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Abstrak :
Metilasi DNA merupakan perubahan epigenetik yang umum terjadi sebagai penyebab inaktivasi gen pada tumor suppressor genes (TSGs). Metilasi pada promoter TSG memiliki asosiasi dengan pembentukan kanker tiroid. Metode methylation-specific multiplex ligation dependent-probe amplification (MS-MLPA) merupakan salah satu metode berbasis PCR yang dapat melakukan identifikasi metilasi pada beberapa gen dan analisis copy number variant secara simultan. Tujuan dari penelitian ini adalah untuk mengoptimasi metode MS-MLPA dan mengidentifikasi metilasi TSG pada kanker tiroid dengan metode MS-MLPA. Sebanyak 40 sampel fine needle aspiration biopsy (FNAB) dikumpulkan secara retrospektif di Rumah Sakit Kanker Dharmais. Sampel FNAB berasal dari pasien yang memiliki kelainan nodul tiroid. Metilasi TSG dianalisis dengan metode MS-MLPA menggunakan probemix Tumour Suppressor Mix 1 ME001-C2 (MRC-Holland). Sampel FNAB dibandingkan dengan reference sample berupa sampel darah yang berasal dari individu sehat. Penelitian ini berhasil mengoptimasi metode MS-MLPA dan mendeteksi metilasi pada 4 jenis tumor suppressor genes, yaitu gen RASSF1A, gen CASP8, gen FHIT, dan gen CHFR. Hasil identifikasi menunjukkan bahwa terdapat 20 sampel tumor ganas dan 2 sampel tumor jinak mengalami metilasi. ......DNA methylation is a common epigenetic change that causes gene inactivation in tumor suppressor genes (TSGs). TSGpromoter methylation has an association with the formation of thyroid cancer. Methylation-specific multiplex ligation-dependent probe amplification (MS-MLPA) is a PCR-based method that can identify methylation in several genes and copy number variant simultaneously. The aim of this study is to optimize methylation-specific multiplex ligation-dependent probe amplification (MS-MLPA) and to identify tumor suppressor genes methylation of thyroid cancer using MS-MLPA. Retrospectively 40 Fine Needle Aspiration Biopsy samples were collected in Dharmais Cancer Hospital. FNAB samples were collected from patients with thyroid nodules abnormalities. Tumor suppressor genes methylation were analyzed using Tumour Suppressor Mix 1 ME001-C2 probemix (MRC-Holland) as MS-MLPA reagents. FNAB samples were compared with reference sample from blood that were collected from healthy people. This study has successfully optimizing MS-MLPA method and detecting 4 methylated tumor suppressor genes, RASSF1A, CAPS8, FHIT and CHFR. Methylation identification shows 20 malignant histopathology samples and 2 benign histopathology samples were methylated.

Abstrak :
Metilasi DNA merupakan salah satu penyebab umum inaktivasi Mismatch Repair Gene (MMR). Gen MMR memperbaiki kesalahan penyisipan/penghapusan basa nukleotida pada proses sintesis DNA. Metilasi pada promoter gen MMR memiliki asosiasi dengan pembentukan kanker kolon, sehingga metilasi tersebut perlu diidentifikasi. Identifikasi gen MMR dapat dilakukan menggunakan teknik methylation-specific multiplex ligation-dependent probe amplification amplification (MS-MLPA). Prinsip dari teknik MS-MLPA yaitu amplifikasi probe yang menempel pada sekuens termetilasi. Tujuan dari penelitian ini yaitu untuk mengoptimasi teknik MS-MLPA dan mengidentifikasi metilasi gen MMR pada kanker kolon dengan teknik MS-MLPA. Penelitian ini menggunakan 27 sampel jaringan frozen kanker kolon yang telah tersedia di Biobank Rumah Sakit Kanker Dharmais (RSKD). Sampel tersebut dianalisis menggunakan probemix Mismatch Repair Gene [ME011-C1][C1-0518] yang telah didesain khusus untuk mendeteksi pada beberapa gen MMR yakni MLH1, PMS2, MSH6, dan MSH2. Hasil penelitian menunjukkan optimasi teknik MS-MLPA telah berhasil dilakukan, sehingga identifikasi metilasi pada gen MMR telah berhasil diperoleh pada 4 sampel pasien. Gen MMR tersebut yakni MLH1 dan MSH6, dengan persentase masing-masing 75% dan 25%. ......DNA methylation is one of the most common causes of mismatch repair gene (MMR) inactivation. The MMR gene corrects errors in the insertion/deletion of nucleotide bases in the DNA synthesis process. MMR gene promoter methylation has an association with the formation of colon cancer, so the methylation needs to be identified. Identification of the MMR gene can be done using the methylation-specific multiplex ligation-dependent probe amplification (MS-MLPA) technique. The principle of the MS-MLPA technique is the amplification of the probe attached to the methylated sequence. The purpose of this study was to optimize the MS-MLPA technique and identify MMR gene methylation in colon cancer using the MS-MLPA technique. This study used 27 samples of frozen colon cancer tissue that were available at the Dharmais Cancer Hospital Biobank (RSKD). The samples were analyzed using the Mismatch Repair Gene probemix [ME011-C1][C1-0518] which has been specially designed to detect several MMR genes, namely MLH1, PMS2, MSH6, and MSH2. The results show that the optimization of the MS-MLPA technique has been successfully carried out, so that the identification of methylation in the MMR gene has been successfully obtained in 4 patient samples. The MMR genes are MLH1 and MSH6, with a percentage of 75% and 25%, respectively. analyzed using probemix Mismatch Repair Gene [ME011-C1][C1-0518] which has been specifically designed to detect several MMR genes namely MLH1, PMS2, MSH6, and MSH2. The results showed that the optimization of the MS-MLPA technique was successful, so that identification of the methylation in the MMR gene was successfully obtained in 4 patient samples. The MMR genes are MLH1 and MSH6, with percentages of 75% and 25% respectively.

Abstrak :

Gen mismatch repair (MMR) merupakan gen yang berperan dalam mekanisme DNA repair. Gen MMR dapat memperbaiki kesalahan pasangan basa, perubahan nukleotida dan kesalahan dalam unit pengulangan pasangan basa (microsatellites) selama proses replikasi DNA. Mutasi pada MMR yang umum terjadi pada gen MLH1 dan MSH2 memiliki asosiasi dengan terjadinya Lynch Syndrome pada pasien kanker kolon. Lynch Syndrome (LS) atau Hereditary Non-Polyposis Colorectal Carcinoma (HNPCC) merupakan sindrom kanker kolon herediter yang paling umum diwariskan. LS dapat ditandai dengan mutasi gen MLH1 dan MSH2 berupa delesi dan duplikasi large genomic. Multiplex ligation-dependent probe amplification (MLPA) merupakan teknik kuantifikasi berbasis PCR yang dapat digunakan untuk mendeteksi perubahan copy number variant pada large genomic. Tujuan dari penelitian ini adalah untuk mengidentifikasi mutasi gen MLH1 dan MSH2 pada kanker kolon dengan teknik Multiplex Ligation-Dependent Probe Amplification (MLPA). Sebanyak 25 sampel darah pasien yang terdiagnosis kanker kolon yang dikumpulkan secara retrospektif di Rumah Sakit Kanker Dharmais dikoleksi dari tahun 2018-2019. Mutasi gen MLH1 dan MSH diidentifikasi pada sampel darah pasien yang terdiagnosis kanker kolon dengan teknik MLPA menggunakan Probemix P003-D1 MLH1/MSH2 (MRC-Holland). Penelitian ini berhasil melakukan optimalisasi penggunaan teknik MLPA dengan terpenuhinya kualitas fragmen kontrol MLPA, kualitas fragment analysis, dan comparative analysis pada perangkat lunak Coffalayser.Net. Hasil screening pada 25 sampel menunjukkan tidak ditemukan adanya pola mutasi gen MLH1 dan MSH2 pada sampel yang mengindikasikan tidak terjadinya Lynch Syndrome dan kanker kolon yang terjadi bersifat sporadis.

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Mismatch repair genes (MMR) plays a role in the mechanism of DNA repair. The MMR genes correct base pair errors, nucleotide changes, and errors in base pair repeating units (microsatellites) during DNA replication. Mutations in MMR are common in MLH1 and MSH2 genes that have an association with the occurrence of Lynch Syndrome in colon cancer. Lynch Syndrome or Hereditary Non-Polyposis Colorectal Carcinoma (HNPCC) is the most common inherited hereditary colon cancer syndrome. LS is characterized by MLH1 and MSH2 gene mutations in the form of large genomic deletions and duplication. Multiplex ligation-dependent probe amplification (MLPA) is a PCRbased quantification technique that can detect changes in copy number variants in large genomics. The aim of the study was to identify MLH1 and MSH2 gene mutations in colon cancer with Multiplex Ligation-Dependent Probe Amplification (MLPA) technique. Twenty-five blood samples of patients diagnosed with colon cancer were collected in Dharmais Cancer Hospital collected in 2018-2019, retrospectively. Mutations in MLH1 and MSH2 genes were identified in blood samples of patients diagnosed with colon cancer by the MLPA technique using Probemix P003-D1 MLH1/MSH2 (MRC-Holland). This study succeeded in optimizing the use of MLPA technique by fulfilling the fragments quality control of MLPA, the quality of fragment analysis, and comparative analysis in Coffalayser.Net software. The results of 25 samples screening showed no pattern of MLH1 and MSH2 gene mutations in the sample. This data indicated that there was no Lynch Syndrome and the colon cancer was sporadic.