, or eliminate from the group at risk patients without any mutations. Currently, clinical and pedigree criteria are used to pre-select patients diagnosed by molecular diagnostics. The most sensitive mutation detection technique is considered to be direct sequencing. The first mutations in Polish families with HNPCC [26,27]* were detected by the mentioned technique in the Pomeranian Academy of Medicine, Szczecin, Poland. However, sequencing of MLH1 and MSH2 genes is technically demanding, timeconsuming and expensive for Polish economic conditions. Reduction of costs was possible by using a cheaper screening method to detect changes in DNA and reduce DNA sequencing only to confirm this. The Pomeranian Academy of Medicine in Szczecin initially tried to obtain some savings using single-strand conformation polymorphism (SSCP). Unfortunately these techniques were not sensitive enough to detect mutations as well as direct sequencing. Also the trial of reduction of cost by sequencing cDNA obtained by reverse transcription of DNA to detect mutations [28]* turned out not to be sufficiently helpful in practice. The main reason for that was the difficulty in organization to achieve suitable quality of material to isolate RNA.
Studies show very high sensitivity of denaturing high-performance liquid chromatography (DHPLC) in detection of mutations of different genes [29], which leads us in the current paper to make an attempt to develop an economical version of this method, in relation to MLH1 and MSH2 -the main genes connected with HNPCC. It was based on establishing of optimal terms of chromatographic development: the temperature and gradient profile for 36 amplicons of MLH1 and MSH2 genes. We investigated the sensitivity and specificity of DHPLC analysis for the detection of mutations. For the studies we took 46 patients with CRC from families with HNPCC. 19 patients had previously been identified by DNA sequencing. In 27 patients (who had not previously been tested) 16 rare changes were detected, including 4 mutations not described earlier in other populations. Generally, we did not observe false positive or false negative results. Elution profiles were highly characteristic for a given change and in 98.5% of cases allowed the distinction between novel alterations and previously identified mutations and polymorphisms. For the detection of changes in almost all amplicons, it was sufficient to use just one denaturing temperature. Results of this study support that DHPLC is a highly sensitive, specific and cost-effective technique with a particularly high potential for diagnostic laboratories involved in the identification of MSH2 and MLH1 gene mutations.  Europe and one of the biggest in the whole world) DNA was extracted directly from blood leukocytes. To confirm some mutations, RNA-sequencing and tissues from paraffin block were also used. RNA-sequencing template was used for patients with deletions detected by the MLPA assay of genomic DNA. Some of the mutations were confirmed by immunohistochemical staining of tumour tissues. For the studies we took unrelated patients from families matching the Amsterdam II criteria or at least our modified criteria (Table 3). Patients used for this study were ascertained from the following regions: Bia³ystok -2, Bydgoszcz -9, Bytom -2, Gdañsk -10, Gliwice -1, Gorzów -3, Jelenia Góra -1, Kielce -18, Koszalin -4, Kraków -7, Legnica -4, Lublin -4, £ódŸ -3, Olsztyn -27, Opole -6, Poznañ -13, Rzeszów -2, Szczecin -71, OEwidnica -7, OEwinoujoecie -1, Warszawa -3, Wroc³aw -16 and Zielona Góra -12.
This study was approved by the Institutional Human Ethics Review committee of the Pomeranian Medical University.
Twenty-four mutations have not been described earlier in other populations. Among 78 families with MLH1 and MSH2 mutations, 54 (69.2%) were affected by recurrent mutations including 38 found at least twice in our own series. Two of the most frequent alterations were a substitution of A to T at the splice donor site of intron 5 of MSH2, which is the most common mutation in the world connected with HNPCC [45], and a missense change (A681T) of MLH1 found in 10 and 8 families, respectively.
Using MLPA analyses revealed 7 patients with 6 different deletions. This equates to almost 10% of probands with identifiable MSH2 and MLH1 mutations. Five different deletions were detected in MSH2. Two of these showed loss of single exon 9, which is located between two large introns.
Our results indicate that a screening protocol that is limited to the detection of all reported mutations will result in the identification of the majority of changes present in MLH1 and MSH2 genes in Polish HNPCC kindreds. Genetic disease shows population distinctiveness at a molecular and clinical level. However, some changes are recurrent and are described as founder mutations in particular populations. To develop efficient DNA testing, it is important to describe the nature and frequency of mutations that are characteristic of particular ethnic groups. The MSH2 and MLH1 mutation spectrum has been investigated in the Eastern Europe region by the author in a paper from 2002 [46]*. We screened 101 HNPCC kindreds fulfilling the Amsterdam II diagnostic criteria or our suspected HNPCC criteria ( Table 3). The results concerning 89 Polish families were described in Part 3 of the current paper. Also there were 12 families tested, 6 from Lithuania, 3 from Latvia and 3 from Estonia. Among patients from the Baltic States, there were found two mutations and one change suspected of pathogenic character. Two of the most frequent mutations identified in Poland were also found in Lithuanian families, suggesting a common history. Poland and the Baltic States may have more common mutations than reported here since the number of samples from Estonia, Latvia and Lithuania were too small to make the appropriate comparisons.
In summary, it seems likely that the MSH2 and MLH1 changes described here are representative of the majority of HNPCC mutations in families from this region. Therefore, we believe it is justified to develop a DNA testing strategy based on the preferential analysis of changes identified from this population.   Lynch syndrome generally results from a mutation carrier state in MSH2 or MLH1 genes. Occasionally, similar clinical and pedigree characteristics may be due to mutations in a variety of other genes, including APC [48], TGFbRII [49], CDH1 [50], EXO1 [51] and MYH [52]. With rare exceptions (EXOI), tumours from such families do not display MSI. Since mutations in the NOD2 gene were associated with Crohn's disease (CD) and a risk of colorectal cancer was suggested to be increased in this disorder [53], the author has made an attempt to answer the question whether the carrier state of insertion C could imitate clinical-pedigree characteristics of HNPCC.
The NOD2 gene comprises 12 exons and encodes a protein of 1040 amino acids [54]. The predicted motifs encoded by the NOD2 gene suggest that it is involved in the dysregulation of immune function by either affecting a change in the detection or binding of bacterial proteins and/or impaired nuclear factor -kB [55] signalling. Recently, three common variants have been identified that have been associated with an increased likelihood of CD, two of which are missense changes, and one an insertion mutation. The insertion mutation 3020insC has been shown, when inherited in the homozygous state, to be associated with an almost 20-fold risk of developing CD, whereas if present in the heterozygous state, it increases risk by ~3-fold [56].
The following groups of patients were taken for the studies: • 156 patients with CRC matching the AMS II criteria or criteria of suspected HNPCC used in our centre but without MSH2 or MLH1 constitutional mutations; • 250 consecutive patients with CRC diagnosed after 50 years of age from families without any clinical and pedigree features, leading to diagnosis of HNPCC definitely or with high probability; • 50 consecutive patients with CRC diagnosed before 50 years of age from families without any clinical and pedigree features, leading to diagnosis of HNPCC definitely or with high probability; • 100 CRC patients from the genetic counselling unit (of the International Hereditary Cancer Centre in Szczecin) from families where there were at least two other malignancies diagnosed on the same side of the family that confirmed an undefined cancer family aggregation; • 300 consecutive newborns from the clinical hospitals of Szczecin.
DNA samples were obtained from the peripheral blood of CRC patients or from umbilical cord blood of newborns. The method described by Ogura [54] was used to identify the 3020insC alteration. The sequences of the PCR products were confirmed by DNA sequencing.
There was no association between carrier-state of 3020insC and prevalence aggregation of malignant adenoma (HNPCC and CFA) and with predisposition to CRC before 50 years of age. In contrast, frequency of that variant was considerably higher in the group of patients with CRC (n=250) diagnosed over 50 years of age than in the group of newborns (OR=2.23; p=0.0046).
The results of the study show that DNA tests detecting the 3020insC mutation can be used to detect increased predisposition to CRC in a group of patients diagnosed after 50 years of age, who came from families without pedigree and clinical characteristics, allowing unequivocal identification of diseases or high probability of it.
S Su um mm ma ar ri iz za at ti io on n o of f r re es su ul lt ts s Poland have been found also in Lithuania. 5. The frequency of NOD2 3020insC gene variant in families with HNPCC without mutation in MLH1 and MSH2 genes, was not increased. The 3020insC variant in CRC patients diagnosed above the age of 50 was found twice as frequently as in control group.
H He er re ed di it ta ar ry y C Ca an nc ce er r i in n C Cl li in ni ic ca al l P Pr ra ac ct ti ic ce e 2006; 4(4)