DNA methylation profile discriminates sporadic giant cell granulomas of the jaws and cherubism from their giant cell-rich histological mimics.

Sporadic giant cell granulomas (GCGs) of the jaws and cherubism-associated giant cell lesions share histopathological features and microscopic diagnosis alone can be challenging. Additionally, GCG can morphologically closely resemble other giant cell-rich lesions, including non-ossifying fibroma (NOF), aneurysmal bone cyst (ABC), giant cell tumour of bone (GCTB), and chondroblastoma. The epigenetic basis of these giant cell-rich tumours is unclear and DNA methylation profiling has been shown to be clinically useful for the diagnosis of other tumour types. Therefore, we aimed to assess the DNA methylation profile of central and peripheral sporadic GCG and cherubism to test whether DNA methylation patterns can help to distinguish them. Additionally, we compared the DNA methylation profile of these lesions with those of other giant cell-rich mimics to investigate if the microscopic similarities extend to the epigenetic level. DNA methylation analysis was performed for central (n = 10) and peripheral (n = 10) GCG, cherubism (n = 6), NOF (n = 10), ABC (n = 16), GCTB (n = 9), and chondroblastoma (n = 10) using the Infinium Human Methylation EPIC Chip. Central and peripheral sporadic GCG and cherubism share a related DNA methylation pattern, with those of peripheral GCG and cherubism appearing slightly distinct, while central GCG shows overlap with both of the former. NOF, ABC, GCTB, and chondroblastoma, on the other hand, have distinct methylation patterns. The global and enhancer-associated CpG DNA methylation values showed a similar distribution pattern among central and peripheral GCG and cherubism, with cherubism showing the lowest and peripheral GCG having the highest median values. By contrast, promoter regions showed a different methylation distribution pattern, with cherubism showing the highest median values. In conclusion, DNA methylation profiling is currently not capable of clearly distinguishing sporadic and cherubism-associated giant cell lesions. Conversely, it could discriminate sporadic GCG of the jaws from their giant cell-rich mimics (NOF, ABC, GCTB, and chondroblastoma).

Cherubism in three siblings. / A cherubismus elofordulása három testvérben.

Összefoglaló. A cherubismus ritka, autoszomális dominánsan öröklodo megbetegedés. A fibroossealis elváltozások csoportjába tartozik. Jellemzoje az állcsontok szimmetrikus duzzanata, a típusos radiológiai elváltozások és az SH3BP2-gén mutációja. Szövettanilag nem különül el az óriássejtes granulomától. A csontelváltozások és a fibroticus szövet felszaporodása pubertás elott kezdodik, ezután stagnálás vagy visszafejlodés következik be. A magyar orvosi irodalomban a szerzok elsoként tárgyalják három testvér kórtörténete alapján a cherubismust. A diagnózist a hasonló klinikai tünetek, a típusos kórlefolyás, a szinte azonos radiológiai kép, a szövettan és a genetikai elváltozások biztosítják. A testvérek és az anya csíravonalában kimutatott azonos mutáció akkor is megfelel egy dominánsan öröklodo szindrómának (például cherubismusnak), ha a betegség az anyában klinikailag nem manifesztálódott, de genetikailag igen. A szerzok összefoglalják a kórkép kezelési lehetoségeit: a sebészi (excochleatio, ,,decountouring", esetleg reszekció) és a gyógyszeres (biszfoszfonát, kalcitonin, szteroid stb.) terápiát. Egyezik a véleményük azokéval, akik azon az állásponton vannak, hogy a beavatkozásokkal várni kell, és meg kell figyelni a betegeket a várható regresszió miatt. Saját eseteikben csak a növekvo tumorrész excochleatióját végezték, foleg kozmetikai okok és a szövettan biztosítása érdekében. Orv Hetil. 2022; 163(11): 446-452. Summary. Cherubism is a rare autosomal, dominant bone disorder, characterised by symmetrical expansion of the jaws along the typical radiological and genetic (SH3BP2 mutation) features. It belongs to the heterogenous group of fibro-osseous lesions. Its histology is the same as that of giant-cell granuloma. The bone lesions and fibrous tissue expansion increase before puberty and regress thereafter. For the first time in Hungarian medical literature, the authors discuss the condition of cherubism in the case of three siblings. The diagnosis of these three siblings is supported by the clinical, radiological, microscopic and genetic data. In all three, the bone lesions and fibrous tissue expansion increased before puberty and stabilized thereafter. The radiological results and the molecular findings were nearly identical. The identical mutation shown in the germ lines of the three siblings and the mother correspond to a dominantly inherited syndrome (e.g., cherubism) even if the condition did not manifest in the mother. The authors summarize the treatment options of the disease: surgical (excochleation, decountouring, in rare case resection) and drug (bisphosphonate, calcitonin, steroid, etc.) therapy. They agree with those who are of the opinion that interventions should wait and the patients should be observed ("wait and see") for the expected regression. In their own cases, only excochleation of the growing tumor was performed, mainly for cosmetic reasons and to secure the tissue. Orv Hetil. 2022; 163(11): 446-452.

[Bilateral giant cell central granuloma of the jaws in a Noonan syndrome: About one case with emphasizing on bone giant cell lesions of the jaws]. / Granulome central à cellules géantes des maxillaires bilatéral dans le cadre d'un syndrome de Noonan : à propos d'un cas avec mise au point sur les lésions osseuses riches en cellules géantes des maxillaires.

We report the case of a 10-year-old child with bilateral mandibular localization of a central giant cell granuloma occurring in the setting of Noonan syndrome. The histological appearance was classic with two intermigled components, one fibrous with non-atypical mononuclear cells, the other consisting of numerous osteoclast-like giant cells. This aspect is similar to that observed in the brown tumor as well as that of cherubism, which can also give multiple bone lesions. We will discuss the other lesions to consider in case of benign giant cell bone lesions affecting the jawbones, sometimes multiple and part of which falls within the scope of RASopathies.

Late reactivation of cherubism in an adult further to local inflammation.

Cherubism is a rare pediatric disease affecting the jaw. It appears among children between 2 and 5 years old. Maximum growth is observed at 7-8 years old, then lesions remain unchanged or increase slowly until puberty. Only 2 cases of later growth have been reported. We describe a case of cherubism reactivation in a 46-year-old woman. Appearance of a new lesion occurs in a context of local inflammation due to repeated friction of the dental prosthesis on the mandible. No article in the literature describes a similar case. This case shows the determining role of inflammation (local or general) in the pathophysiology of cherubism.

Efficacy and safety of denosumab treatment in a prepubertal patient with cherubism.

Background Denosumab is an inhibitor of receptor activator of nuclear factor kappa-B ligand, which strongly suppresses osteoclasts. Cherubism is a rare autosomal dominant disorder characterized by symmetrical swelling of the jaws, in which the bone is replaced by a fibrous granuloma containing osteoclast-like giant cells. Case presentation We report the efficacy and safety of denosumab treatment in a prepubertal boy with progressive cherubism. The treatment consisting of eight subcutaneous denosumab injections (120 mg/dose) in 6 months not only suppressed the expansion of the osteolytic lesions but also dramatically ossified them. However, a transiently decreased growth rate and rebounded asymptomatic hypercalcemia were associated with the treatment. Conclusions The present case demonstrated the therapeutic potential of denosumab for treatment of cherubism, although adverse effects, especially those on childhood growth, remain obscure. Further studies are needed to establish a safe and effective protocol for denosumab treatment of children.

An Overview of the Derivation and Function of Multinucleated Giant Cells and Their Role in Pathologic Processes.

Monocyte lineage cells play important roles in health and disease. Their differentiation into macrophages is crucial for a broad array of immunologic processes that regulate inflammation, neoplasia, and infection. In certain pathologic conditions, such as foreign body reactions and peripheral inflammatory lesions, monocytes fuse to form large, multinucleated giant cells (MGCs). Currently, our knowledge of the fusion mechanisms of monocytes and the regulation of MGC formation and function in discrete pathologies is limited. Herein, we consider the types and function of MGCs in disease and assess the mechanisms by which monocyte fusion contributes to the formation of MGCs. An improved understanding of the cellular origins and metabolic functions of MGCs will facilitate their identification and ultimately the treatment of diseases and disorders that involve MGCs.

Clinicoradiologic follow up of cherubism with aggressive characteristics: a series of 3 cases.

Cherubism is a rare autosomal dominant disorder characterized by replacement of bone with fibrous tissue containing multinucleated giant cells. It manifests as bilateral mandibular and/or maxillary enlargement. The 2017 World Health Organization classification lists cherubism as a giant cell lesion of the jaws, distinct from fibro-osseous disorders. We discuss 3 cases of familial cherubism having aggressive characteristics and present clinicoradiologic evaluations of the lesions over 12, 18, and 1.5 years, respectively. Follow-up was observational, without active intervention. Analysis of the lesions for change in size and functional impairments was correlated with periodic imaging. All patients are currently being monitored. The outcome in 2 cases has been excellent without intervention, but 1 case had extensive involvement of the jaws and involvement of the condyle and orbit. A secondary giant cell lesion involved the palate in one patient's mother, who had had cherubic lesions in childhood.

Early detection of cherubism with eventual bilateral progression: a literature review and case report.

Cherubism is a rare familial disease of childhood that commonly affects the bilateral mandible and maxilla and typically resolves in adulthood. It has been shown to have a male predilection and has been mapped to the SH3 BP2 gene. Only 2 cases of unilateral cherubism have been documented in the literature; in the first case, the contralateral side was eventually affected. Although rare, unilateral cherubism presents a diagnostic dilemma. This case report describes a unique presentation of unilateral cherubism that progressed to affect the contralateral side and describes some of the considerations in the diagnosis and treatment of unilateral benign giant cell lesions of the jaws.

Molecular and cellular characterizations of human cherubism: disease aggressiveness depends on osteoclast differentiation.

BACKGROUND: Cherubism is a rare autosomal dominant disorder of the jaws caused by mutation of the SH3BP2 gene. The bone is replaced by a fibrous granuloma containing multinucleated giant cells. Cells of the cherubism granuloma have never been systematically analyzed. Hence, the aim of this study was to characterize the cells in human cherubism granulomas, to determine the osteoclastic characteristics of the multinucleated giant cells and to investigate the potential role of TNF-α in human cherubism. RESULTS: Seven granulomas were analyzed in pathology, molecular biology and immunohistochemistry. Granulomas were composed mainly of macrophages or osteoclasts within a fibroblastic tissue, with few lymphoid cells. Myeloid differentiation and nuclear NFATc1 localization were both associated with disease aggressiveness. OPG and RANKL immunohistochemical expression was unexpected in our specimens. Five granuloma cells were cultured in standard and osteoclastogenic media. In culture, cherubism cells were able to differentiate into active osteoclasts, in both osteoclastogenic and standard media. IL-6 was the major cytokine present in the culture supernatants. CONCLUSION: Multinucleated giant cells from cherubism granulomas are CD68 positive cells, which differentiate into macrophages in non-aggressive cherubism and into osteoclasts in aggressive cherubism, stimulated by the NFATc1 pathway. This latter differentiation appears to involve a disturbed RANK-L/RANK/OPG pathway and be less TNF-α dependent than the cherubism mouse model.

Rescue of a cherubism bone marrow stromal culture phenotype by reducing TGFß signaling.

We utilized a bone marrow stromal culture system to investigate changes in TGFß signaling in a mouse model for cherubism (Sh3bp2KI/KI). Interestingly, bone marrow cultures derived from cherubism mice not only displayed impaired osteoblast differentiation, but also had spontaneous osteoclast formation. PAI1, a target gene of TGFß signaling, was elevated 2-fold in cherubism CD11b-,CD45- cells compared to wild type cells, while the expression of BAMBI, an inhibitor of TGFß signaling, was down-regulated. We also discovered that treatment of cherubism cultures with antagonists of the TGFß signaling pathway could largely rescue osteoblast differentiation and markedly reduce spontaneous osteoclast formation. Treatment with the type I TGFß receptor small molecule inhibitor SB505124 increased osteoblast reporter gene Col1a1-2.3 expression 24-fold and increased the expression of osteoblast gene markers Osterix (Sp7) 25-fold, Bone Sialoprotein (BSP) 7-fold, Osteocalcin (Bglap1) 100-fold, and Dentin Matrix Protein 1 (DMP1) 35-fold. In contrast, SB505124 treatment resulted in a significant reductions in osteoclast number and size. Gene expression analyses for RANKL, a positive regulator of osteoclast formation was 2.5-fold higher in osteoblast cultures derived from Sh3bp2KI/KI mice compared to wild type cultures, whereas OPG, an inhibitor of RANKL was 5-fold lower. However, SB505124 treatment reduced RANKL almost back down to wild type levels, while increasing OPG expression. Our studies also implicate a role for TGFß ligands in the etiology of cherubism. Blocking of TGFß ligands with the monoclonal antibody 1D11 increased Col1a1-2.3 reporter expression 4-fold and 13-fold in cultures derived from Sh3bp2KI/+ and Sh3bp2KI/KI mice, respectively. Serum levels of latent TGFß1 were also 2-fold higher in SH3BP2KI/KI mice compared to wild type littermates. Taken together, these studies provide evidence that elevated levels of TGFß signaling may contribute to the disease phenotype of cherubism and a reduction in pathway activity may be an effective therapeutic approach to treat this rare disease.

Cherubism Mice Also Deficient in c-Fos Exhibit Inflammatory Bone Destruction Executed by Macrophages That Express MMP14 Despite the Absence of TRAP+ Osteoclasts.

Currently, it is believed that osteoclasts positive for tartrate-resistant acid phosphatase (TRAP+) are the exclusive bone-resorbing cells responsible for focal bone destruction in inflammatory arthritis. Recently, a mouse model of cherubism (Sh3bp2KI/KI ) with a homozygous gain-of-function mutation in the SH3-domain binding protein 2 (SH3BP2) was shown to develop auto-inflammatory joint destruction. Here, we demonstrate that Sh3bp2KI/KI mice also deficient in the FBJ osteosarcoma oncogene (c-Fos) still exhibit noticeable bone erosion at the distal tibia even in the absence of osteoclasts at 12 weeks old. Levels of serum collagen I C-terminal telopeptide (ICTP), a marker of bone resorption generated by matrix metalloproteinases (MMPs), were elevated, whereas levels of serum cross-linked C-telopeptide (CTX), another resorption marker produced by cathepsin K, were not increased. Collagenolytic MMP levels were increased in the inflamed joints of the Sh3bp2KI/KI mice deficient in c-Fos. Resorption pits contained a large number of F4/80+ macrophages and genetic depletion of macrophages rescued these erosive changes. Importantly, administration of NSC405020, an MMP14 inhibitor targeted to the hemopexin (PEX) domain, suppressed bone erosion in c-Fos-deficient Sh3bp2KI/KI mice. After activation of the NF-κB pathway, macrophage colony-stimulating factor (M-CSF)-dependent macrophages from c-Fos-deficient Sh3bp2KI/KI mice expressed increased amounts of MMP14 compared with wild-type macrophages. Interestingly, receptor activator of NF-κB ligand (RANKL)-deficient Sh3bp2KI/KI mice failed to show notable bone erosion, whereas c-Fos deletion did restore bone erosion to the RANKL-deficient Sh3bp2KI/KI mice, suggesting that osteolytic transformation of macrophages requires both loss-of-function of c-Fos and gain-of-function of SH3BP2 in this model. These data provide the first genetic evidence that cells other than osteoclasts can cause focal bone destruction in inflammatory bone disease and suggest that MMP14 is a key mediator conferring pathological bone-resorbing capacity on c-Fos-deficient Sh3bp2KI/KI macrophages. In summary, the paradigm that osteoclasts are the exclusive cells executing inflammatory bone destruction may need to be reevaluated based on our findings with c-Fos-deficient cherubism mice lacking osteoclasts. © 2017 American Society for Bone and Mineral Research.

Defining a new aggressiveness classification and using NFATc1 localization as a prognostic factor in cherubism.

Cherubism is a rare genetic disease characterized by bilateral giant cell reparative granuloma of the jaws consisting of a fibrotic stroma with giant multinucleated cells (GMCs) and osteoclastic features. Cherubism severity is highly variable, and recurrence after surgery is the most important risk. Currently, there are no prognostic indicators. The aims of this study were to evaluate the osteoclastogenesis phenotype by histologic examination of nuclear factor of activated T cells 1 (NFATc1) localization and tartrate-resistant acid phosphatase (TRAP) activity and to correlate the results to disease aggressiveness to define prognostic indicators. Based on cherubism evolution 1 year after surgery, 3 classes of cherubism aggressiveness were identified: mild (group A), moderate (group B), and severe (group C). Histologically, in grade A and B cherubism lesions, GMCs were negative for both TRAP activity and NFATc1 nuclear localization. In contrast, in grade C cherubism lesions, GMCs were all positive for TRAP activity and NFATc1 nuclear localization and displayed osteoclast-like features. Other histopathologic findings were not different among the 3 groups. Our results establish that TRAP activity and NFTAc1 nuclear localization are associated with aggressive cherubism and therefore could be added to routine pathologic examination to aid in prognosis and management of the disease. The finding of NFATc1 nuclear localization in aggressive tumors supports the addition of anticalcineurin treatment to the therapeutic arsenal for cherubism.

Cherubism: An Unusual Study With Long-Term Follow-Up.

Cherubism is an uncommon hereditary benign fibro-osseous disorder characterized by bilateral enlargement of the mandible and the maxilla that presents with varying degrees of involvement and a tendency toward spontaneous remission.The first visit was in 2002. A 16-year-old female was referred to an orthodontist for correction of her dental crowding. In the radiographic examination that was taken for her treatment the first time in 2002, a jaw bone lesion was discovered accidentally. X-ray panoramic imaging revealed well-defined multilocular radiolucencies involving the posterior body of the mandible and ascending rami with displaced teeth. This lesion had no effect on inferior alveolar canal and maxilla.There was no significant past medical history, and there was no family history suggestive of a similar complaint. On extraoral examination, there was no swelling in both rami of the mandible and face. Histopathological examination of the biopsy specimen showed proliferating fibrous connective tissue interspersed by multinucleated giant cells. It was diagnosed as a case nonfamilial cherubism. An extensive long-term follow-up till 12 years was maintained. In 2014, after 12-years follow-up for this lesion, panoramic imaging examination showed progress of this lesion in mandible and maxilla.

Cherubism: A Case Report with Surgical Intervention.

Cherubism is a rare benign, autosomal-dominant hereditary fibro-osseous condition predominantly affecting the jaws. Symmetrical cyst-like expansions of the jaws cause the characteristic facial swellings. The disease is often associated with severe malposition of teeth. The gene for cherubism is src homology 3 binding protein 2 (SH3BP2) located on chromosome 4p16.3. The repeated experience of this self-limiting disorder in affected individuals published in the medical literature has resulted in a wait-and-see strategy regarding therapeutic options. Indeed, cessation and regression of even large bone expansions can be expected in early adulthood. Nevertheless, severe facial disfiguring and functional impairment can make surgical intervention necessary. This report details the surgical procedures carried out in a patient with progressive and disfiguring jaw expansions at the end of adolescence, the mutation of SH3BP2 gene, and the limited effect of surgically assisted orthodontic tooth movement in a patient with disease-associated impaired tooth development and tooth eruption.

[Molecular and Cellular Pathogenesis of Cherubism].

Study of rare genetic disorder often provides fundamental insights into the pathology of common diseases. Cherubism is a rare craniofacial disorder in children characterized by the destruction of maxillary and mandibular bones due to expansile fibrous inflammatory lesions. Genetic study of cherubism families discovered that gain-of-function mutations in the signaling adaptor protein SH3BP2 are responsible for cherubism. Analysis of the mouse model revealed that cherubism is an autoinflammatory disorder that is caused by dysregulated signaling pathway mediated by toll-like receptors and spleen tyrosine kinase. Recent study of the SH3BP2-deficient mice showed that SH3BP2 plays important roles in bone resorption in mouse models of inflammatory arthritis. These results establish SH3BP2 as a key player in the osteoimmune system beyond its role in a rare inherited disorder and suggest that the signaling pathway mediated by SH3BP2 is involved in the pathogenesis of common inflammatory bone diseases such as rheumatoid arthritis.

Bone marrow transplantation improves autoinflammation and inflammatory bone loss in SH3BP2 knock-in cherubism mice.

Cherubism (OMIM#118400) is a genetic disorder in children characterized by excessive jawbone destruction with proliferation of fibro-osseous lesions containing a large number of osteoclasts. Mutations in the SH3-domain binding protein 2 (SH3BP2) are responsible for cherubism. Analysis of the knock-in (KI) mouse model of cherubism showed that homozygous cherubism mice (Sh3bp2(KI/KI)) spontaneously develop systemic autoinflammation and inflammatory bone loss and that cherubism is a TNF-α-dependent hematopoietic disorder. In this study, we investigated whether bone marrow transplantation (BMT) is effective for the treatment of inflammation and bone loss in Sh3bp2(KI/KI) mice. Bone marrow (BM) cells from wild-type (Sh3bp2(+/+)) mice were transplanted to 6-week-old Sh3bp2(KI/KI) mice with developing inflammation and to 10-week-old Sh3bp2(KI/KI) mice with established inflammation. Six-week-old Sh3bp2(KI/KI) mice transplanted with Sh3bp2(+/+) BM cells exhibited improved body weight loss, facial swelling, and survival rate. Inflammatory lesions in the liver and lung as well as bone loss in calvaria and mandibula were ameliorated at 10weeks after BMT compared to Sh3bp2(KI/KI) mice transplanted with Sh3bp2(KI/KI) BM cells. Elevation of serum TNF-α levels was not detected after BMT. BMT was effective for up to 20weeks in 6-week-old Sh3bp2(KI/KI) mice transplanted with Sh3bp2(+/+) BM cells. BMT also ameliorated the inflammation and bone loss in 10-week-old Sh3bp2(KI/KI) mice. Thus our study demonstrates that BMT improves the inflammation and bone loss in cherubism mice. BMT may be effective for the treatment of cherubism patients.

Cherubism with multiple dental abnormalities: a rare presentation.

Cherubism is a progressive, hereditary fibro-osseous lesion exclusively affecting the jaw bones. It is caused by the abnormal functioning of osteoblasts and osteoclasts, leading to replacement of normal bone by cellular fibrous tissue and immature bone, which produces painless progressive growth of the jaw, with a round facial appearance. It was first described in 1933 by Jones as 'familial multilocular cystic disease of the jaws'. The term 'cherubism' was later coined to describe the rounded facial appearance resulting from jaw hypertrophy that was reminiscent of cherubs depicted throughout Renaissance art. The bony lesions generally occur at an early age, affect one or both jaws symmetrically, and grow progressively until puberty. Spontaneous regression is seen in most cases, although surgical re-contouring may be required for others for aesthetic reasons.