|
 
 |
|
CASE REPORT |
|
|
|
| Year : 2014 | Volume
: 20
| Issue : 1 | Page : 69-71 |
| |
Chronic myeloid leukemia in case of Klinefelter syndrome
Vasundhara Chennuri, Rajesh Kashyap, Parag Tamhankar, Subha Phadke
Departments of Hematology, and 1Medical Genetics, Sanjay Gandhi Postgraduate Institute of Medical Sciences, Lucknow, Uttar Pradesh, India
| Date of Web Publication | 19-May-2014 |
Correspondence Address:
Rajesh Kashyap
, Department of Hematology, Sanjay Gandhi Postgraduate Institute of Medical Sciences, Rae Barely Road, Lucknow 226 014, Uttar Pradesh
India
 Source of Support: None, Conflict of Interest: None
DOI: 10.4103/0971-6866.132760
 Abstract | | |
Klinefelter syndrome (KS) is a sex chromosome disorder and has been reported to be associated with increased risk for malignancies. We report a 22-year-old male patient who was diagnosed to have chronic myeloid leukemia in chronic phase. Bone marrow cytogenetic examination revealed karyotype 47, XXY, t (9; 22)(q34, q11) suggestive of KS with presence of Philadelphia chromosome. The patient was treated with oral imatinib mesylate (400 mg/day). Complete hematological response was achieved after 2 months of therapy. The bcr-abl/abl transcript percentage measured from peripheral blood at baseline, 1 and 2 years after imatinib were 97%, 1.99%, 0.007%, respectively. He remains in complete hematological and major molecular remission after 2 years of continued imatinib therapy.
Keywords: Chronic myeloid leukemia, imatinib, Klinefelter′s syndrome
How to cite this article:
Chennuri V, Kashyap R, Tamhankar P, Phadke S. Chronic myeloid leukemia in case of Klinefelter syndrome. Indian J Hum Genet 2014;20:69-71 |
How to cite this URL:
Chennuri V, Kashyap R, Tamhankar P, Phadke S. Chronic myeloid leukemia in case of Klinefelter syndrome. Indian J Hum Genet [serial online] 2014 [cited 2016 Aug 24];20:69-71. Available from: http://www.ijhg.com/text.asp?2014/20/1/69/132760 |
| Introduction | |  |
Klinefelter syndrome (KS) is the most common sex chromosomal disorder affecting approximately 1 in 500 males. It manifests clinically as infertility, delayed secondary sexual characters, gynecomastia and learning disabilities. [1] These patients are detected incidentally during cytogenetic evaluation of neoplasia. [2] Patients of KS have been reported to have a higher risk of breast cancer, extra-gonadal germ cell tumor and a lower risk of developing prostate cancer. [3] We describe a 22-year-old male patient with chronic myeloid leukemia (CML) who was detected to have sex chromosomal abnormality (47, XXY) during cytogenetic evaluation for Philadelphia (Ph) chromosome. He was successfully treated with imatinib.
| Case Report | | |
This is a case report of a 22-year-old male patient who presented with abdominal distension and heaviness on the left side of the abdomen of 1 month duration. There was no history of fever, weight loss, bleeding episodes and recurrent infections. Patient had history of delayed development of secondary sexual characters. He was average in studies and IQ was 92 (by Wechsler adult intelligence scale-III). General physical examination revealed height of 172 cm (normal), arm span was 173 cm and weight 55.5 kg (body mass index by Quetlet formula: 18.76). No pallor, icterus or enlarged peripheral lymph nodes were present. The spleen was enlarged (16 cm below the sub costal margin) and the liver was palpable 5 cm below the costal margin. The testes were firm and atrophic (right testis volume: 6 ml, left testis volume: 5 ml), the pubic, axillary, body and facial hair were sparse, suggestive of hypogonadism. Stretched penile length was 10 cm (normal).
Hematological investigations revealed hemoglobin of 9.6 g/dl, total leukocyte count (TLC) of 130 × 10 9 /l, platelet count of 162 × 10 9 /l. The differential leukocyte count on peripheral blood smear was - neutrophils 32%, lymphocytes 1%, eosinophils 1%, monocytes 1%, basophils 6%, promyelocytes 2%, myelocytes 46%, metamyelocytes 10%, normoblasts 2% and blasts 1% respectively. Bone marrow aspiration and biopsy showed myeloid hyperplasia with predominance of myelocytes, metamyelocytes and neutrophils. Erythroid cells and lymphocytes appeared reduced. Megakaryocytes were increased in number. Blasts were less than 5% and basophils were mildly increased (approximately 8%). Chromosomal analysis was performed after unstimulated 72 h culture of bone marrow cells, followed by conventional Giemsa staining of metaphase spreads. Examination of 30 metaphases revealed a karyotype of 47, XXY, t (9;22)(q34;q11) [Figure 1]. The bcr-abl/abl transcript level in the peripheral blood were measured by quantitative polymerase chain reaction (PCR) (minor groove binder with reverse transcriptase PCR methodology) and were normalized to bcr transcript concentration and expressed as a percentage. The bcr-abl/abl ratio was 97% in the peripheral blood before the start of imatinib therapy. Baseline endocrinological investigations revealed serum follicular-stimulating hormone level 40.2 IU/l (normal 1.8-13.6 IU/l) and serum testosterone level 6.4 nmol/l (normal 2.3-14 nmol/l). Semen analysis revealed azoospermia. A diagnosis of KS with CML was made. | Figure 1: Cytogenetic study shows 47, XXY karyotype with Philadelphia chromosome abnormality
Click here to view |
The patient was started on hydroxyurea to reduce the TLC along with on oral imatinib mesylate (400 mg/day). Monotherapy with oral imatinib (400 mg/day) was continued. He achieved complete hematological remission after 2 months of therapy. The bcr-abl/abl ratios in the peripheral blood were 1.99% and 0.007% (3-log reduction over baseline) at 1 and 2 years after treatment respectively.
| Discussion | | |
KS is the most common sex chromosomal disorder and manifest with male hypogonadism and infertility. The chromosome complement 47, XXY is seen in 80% of cases and occasionally karyotypes may be 48XXXY or 49XXXXY or mosaic 47XXY/46XY. The chromosomal abnormality results due to non-disjunction of X or Y chromosome during gametogenesis. The extra X chromosome is of maternal origin in 54% of cases and the extra X or Y is of paternal origin in remaining 46% cases. There is often a delay in diagnosis due to mild hypogonadism and normal physical features like in our case. [1]
KS is associated with malignancies such as male breast cancer and germ cell tumors. In their study Swerdlow et al., showed KS cases have increased mortality risk (relative risk [RR] = 1.63; confidence interval [CI] =1.40-1.91) and increased mortality from lung cancer (RR = 2.45, CI = 1.55-3.67) and breast cancer (RR = 61.7; CI = 7.47-227.7). [3] Men with KS have 50 times higher risk of breast cancer compared with normal karyotype. Similarly, the risk for mediastinal germinal cell tumor is 67 times higher in males with KS. The mechanisms that increase cancer risk in cases with constitutional chromosome aneuploidies such as Down syndrome and KS are unknown. The postulated mechanisms include mitotic instability, hormonal imbalance, immunologic surveillance abnormality and over expression of genes from the extra chromosome. [2],[3],[4] Mukerjee et al. reported that the XXY cells from a patient with XY/XXY mosaic were frequently transformed when exposed to simian papovavirus. [5]
An association with malignant hematological disorders has also been described in several case reports. Welborn et al. reviewed literature to find 66 cases KS with hematological malignancies. [6] Acute myeloid leukemia (23%), non-Hodgkin lymphoma (23%), acute lymphocytic leukemia (18%) and myelodysplastic syndrome (17%) were the most frequently reported cases in literature. [6] Hasle et al. followed a cohort of 696 KS cases and did not find any increased risk of lymphoma or leukemia. [7] Similarly, Horsman et al. in a review of 1200 patients with hematological malignancies who had cytogenetic evaluation carried out detected only one case of KS with acute leukemia. [8] However, this relationship may be apparent as cases with hematological malignancies are likely to undergo cytogenetic evaluation leading to detection of KS.
Multiple case reports of CML in patients with KS have been described in literature. [4],[9],[10],[11] In all these cases the KS was incidentally detected during the routine cytogenetic evaluation for CML. Oguma et al. [10] in their study have reported a 2-year old CML patient who had KS. The cytogenetic analysis showed that the Ph chromosome occurred monoclonally in the XXY cells but not in XY cells. This observation gives credence to the hypothesis that the chromosomal aberrations predispose stem cells to further genetic instability leading to clonal evolution of hematological disorders.
Imatinib mesylate, a selective inhibitor of this abnormal bcr-abl protein tyrosine kinase has dramatically changed the treatment of Ph positive CM. The treatment of patients with Ph positive CML with imatinib has resulted in complete cytogenetic responses of 65% to 85%, major molecular response rates of 40-70% and complete molecular response rates of 10-40% respectively. [12] However, there is a lack of data on response to imatinib in cases of KS with Ph positive CML.
Toubai et al. described a case of KS with CML with acute lymphoblastic leukemia. [13] This case was a more severe form of CML which later, despite imatinib therapy and allogenic bone marrow transplantation from an unrelated donor, did not survive. Contrary to this case our patient remains in complete hematological and major molecular remission after 2 years from start of therapy. Successful disease remission in our case despite the presence of these mechanisms and increased mortality risk could represent just a one-off case or could be a harbinger of future successes of targeted cancer drug therapy in cases of KS with neoplasia.
| Conclusion | | |
As the number of KS patients are limited and there are only few long-term follow-up studies, the exact risk of carcinogenesis in these patients still needs to be defined. Our experience suggests that response to imatinib in cases of KS with CML may not differ from cases of CML in individuals without constitutional chromosomal abnormalities.
| References | | |
| 1. | Smyth CM, Bremner WJ. Klinefelter syndrome. Arch Intern Med 1998;158:1309-14. 
|
| 2. | Keung YK, Buss D, Chauvenet A, Pettenati M. Hematologic malignancies and Klinefelter syndrome. A chance association? Cancer Genet Cytogenet 2002;139:9-13.
|
| 3. | Swerdlow AJ, Schoemaker MJ, Higgins CD, Wright AF, Jacobs PA. UK Clinical cytogenetics group. Cancer incidence and mortality in men with Klinefelter syndrome: A cohort study. J Natl Cancer Inst 2005;97:1204-10.
|
| 4. | Tsung SH, Heckman MG. Klinefelter syndrome, immunological disorders, and malignant neoplasm: Report of a case. Arch Pathol 1974;98:351-4.
[PUBMED] |
| 5. | Mukerjee D, Bowen J, Anderson DE. Simian papovavirus 40 transformation of cells from cancer patient with XY-XXY mosaic Klinefelter's syndrome. Cancer Res 1970;30:1769-72.
[PUBMED] |
| 6. | Welborn J. Constitutional chromosome aberrations as pathogenetic events in hematologic malignancies. Cancer Genet Cytogenet 2004;149:137-53.
[PUBMED] |
| 7. | Hasle H, Mellemgaard A, Nielsen J, Hansen J. Cancer incidence in men with Klinefelter syndrome. Br J Cancer 1995;71:416-20.
|
| 8. | Horsman DE, Pantzar JT, Dill FJ, Kalousek DK. Klinefelter's syndrome and acute leukemia. Cancer Genet Cytogenet 1987;26:375-6.
[PUBMED] |
| 9. | Eberl MM, Baer MR, Mahoney MC, Sait SN, Block AW, Farrell CD. Unsuspected Klinefelter syndrome diagnosed during oncologic evaluation: A case series. J Am Board Fam Pract 2005;18:132-9.
|
| 10. | Oguma N, Takemoto M, Oda K, Tanaka K, Shigeta C, Sakatani K, et al. Chronic myelogenous leukemia and Klinefelter's syndrome. Eur J Haematol 1989;42:207-8.
|
| 11. | Adhvaryu SG, Jani KH, Balar DB, Shah PM. Klinefelter syndrome patient with chronic myelogenous leukemia. Cancer Genet Cytogenet 1990;48:135-7.
[PUBMED] |
| 12. | Kantarjian H, Schiffer C, Jones D, Cortes J. Monitoring the response and course of chronic myeloid leukemia in the modern era of BCR-ABL tyrosine kinase inhibitors: Practical advice on the use and interpretation of monitoring methods. Blood 2008;111:1774-80.
|
| 13. | Toubai T, Tanaka J, Ota S, Miura Y, Toyoshima N, Asaka M, et al. Allogeneic bone marrow transplantation from an unrelated donor for the treatment of chronic myelogenous leukemia in blast crisis in a patient with Kleinfelter's syndrome. Leuk Lymphoma 2004;45:829-31.
|
[Figure 1]
|
