Erdheim-Chester disease after Essential Thrombocythemia: coincidence or not?

Silveira, Lara de Holanda Jucá; Nogueira, Cleto Dantas; Costa, Carolina Teixeira; de Azevedo, Priscila Timbó; Magalhães, Silvia Maria Meira; Pinheiro, Ronald Feitosa

doi:10.1016/j.htct.2021.01.013

Introduction

Erdheim-Chester disease (ECD) is a rare neoplasm from non-Langerhans cell (CD1a -, CD68+, S100-) histiocytes most commonly reported in elderly males. Patients with ECD have been reported to harbor several somatic mutations activating MAPK and PI3K pathways as BRAF+ (38-100%), BRAF wild-type, MAP2K1/K2, and PI3KCA mutations.¹1 Goyal G, Ravindran A, Liu Y, He R, Shah MV, Bennani NN, et al. Bone marrow findings in Erdheim-Chester disease: increased prevalence of chronic myeloid neoplasms. Haematologica. 2020;105(2):e84-6. Other MAPK mutations involving GTPases have also been described via RAS/RAF/MEK/ERK pathway in NRAS/ KRAS (Ras family) and ARAF (Raf family).²2 Bonnet P, Chasset F, Moguelet P, Abisror N, Itzykson R, Bouaziz JD, et al. Erdheim-Chester disease associated with chronic myelomonocytic leukemia harboring the same clonal mutation. Haematologica. 2019;104(11):e530-3. These oncogenes are thought to promote early progenitor cells self-renew, increased foamy histiocyte infiltration, and chronic inflammation.

Given the ubiquitous presence of monocytic-originated cells, ECD may vary from one indolent spectrum to another with poor prognosis, representing a complex diagnosis as coexisting mixed Langerhans (CD1a + S100 + CD 207 +) and non-Langerhans (CD 1a - CD 68+ CD 163+) histiocytosis may develop. Most cases involve infiltration of long bones, retroperitoneum, orbits, skin, “hairy kidneys”, tests, and cardiovascular lesions. The central nervous system (CNS), gastrointestinal system (GIS), and skeletal involvement indicate a poor prognosis.³3 Papo M, Diamond EL, Cohen-Aubart F, Emile JF, Roos-Weil D, Gupta N, et al. High prevalence of myeloid neoplasms in adults with non-Langerhans cell histiocytosis. Blood. 2017;130(8):1007-13.

Blood disorders have been reported before and after ECD onset, which are mostly myeloproliferative (MPS) disorders such as polycythemia vera, Essential Thrombocythemia, and myelofibrosis. Among MPS disorders, polycythemia vera (PV) is the most commonly reported with up to 20-year time lapse between PV diagnosis and ECD initial manifestation.⁴4 Baer MR, Gleaton JH, Salhany KE, Glick AD. Malignant histiocytosis occurring with acute myelogenous leukemia in a patient with longstanding polycythemia vera. Cancer. 1987;59(3):489-95.

The aim of this report is to describe a rare case of essential thrombocytosis (ET) who evolved, after 5 year-follow up, to ECD with extensive infiltration of long bones and to review the associations between MPS disorders and ECD.

Case report

A 72-year-old diabetic male showed deep venous thrombosis (DVT) in the right leg in 2015 that progressed to amputation. At the clinical investigation, thrombocytosis with a platelet count of 1.000.000/ µL was detected (normal leucocytes and hemoglobin). Bone marrow trephine showed megakaryocyte lineage with increased numbers of enlarged, mature megakaryocytes with hyperlobulated nuclei. JAK2^V617F mutation was detected and no other criteria for chronic myeloid leukemia, PV, or Myelofibrosis was detected according to the 2016 WHO Classification of Tumors of Hematopoietic and Lymphoid tissues. The diagnosis of Essential Thrombocythemia was established, and treatment with hydroxyurea showed response with platelets counts between 300.000/ µL - 450.000/ µL in the last 5 years.

After a five-year follow-up, the patient reported very significant weight loss and bone pain. Peripheral blood test presented increased platelet count of 679.000/ µL and a PET-CT (due to bone pain) showed increased glycolytic metabolism and bone marrow density in the left frontal region (SUV 8.9); right humerus (SUV 3.6); left humerus (SUV 5.6); right femur (SUV 6.1); left femur (SUV 6.5); and left tibia (SUV 7.4) (Figure 1). Osteopenia in radius and femur was also observed. A paraffin-embedded bone marrow trephine of the right femur was performed and showed xanthomatous histiocytes positive for CD68, Factor XIII, and CD163 (Figure 2). The diagnosis of Erdheim-Chester disease was established according to clinical, histological and radiological criteria. BRAF^V600E mutation was negative (By Sanger sequencing). The dosage of hydroxyurea was adjusted to maintain platelets count between 300.000/ µL - 450.000/ µL and the patient evolved into pulmonary cystic lesions in anew PET-SCAN with bizarre architecture and thickened walls suggestive of histiocytosis. The patient began treatment with Pegasys (peginterferon alpha-2a) and presents a stable clinical status at the moment.

Figure 1
₁₈FFDG-PET Scan with bone inflammatory lesions (black arrows).

Figure 2
HE and immunohistochemistry analysis of bone biopsy: Xanthogranulomatous histiocytes infiltration CD 68 (B), CD163 (C), and Factor XIII (D) positive. Denditric markers (CD1a, S100) were negative (data not shown).

Discussion

Our case here reported shows a rare association of ET and ECD. As Erdheim-Chester disease is a rare subtype of non-Langerhans cell histiocytosis (LCH)/CD68+ and ET is a myeloproliferative disorder, we initially thought this association was just coincidence, but after reviewing the most recent reports suggesting the origin of ECD cells from myeloid progenitor cells, made us believe there is a possible link between essential thrombocytosis and ECD, not a coincident event.

After reviewing the literature, we found reports demonstrating the association between ECD and myeloproliferative disorders in up to 10% of cases, most commonly chronic myelomonocytic leukemia (CMML).²2 Bonnet P, Chasset F, Moguelet P, Abisror N, Itzykson R, Bouaziz JD, et al. Erdheim-Chester disease associated with chronic myelomonocytic leukemia harboring the same clonal mutation. Haematologica. 2019;104(11):e530-3. In a multi-institutional study of 170 ECD patients³3 Papo M, Diamond EL, Cohen-Aubart F, Emile JF, Roos-Weil D, Gupta N, et al. High prevalence of myeloid neoplasms in adults with non-Langerhans cell histiocytosis. Blood. 2017;130(8):1007-13. reported concomitant 19 myeloid neoplasms such as CMML (8 cases), ET (4 cases), MDS (myelodysplastic syndrome) (2 cases), Myelofibrosis (2 cases), AML (acute myeloid leukemia) (2 cases) and PV (1 case). Among these cases, many harbored kinase alterations characteristic of both ECD and myeloid neoplasms, but the most significant result was the detection of the sameNRASmutation in ECD lesions in the bone marrow and peripheral blood at CMML diagnosis.

We diagnosed ECD after PET-CT and biopsy from femur only after bone pain onset, very significant weight loss, and unexplainable increase of platelets. This uncommon association between myeloproliferative disorders and ECD brings low overall survival. Very recently, a study with 89 ECD patients¹1 Goyal G, Ravindran A, Liu Y, He R, Shah MV, Bennani NN, et al. Bone marrow findings in Erdheim-Chester disease: increased prevalence of chronic myeloid neoplasms. Haematologica. 2020;105(2):e84-6. indicated that the mean age at diagnosis was 55 years old (range: 34-80 yo). Of the entire cohort, 23 (25.8%) performed bone marrow biopsy during their disease most commonly due to abnormal peripheral blood count to rule out hematologic malignancy. The authors detected a concomitant/subsequent myeloid neoplasm in 3 of 89 (3.3%) ECD patients: 1) 75 yo, CMML, ECD 5 years after CMLL diagnosis (OS 3years); 2) 51 yo, Essential Thrombocytosis, ECD 17 years after ET diagnosis (OS 3.5 years); 3) 59 yo, CMML, ECD at the same year of CMML diagnosis (OS 3.5 years). Reinforcing the adverse clinical evolution, our case herein report developed lung disease after 1 year of ECD diagnosis, typically demonstrating disease progression in parallel to refractory ET with increased platelets. See Table 1 for all detected cases of ECD with MPS diagnosis regarding clinical features, cell markers, mutations, treatment, and outcomes.

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Table 1
Myeloproliferative disorders and Erdheim-Chester disease: case summary.

The monocyte cell subpopulations are diverse and involve both granulocyte-monocyte and monocyte-dendritic cells progenitors. Those progenitors have an overlapping differentiation potential and may suffer extrinsic signals induced differentiation, which hardens the tracking of driving mutations in histiocytosis. Also, BRAF^V600E mutations were found in myeloid blood precursors of LCH and ECD patients.⁸8 P. Milne, V. Bigley, C.M. Bacon, A. Néel, N. McGovern, S. Bomken, et al.; Hematopoietic origin of Langerhans cell histiocytosis and Erdheim-Chester disease in adults. Blood, 130(2), 167-175. These could indicate early mutated genes in hematopoietic precursors of myeloproliferative neoplasms and characterize the ECD as a result of clonal progression. A recent study on tumor profiling of patients with non-Langerhans cell histiocytosis of 34 patients¹⁰10 Janku F, Diamond EL, Goodman AM, Raghavan VK, Barnes TG, Kato S, et al. Molecular profiling of tumor tissue and plasma cell-free DNA from patients with non-langerhans cell histiocytosis. Mol Cancer Ther. 2019 Jun;18(6):1149-1157. identified not only BRAF^V600E and MAPK activating mutations but other BRAF mutations, gene fusions, gene amplification, and putative driver mutations. Those accumulated events indicate genomic instability and a pro-oncogenic microenvironment.

Nevertheless, the chronic inflammatory microenvironment and tissue-specific cell signaling may produce pathological subpopulations of monocytes and contribute to ECD pathogenesis. Interestingly, the M-CSF and lipid enriched serum treated monocytes differentiated into foam cells in vitro.⁸8 P. Milne, V. Bigley, C.M. Bacon, A. Néel, N. McGovern, S. Bomken, et al.; Hematopoietic origin of Langerhans cell histiocytosis and Erdheim-Chester disease in adults. Blood, 130(2), 167-175. Those could indicate a possible pathological insight into the formation of foam cells once osteoblasts are known as M-CSF producers and promoters of HSC (hematopoietic stem cells) maintenance and differentiation. Osteoblastic lesions are frequent in ECD and may play a significant role in disease pathogenesis.

This case highlights the clinical importance of evaluating adults with a myeloproliferative disorder for a concomitant histiocytosis. ECD concomitant to ET diagnosis is not a coincidence due to probable same cell origin.

References

¹
Goyal G, Ravindran A, Liu Y, He R, Shah MV, Bennani NN, et al. Bone marrow findings in Erdheim-Chester disease: increased prevalence of chronic myeloid neoplasms. Haematologica. 2020;105(2):e84-6.
²
Bonnet P, Chasset F, Moguelet P, Abisror N, Itzykson R, Bouaziz JD, et al. Erdheim-Chester disease associated with chronic myelomonocytic leukemia harboring the same clonal mutation. Haematologica. 2019;104(11):e530-3.
³
Papo M, Diamond EL, Cohen-Aubart F, Emile JF, Roos-Weil D, Gupta N, et al. High prevalence of myeloid neoplasms in adults with non-Langerhans cell histiocytosis. Blood. 2017;130(8):1007-13.
⁴
Baer MR, Gleaton JH, Salhany KE, Glick AD. Malignant histiocytosis occurring with acute myelogenous leukemia in a patient with longstanding polycythemia vera. Cancer. 1987;59(3):489-95.
⁵
Iurlo A, Dagna L, Cattaneo D, Orofino N, Bianchi P, Cavalli G, Doglioni C, Gianelli U, Cortelezzi A. Erdheim-Chester disease with multiorgan involvement, following polycythemia vera: a case report. Medicine (Baltimore). 2016;95(20):e3697.
⁶
Tamura S, Kawamoto K, Miyoshi H, Suzuki T, Katagiri T, Kasami T, et al. Cladribine treatment for Erdheim-Chester disease involving the central nervous system and concomitant polycythemia vera: a case report. J Clin Exp Hematop. 2018;58(4):161-5.
⁷
Ghobadi A, Miller CA, Li T, O’Laughlin M, Lee YS, Ali M, et al. Shared cell of origin in a patient with Erdheim-Chester disease and acute myeloid leukemia. Haematologica. 2019;104(8):e373-5.
⁸
P. Milne, V. Bigley, C.M. Bacon, A. Néel, N. McGovern, S. Bomken, et al.; Hematopoietic origin of Langerhans cell histiocytosis and Erdheim-Chester disease in adults. Blood, 130(2), 167-175.
⁹
Goyal G, Liu Y, Ravindran A, Al-Kali A, Go RS, Patnaik MM, et al. Mayo clinic histiocytosis working group. concomitant Erdheim-Chester disease and chronic myelomonocytic leukaemia: genomic insights into a common clonal origin. Br J Haematol. 2019;187(2):e51-4.
¹⁰
Janku F, Diamond EL, Goodman AM, Raghavan VK, Barnes TG, Kato S, et al. Molecular profiling of tumor tissue and plasma cell-free DNA from patients with non-langerhans cell histiocytosis. Mol Cancer Ther. 2019 Jun;18(6):1149-1157.

Publication Dates

Publication in this collection
13 Mar 2023
Date of issue
Jan-Mar 2023

History

Received
12 Aug 2020
Accepted
27 Jan 2021
Published
2 May 2021

This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial No Derivative License, which permits unrestricted non-commercial use, distribution, and reproduction in any medium provided the original work is properly cited and the work is not changed in any way.

[1] ¹
Goyal G, Ravindran A, Liu Y, He R, Shah MV, Bennani NN, et al. Bone marrow findings in Erdheim-Chester disease: increased prevalence of chronic myeloid neoplasms. Haematologica. 2020;105(2):e84-6.

[2] ²
Bonnet P, Chasset F, Moguelet P, Abisror N, Itzykson R, Bouaziz JD, et al. Erdheim-Chester disease associated with chronic myelomonocytic leukemia harboring the same clonal mutation. Haematologica. 2019;104(11):e530-3.

[3] ³
Papo M, Diamond EL, Cohen-Aubart F, Emile JF, Roos-Weil D, Gupta N, et al. High prevalence of myeloid neoplasms in adults with non-Langerhans cell histiocytosis. Blood. 2017;130(8):1007-13.

[4] ⁴
Baer MR, Gleaton JH, Salhany KE, Glick AD. Malignant histiocytosis occurring with acute myelogenous leukemia in a patient with longstanding polycythemia vera. Cancer. 1987;59(3):489-95.

[5] ⁵
Iurlo A, Dagna L, Cattaneo D, Orofino N, Bianchi P, Cavalli G, Doglioni C, Gianelli U, Cortelezzi A. Erdheim-Chester disease with multiorgan involvement, following polycythemia vera: a case report. Medicine (Baltimore). 2016;95(20):e3697.

[6] ⁶
Tamura S, Kawamoto K, Miyoshi H, Suzuki T, Katagiri T, Kasami T, et al. Cladribine treatment for Erdheim-Chester disease involving the central nervous system and concomitant polycythemia vera: a case report. J Clin Exp Hematop. 2018;58(4):161-5.

[7] ⁷
Ghobadi A, Miller CA, Li T, O’Laughlin M, Lee YS, Ali M, et al. Shared cell of origin in a patient with Erdheim-Chester disease and acute myeloid leukemia. Haematologica. 2019;104(8):e373-5.

[8] ⁸
P. Milne, V. Bigley, C.M. Bacon, A. Néel, N. McGovern, S. Bomken, et al.; Hematopoietic origin of Langerhans cell histiocytosis and Erdheim-Chester disease in adults. Blood, 130(2), 167-175.

[9] ⁹
Goyal G, Liu Y, Ravindran A, Al-Kali A, Go RS, Patnaik MM, et al. Mayo clinic histiocytosis working group. concomitant Erdheim-Chester disease and chronic myelomonocytic leukaemia: genomic insights into a common clonal origin. Br J Haematol. 2019;187(2):e51-4.

[10] ¹⁰
Janku F, Diamond EL, Goodman AM, Raghavan VK, Barnes TG, Kato S, et al. Molecular profiling of tumor tissue and plasma cell-free DNA from patients with non-langerhans cell histiocytosis. Mol Cancer Ther. 2019 Jun;18(6):1149-1157.

Article	MPS/ Diagnosis	Clinical Features	Cell markers	Mutations/ Karyotype	Treatment after ECD diagnosis	Outcomes
Iurlo et al., 2016⁵5 Iurlo A, Dagna L, Cattaneo D, Orofino N, Bianchi P, Cavalli G, Doglioni C, Gianelli U, Cortelezzi A. Erdheim-Chester disease with multiorgan involvement, following polycythemia vera: a case report. Medicine (Baltimore). 2016;95(20):e3697.	PV, ECD/ Clinical, Molecular	Splenomegaly, erythrocytosis, low EPO	CD 68 + Cd1a- S100 -	BRAFV600E, JAK2V617F, complex karyotype	IFN-alpha	Remission in 3 months
Tamura et al., 2018⁶6 Tamura S, Kawamoto K, Miyoshi H, Suzuki T, Katagiri T, Kasami T, et al. Cladribine treatment for Erdheim-Chester disease involving the central nervous system and concomitant polycythemia vera: a case report. J Clin Exp Hematop. 2018;58(4):161-5.	PV, ECD/ Clinical, Molecular	CNS mass, bone pain, erythrocytosis, low EPO	CD 68 + Cd1a- S100 -	BRAFV600E, JAK2V617F	Cladribine	Partial Remission
Baer et al., 1987⁴4 Baer MR, Gleaton JH, Salhany KE, Glick AD. Malignant histiocytosis occurring with acute myelogenous leukemia in a patient with longstanding polycythemia vera. Cancer. 1987;59(3):489-95.	PV, AML, hystiocytosis/ Clinical	Sternal mass	Alpha-1-antitrypsin, alpha-1 antichymotripsin	No report	Palliative radiotherapy	Death
Papo et al., 2017³3 Papo M, Diamond EL, Cohen-Aubart F, Emile JF, Roos-Weil D, Gupta N, et al. High prevalence of myeloid neoplasms in adults with non-Langerhans cell histiocytosis. Blood. 2017;130(8):1007-13.	PV, ECD/ Clinical, molecular	No report	No report	BRAFV600E, JAK2, TET2, NRAS, U2AF1	No report	No report
	ET, ECD/ Clinical, molecular	No report	No report	BRAFV600E, JAK 2, TET2, MAP2K1,CALR	No report	No report
	AML, ECD/ Clinical, molecular	No report	CD 68 + Cd1a- S100 -	BRAFV600E, IDH2, TP53, TET2	No report	No report
Goyal et al., 2020¹1 Goyal G, Ravindran A, Liu Y, He R, Shah MV, Bennani NN, et al. Bone marrow findings in Erdheim-Chester disease: increased prevalence of chronic myeloid neoplasms. Haematologica. 2020;105(2):e84-6.	ET, ECD/ Clinical, molecular	Pleural effusions, ascites, retroperitoneal soft-tissue infiltration	No report	BRAFV600E, JAK2V617F	Interferon-a, anakinra, and later trametinib	Death
Ghobadi et al., 2016⁷7 Ghobadi A, Miller CA, Li T, O’Laughlin M, Lee YS, Ali M, et al. Shared cell of origin in a patient with Erdheim-Chester disease and acute myeloid leukemia. Haematologica. 2019;104(8):e373-5.	AML, ECD/ Clinical, molecular	No report	CD34 +, CD68 + Cd1a - S100-	BRAFV600E, IDH2, R140Q	No report	No report
Sakr et al., 2018	Burkitt, ECD/ Clinical molecular	No report	CD68 +, CD163 +, factor XIIIa +, BRAFV600E + CD1a -, CD21 -, CD23 -	BRAFV600E *	No report	No report
Goyal et al., 2020⁷7 Ghobadi A, Miller CA, Li T, O’Laughlin M, Lee YS, Ali M, et al. Shared cell of origin in a patient with Erdheim-Chester disease and acute myeloid leukemia. Haematologica. 2019;104(8):e373-5.	CMML, ECD/Clinical, molecular	Fatigue, weight loss, abdominal pain	No report	BRAFV600E	Anakinra, vemurafenib, dabrafenib	Loss of follow-up, death
	CMML,ECD/ Clinical, molecular	Yellowish-red papules, bone pain	No report	BRAFV600E, ASXL1, KRAS	Hidroxyurea	Death
Goyal et al., 2019⁹9 Goyal G, Liu Y, Ravindran A, Al-Kali A, Go RS, Patnaik MM, et al. Mayo clinic histiocytosis working group. concomitant Erdheim-Chester disease and chronic myelomonocytic leukaemia: genomic insights into a common clonal origin. Br J Haematol. 2019;187(2):e51-4.	CMML, ECD/ Clinical, molecular	Skin lesions, bone pain	CD 68 + Cd1a- S100 -	KRAS, ASXL1, CLDN1, THBS4, SYNC, ROBO2	Hydroxycarbamide	Death
Papo et al., 2017³3 Papo M, Diamond EL, Cohen-Aubart F, Emile JF, Roos-Weil D, Gupta N, et al. High prevalence of myeloid neoplasms in adults with non-Langerhans cell histiocytosis. Blood. 2017;130(8):1007-13.	CMML, ECD/ Clinical, molecular	No report	CD 68+, CD1a-	BRAFV600E, ASXL1	No report	No report
	CMML, ECD/ Clinical, molecular	No report	CD 68+, CD1a-	BRAFV600E,JAK2, IDH2	No report	No report
Bonnet et al., 2019²2 Bonnet P, Chasset F, Moguelet P, Abisror N, Itzykson R, Bouaziz JD, et al. Erdheim-Chester disease associated with chronic myelomonocytic leukemia harboring the same clonal mutation. Haematologica. 2019;104(11):e530-3.	CMML, ECD/ Clinical, molecular	Skin lesions	CD 68 + Cd1a- S100 -	KRAS, ASXL1, NRAS, DNMT3A

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