Evidence of involvement of the PLAG1 gene in lipoblastomas

Previous cytogenetic studies have demonstrated that the majority of lipoblastomas show rearrangements, in particular translocations and insertions, with breakpoints in 8q11-13. Here we present evidence for involvement of the developmentally regulated zink finger gene PLAG1 in these rearrangements. Northern blot and RT-PCR analyses revealed overexpression of PLAG1 in two lipoblastomas. Using immunohistochemistry, expression of the PLAG1 protein was also demonstrated in tissue sections from two lipoblastomas, one of which had a t(3;8)(q13.1;q12) translocation and the other a t(1;6)(q42;p22) translocation. Since no aberrant PLAG1 transcripts could be detected, it is likely that the gene may be activated by promoter swapping/substitution or alternatively by an as yet unknown mechanism. Our findings indicate that PLAG1 activation is a recurrent event in lipoblastomas and that PLAG1 is likely to be the target gene on chromosome 8 in these tumors.

Transgenic mice expressing a truncated form of the high mobility group I-C protein develop adiposity and an abnormally high prevalence of lipomas

Chromosomal translocations in human lipomas frequently create fusion transcripts encoding high mobility group (HMG) I-C DNA-binding domains and C-terminal sequences from different presumed transcription factors, suggesting a potential role for HMG I-C in the development of lipomas. To evaluate the role of the HMG I-C component, the three DNA-binding domains of HMG I-C have now been expressed in transgenic mice. Despite the ubiquitous expression of the truncated HMG I-C protein, the transgenic mice develop a selective abundance of fat tissue early in life, show marked adipose tissue inflammation, and have an abnormally high incidence of lipomas. These findings demonstrate that the DNA-binding domains of HMG I-C, in the absence of a C-terminal fusion partner, are sufficient to perturb adipogenesis and predispose to lipomas. We provide data supporting the central utility of this animal model as a tool to understand the molecular mechanisms underlying the development of one of the most common kind of human benign tumors.

The expression of MDM2/CDK4 gene product in the differential diagnosis of well differentiated liposarcoma and large deep-seated lipoma

Ordinary lipomas are cytogenetically characterized by a variety of balanced rearrangements involving chromosome segment 12q13-15, whereas well differentiated liposarcomas (WDL) show supernumerary ring and giant marker chromosomes, known to contain amplified 12q sequences. The tight correlation between the presence of ring chromosomes and both amplification and overexpression of MDM2 and CDK4 genes suggests the exploration of the possibility that immunocytochemistry (ICC) might assist in the differential diagnosis of lipoma-like well differentiated liposarcomas (LL-WDL) and large deep-seated lipomas (LDSL). For this purpose, 21 cases of the former and 19 cases of the latter tumours were analysed by ICC and, according to the availability of material, by molecular and cytogenetic approaches. All lipomas displayed a null MDM2/CDK4 phenotype, whereas all LL-WDL showed MDM2/CDK4 or CDK4 phenotypes. Southern blot analysis performed on 16 suitable cases, complemented by fluorescence in situ hybridization and classical cytogenetic analysis in 11 cases, was consistent with, and further supported the immunophenotyping data. In conclusion, MDM2/CDK4 product-based immunophenotyping appears to represent a valuable method for the categorization of arguable LDSL.

Biological continuum of benign, atypical, and malignant mesenchymal neoplasms - does it exist?

The characterization of specific cytogenetic and molecular abnormalities in benign and malignant soft tissue tumours has increased our understanding and knowledge of the biology of these rare neoplasms in recent years and has led to the modification of a number of traditional classification schemes. Contrary to popular belief, it is reasonable to propose that there exists a molecular, genetic, and morphological continuum of benign, atypical, and malignant mesenchymal neoplasms. The identification of characteristic molecular changes in benign lipomas, lipomas with minimal atypia, and atypical lipomatous tumours, well-differentiated liposarcomas supports the hypothesis of a stepwise process in the pathogenesis of these neoplasms. Not only are these findings important for our understanding of the biology of soft tissue tumours, but they also may increase diagnostic and prognostic accuracy.

Coordinated expression and amplification of the MDM2, CDK4, and HMGI-C genes in atypical lipomatous tumours

Atypical lipomatous tumours (ALTs) represent a distinctive subset of mesenchymal neoplasms featuring mature adipocytic differentiation. Most ALTs are characterized cytogenetically by the presence of supernumerary ring and/or long marker chromosomes derived from the chromosomal region 12q13-15. The 12q13-15 chromosome region contains several genes which may play an important role in human tumorigenesis. A series of ALTs was analysed by investigating the MDM2, CDK4, and HMGI-C genes and their proteins. The study was extended to a series of ordinary lipomas, to determine whether the immunohistochemical investigation of these gene products might play any diagnostic role. Cytogenetic analysis revealed the presence of various cytogenetic aberrations involving the 12q13-15 region in 11/18 (61%) lipomas and of ring chromosomes in all ALTs. Overexpression of mdm2 protein was observed in 6/12 (50%) atypical lipomatous tumours. All lipomas were mdm2-negative. cdk4 overexpression was present in 100% of ALTs. Weak cdk4 immunopositivity was detected in 2/18 (11%) ordinary lipomas in a minority of cells. HMGI-C immunopositivity was observed in 10/12 (83%) ALTs. Positive immunoreactivity was also observed in 8/18 (44%) lipomas. Southern blot analysis revealed amplification of the CDK4 and MDM2 genes in 3/5 ALTs analysed. HMGI-C was amplified in 3/5 cases and was deleted in one case. Mutation analysis of the CDK4 gene did not demonstrate any mutation. These data support the hypothesis that ordinary lipomas may form a molecular genetic and morphological continuum with ALT. At one end of the spectrum are lipomas characterized by 12q13-15 rearrangements and HMGI-C activation and at the other end are ALTs with ring chromosomes, 12q13-15 amplification with overrepresentation of the HMGI-C, CDK4 or MDM2 genes, and aberrant cdk4, mdm2, and HMGI-C protein expression. These findings not only provide insights into the molecular pathogenesis of lipomatous tumours, but also indicate that the immunohistochemical analysis of mdm2 and cdk4 may help to increase diagnostic accuracy.

Targeted oncogenesis reveals a distinct tissue-specific utilization of alternative promoters of the human mineralocorticoid receptor gene in transgenic mice

The human mineralocorticoid receptor (hMR) is a nuclear receptor mediating aldosterone action, whose expression is driven by two alternative promoters, P1 and P2, flanking the two first 5'-untranslated exons. In vivo characterization of hMR regulatory regions was performed by targeted oncogenesis in mice using P1 or P2 directing expression of the large T antigen of SV40 (TAg). While transgenic P1.TAg founders rapidly developed lethal hibernomas from brown fat, cerebral primitive neuroectodermal tumors and facial leiomyosarcomas occurred in P2.TAg mice. Quantitative analyses of mouse MR (mMR) and transgene expression indicate that P1 promoter was transcriptionally active in all MR-expressing tissues, directing strong TAg expression in testis and salivary glands, moderate in lung, brain, uterus, liver, and heart but, unlike mMR, rather low in colon and kidney. Importantly, the renal transgene expression colocalized with mMR in the distal nephron. In contrast, P2 promoter was approximately 10 times less potent than P1, with no activity in the brain and colon. Several immortalized cell lines were established from both neoplastic and normal tissues of transgenic mice. These cells exhibited differentiated characteristics and maintained MR expression, thus providing useful models for further studies exploring the widespread expression and functions of MR. Our results demonstrate that hMR gene expression in vivo is controlled by complex regulatory mechanisms involving distinct tissue-specific utilization of alternative promoters.

HMGI-C and HMGI(Y) immunoreactivity correlates with cytogenetic abnormalities in lipomas, pulmonary chondroid hamartomas, endometrial polyps, and uterine leiomyomas and is compatible with rearrangement of the HMGI-C and HMGI(Y) genes

High-mobility group (HMG) proteins are nonhistone nuclear proteins that play an important role in the regulation of chromatin structure and function. HMGI-C and HMGI(Y) are members of the HMGI family of HMG proteins, and their expression in adult tissues generally correlates with malignant tumor phenotypes. However, HMGI-C and HMGI(Y) dysregulation as a result of specific rearrangements involving 12q15 and 6p21, the respective chromosomal sites in which the HMGI-C and HMGI(Y) genes are located, is also identified in a variety of common benign mesenchymal tumors, such as lipomas and uterine leiomyomata. The general prevalence of HMGI-C and HMGI(Y) protein expression and its correlation with chromosomal alterations in these benign tumors are unknown. We analyzed 95 human tumors (20 lipomas, 21 pulmonary chondroid hamartomas, 26 uterine leiomyomata, and 28 endometrial polyps) representing a selection of the benign lesions in which karyotypic alterations involving the chromosomal regions 12q15 and 6p21 are frequently detected. All cases were successfully karyotyped and some of them analyzed by fluorescent in situ hybridization with probes spanning the HMGI-C and HMGI(Y) genes. The results of this study demonstrate that expression of HMGI-C or HMGI(Y) is a common occurrence in lipomas, pulmonary chondroid hamartomas, leiomyomata, and endometrial polyps; that it correlates with 12q15 and 6p21 chromosomal alterations (p < 0.001); and that it is compatible with rearrangement of the HMGI-C and HMGI(Y) genes. The expression pattern and cellular localization of the immunoreactivity support the view that in biphasic lesions composed of a mixture of both stromal and epithelial cells, such as pulmonary chondroid hamartoma and endometrial polyps, the mesenchymal component is the site of the HMGI genetic alterations.

Sequence analysis of the MEN I gene in two patients with multiple cutaneous lipomas and endocrine tumors

The discovery of mutations of the menin gene in a few multiple endocrine neoplasma type 1 (MEN I)-associated lipomas and loss of heterozygosity (LOH) on chromosome 11q13 in some sporadic lipomas has stimulated the hypothesis that lipomas may belong to the group of sporadic tumors caused by defects of the gene responsible for MEN I. Since it is unclear if the above hypothesis applies to all patients with lipoma or just to specific subsets, we searched to enlarge the database on this topic. For this purpose, we identified two patients with multiple cutaneous lipomas. One had an additional pituitary adenoma and familial presentation of multiple lipomas, the other had recurrent goiter in the setting of a family history of adenomatous goiter. Deoxyribonucleic acid (DNA) was analyzed by complete direct DNA sequencing of all coding exons and splice junctions of the MEN I gene. No mutation was identified in the coding exons of the menin gene. In contrast to former data on sporadic lipomas, these data are the first to render evidence that mutations of the MEN I gene may not be responsible for the formation of multiple lipomas, even if they appear in the context of other endocrine tumors.

Thoracic wall lipoblastoma: a case report and review of histopathology and cytogenetics

A rare case of a successfully excised intra- and extrathoracic lipoblastoma of the anterior chest wall in a 13-month-old female infant is reported. Histopathology and cytogenetical analysis established the diagnosis of a lipoblastoma. The differential diagnosis, histology and cytogenetical evaluation of lipomatous neoplasms are discussed. Karyotypic analysis may be of use in diagnostically difficult cases owing to the characteristic alterations in 18q11-13. A complete resection of lipoblastomas is feasible and advantageous with no need for a mutilating radical excision.

Dysregulation of HMGIC in a uterine lipoleiomyoma with a complex rearrangement including chromosomes 7, 12, and 14

Uterine lipoleiomyomas are extremely rare tumors consisting of a mixture of mature adipocytes and smooth muscle cells. Using G-banding and FISH, we characterized a complex rearrangement involving chromosomes 7, 8, 10, 11, 12, and 14 in one of these tumors. The region 14q23-24 was inserted into the long arm of the derivative chromosome 12, between the 3' end of HMGIC and 7q21-22, another region often rearranged in uterine leiomyomas. Other portions of chromosomes 12 and 14 were involved in derivative chromosomes 7, 11, 12, and 14. A chromosome 8 was involved in a three-way rearrangement including the derivative 7, a ring chromosome 10, and a small derivative chromosome 8 bearing segments of chromosomes 10 and 11. No abnormality of chromosome 5 was detected, in contrast to two previously reported cytogenetic analyses of uterine lipoleiomyoma. The consistent finding of chromosomes 12 and 14 on different derivatives indicates that the t(12;14) was a primary event. In addition, immunohistochemical studies showed that HMGI-C was aberrantly expressed in this tumor. These observations suggest that uterine lipoleiomyomas have a pathogenetic origin similar to that of typical leiomyomas. Genes Chromosomes Cancer 27:209-215, 2000.

Vogt-Koyanagi-Harada syndrome in a pregnant patient treated with high-dose systemic corticosteroids

PURPOSE

Vogt-Koyanagi-Harada (VKH) syndrome is usually treated with high-dose systemic corticosteroids. However, in a pregnant patient with VKH syndrome, the effects of high-dose corticosteroids on the fetus are controversial. We discuss treating VKH syndrome during pregnancy, systemic corticosteroids, and abnormalities in the delivered infant.

METHODS

Case report and literature review.

RESULTS

A 26-year-old Japanese woman in the 16th week of gestation was diagnosed with VKH syndrome and treated with high-dose systemic prednisolone after the 18th week of gestation. Although the patient's ocular findings gradually improved, a low-birth-weight infant was delivered with epibulbar dermoid, lipodermoids, and preauricular appendages. Although low birth weight might result from systemic prednisolone administration, the anomalies of the infant may have been inherited rather than caused by VKH syndrome and high-dose systemic corticosteroid administration.

CONCLUSION

In this case and previously reported cases, VKH syndrome and systemic corticosteroids administered during pregnancy may not precipitate abortion and congenital malformation.

Benign recurring lipoblastoma in an adult versus well differentiated subcutaneous myxoid liposarcoma: clinicopathologic, immunohistochemical and molecular analysis of a unique case

Subcutaneous myxoid liposarcoma (ML) is exceedingly rare, with only two or three cases having been reported. Lipoblastoma (LB), a rare fatty tumor that arises in infants and children, is unknown after adolescence. In contrast to ML, LB is often superficial. The two tumors can be difficult to distinguish due to many histologic similarities. We examined a 0.9 cm superficial subcutaneous nodule from the dorsal neck of a 48 year old man that had been growing slowly. Three and one half years later, a 0.4 cm palpable recurrent nodule was excised from the scar. The patient is now free of disease at 7.5 years. Because of these unusual features, we performed clinicopathologic, immunohistochemical and molecular analysis of this unusual tumor to decide if this represented a rare cutaneous ML or an unprecedented example of LB in an adult. The primary featured a thick fibrous pseudocapsule with foci of lymphocytes and infiltrating nests of semi-mature fetal-appearing adipocytic tissue. This surrounded a more immature cellular-but-cytologically-bland myxoid tissue featuring stellate cells and signet lipoblasts. There were fibrous sep at the periphery and the vasculature was rather inconspicuous. The 0.4 cm diameter recurrence was distinctly lobular and had minute satellite nodules. It was composed of uniform fetal-appearing bland myxoid lipoblastic tissue featuring signet ring lipoblasts surrounded by a few spindle cells. In both tumors, lipoblasts expressed S-100 protein. In the primary, 5% of the lesional cells were FXIIIa+ dendritic stromal histiocytes while in the recurrence, 15% of the lesional cells were FXIIIa+ dendritic cells. CD34 stained only scattered small capillaries. The Ki67 proliferation index was 1% in the primary and 3% in the recurrence. RT-PCR assay for TLS/FUS-CHOP fusion transcripts was negative despite three repeat tests performed on paraffin sections of the primary tumor in the presence of good m-RNA internal controls. We reviewed the clinicopathologic and cytogenetic features of ML and LB. Based on this review and on the growth pattern, anatomic features and molecular data from the present case, we conclude that this tumor may represent the first reported case of adult LB.

Frontonasal dysostosis in two successive generations

Frontonasal dysostosis (also called frontonasal "dysplasia") comprises ocular hypertelorism, median facial cleft affecting nose and/or upper lip, unilateral or bilateral cleft of the alae nasi, anterior cranium bifidum occultum, or a widow's peak. Usually it is a sporadic disorder, although a few familial cases have been reported. We describe a 2-year-old girl with anterior cranium bifidum occultum, lipoma of genu and anterior part of the corpus callosum, and hypertelorism. Her mother had a history of a nasal drip at birth caused by a defect in the cribriform plate and phenotypically, a widow's peak. This observation suggests either autosomal dominant or X-linked dominant inheritance. The family illustrates the importance of identifying mild expression of frontonasal dysostosis before genetic counseling.

110 subfascial lipomatous tumors. MR and CT findings versus histopathological diagnosis and cytogenetic analysis

PURPOSE

To evaluate whether liposarcoma, atypical lipomatous tumors and lipoma can be differentiated radiologically.

MATERIAL AND METHODS

We have retrospectively analyzed CT and/or MR images of 110 subfascial lipomatous lesions. The amount of fat within the tumors was visually graded from the images as: none, 1-75%, 75-95% or 95-100%. The structure of non-fatty tumor components was compared. The images were compared to histopathology and in 37 cases to cytogenetic findings.

RESULTS

Only 4 of 20 liposarcomas contained fat. All 4 lesions, histopathologically diagnosed as atypical lipomatous tumors, contained fat but less than 75% of tumor volume. All lesions with more fat than 75% of tumor volume were histologically diagnosed as lipomas. However, one-third of the karyotyped lipomas had ring chromosomes which are considered typical for atypical lipomatous tumors.

CONCLUSION

When a tumor is composed more or less solely of fat, the diagnosis of a lipoma or atypical lipomatous tumor with a phenotype simulating a lipoma can be assumed. When the fat content is less than 75% of the tumor volume or non-fatty nodules are found, biopsies from different tumor components have to be performed to exclude malignancy. When no fat is found, imaging does not help in differentiating lipoma or liposarcoma from other soft tissue tumors.

Unique cytological features and chromosome aberrations in chondroid lipoma: a case report based on fine-needle aspiration cytology, histopathology, electron microscopy, chromosome banding, and molecular cytogenetics

Chondroid lipoma is a rare, benign tumor that may mimic soft-tissue sarcoma clinically. Its histopathologic features may resemble hibernoma, myxoid liposarcoma, myxoid chondrosarcoma, and other lipomatous or chondroid neoplasms. In this study, a chondroid lipoma was analyzed by fine-needle aspiration cytology, histopathology, electron microscopy, chromosome banding, and metaphase fluorescence in situ hybridization. The results demonstrate that chondroid lipoma exhibits a characteristic pattern by fine-needle aspiration cytology, including a mixture of benign adipose tissue with lipoblastlike cells, and chondroblastlike cells with a fibrochondroid matrix. Cytogenetically, a three-way rearrangement between chromosomes 1, 2, and 5 was found, together with an 11;16 translocation with a breakpoint in 11q13, approximately 1 Mb proximal to the MEN1 region shown to be rearranged frequently in hibernoma. The presence of a karyotype of low complexity, but without any of the genetic aberrations characteristic for other types of soft-tissue tumors, indicate that chondroid lipoma develops along a unique pathogenetic pathway.

Variable stability of chromosomes containing amplified alpha-satellite sequences in human mesenchymal tumours

Alpha-satellite sequences are found in the centromeric region of all human chromosomes and have been implicated in centromeric function. We describe the structure and behaviour of chromosomes containing amplified human alphoid DNA from chromosome 12, in an osteosarcoma cell line (OSA) and an atypical lipomatous tumour (ALT). In OSA, the amplified material was detected in one large marker chromosome, whereas in ALT amplified sequences were observed in chromosomes of variable number and appearance. The marker in OSA was mitotically stable, but those in ALT exhibited a high degree of mitotic instability, forming bridges at anaphase and chromatin strings between interphase nuclei. The amplified alpha-satellite arrays reacted positively with human anti-centromeric antiserum and anti-centromere protein B antibodies in both tumours. Centromere protein C, previously shown to be present only in functional kinetochores, was invariably detected at the constriction of the marker in OSA, while one-fifth of markers in ALT appeared to exhibit additional centromere protein C-positive regions outside the primary constriction, indicating that the observed chromosomal instability in ALT might, at least in part, be a consequence of the occasional formation of more than one functional kinetochore. In OSA the alphoid DNA was coamplified with unique sequences from central 12q and the amplified material was C-band negative but in ALT amplified material from central 12q as well as sequences from proximal 12p were detected, resulting in C-band-positive areas. A propensity for additional kinetochore formation might thus be associated with the coamplification of alphoid DNA and pericentromeric sequences from chromosome 12.

HMGI(Y) and HMGI-C dysregulation: a common occurrence in human tumors

HMGI(Y) and HMGI-C are members of a distinct family of "high mobility group" (HMG) proteins that are nonhistone chromatin-associated proteins initially characterized by high electrophoretic mobility in polyacrylamide gels (hence the acronym HMG). Recent studies have shown that HMGI(Y) and HMGI-C are important elements with a role in the regulation of chromatin structure and function. Like other HMG proteins they are responsible for the correct three-dimensional configuration of protein-DNA complexes and therefore play a key role in important cellular processes such as DNA transcription. Aberrant HMGI(Y) and HMGI-C expression generally correlates with a malignant tumor phenotype. However, HMGI(Y) and HMGI-C dysregulation, as a result of specific chromosomal rearrangements, is also being identified in a variety of common benign mesenchymal tumors such as lipomas and uterine leiomyomas making HMGI(Y) and HMGI-C genes probably the most commonly rearranged genes in human neoplasms. While a precise definition of the HMGI(Y) and HMGI-C role in tumor initiation and progression is still missing, it is likely that future investigations will contribute valuable insights to the understanding of human neoplasia.

Hibernomas are characterized by homozygous deletions in the multiple endocrine neoplasia type I region. Metaphase fluorescence in situ hybridization reveals complex rearrangements not detected by conventional cytogenetics

Hibernomas are benign tumors of brown fat, frequently characterized by aberrations of chromosome band 11q13. In this study, the chromosome 11 changes in five hibernomas were analyzed in detail by metaphase fluorescence in situ hybridization. In all cases, complex rearrangements leading to loss of chromosome 11 material were found. Deletions were present not only in those chromosomes that were shown to be rearranged by G-banding, but in four cases also in the ostensibly normal homologues, resulting in homozygous loss of several loci. Among these, the gene for multiple endocrine neoplasia type I (MEN1) was most frequently deleted. In addition to the MEN1 deletions, heterozygous loss of a second region, approximately 3 Mb distal to MEN1, was found in all five cases, adding to previous evidence for a second tumor suppressor locus in 11q13.

Cytogenetic investigation of canine lipomas

Akin to humans, lipomas are common in the dog as well; however, until now there were no reports of cytogenetic investigations on these tumors in the canine. We report our results of cytogenetic investigations on a series of ten canine lipomas. Clonal aberrations were observed in seven cases. In one case a trisomy 27 was evident; in another case a trisomy 13 was present in addition to a marker chromosome. A third lipoma showed a fusion of chromosomes 2 and 13. These cases showed one derivative chromosome each (der(X), der(7), and der(4)), and one case had two derivative chromosomes (der(X) plus der(4)). In the two cases with derivative chromosomes 4, the same region (4q31) was affected. It is tempting to speculate that this region might harbor a gene associated with tumor development. The results are compared to the cytogenetic situation in human lipomas.

LHFP, a novel translocation partner gene of HMGIC in a lipoma, is a member of a new family of LHFP-like genes

A major cytogenetic subgroup among human lipomas is characterized by translocations involving the HMGIC gene at 12q15. In the context of an ongoing research program aiming at the elucidation of the functional consequences of HMGIC translocations in the etiology of lipomas, we have isolated a novel human gene, LHFP (lipoma HMGIC fusion partner), that acts as a translocation partner of HMGIC in a lipoma with t(12;13). The LHFP gene was mapped to the long arm of chromosome 13, a region recurrently targeted by chromosomal aberrations in lipomas. By Northern blot analysis, a transcript of 2. 4 kb was detected in a variety of human tissues. We assembled a cDNA contig containing the entire coding region of LHFP. Nucleotide sequence analysis of the composite LHFP cDNA revealed an open reading frame encoding a protein of 200 amino acids. The predicted human LHFP protein is almost identical to a translated mouse EST that covers almost the entire LHFP coding region. In addition, BLAST searches revealed that the LHFP protein belongs to a new protein family consisting of at least four or five members. In the lipoma studied, the expressed HMGIC/LHFP fusion transcript encodes the three DNA binding domains of HMGIC followed by 69 amino acids encoded by frame-shifted LHFP sequences. LHFP is the second translocation partner of HMGIC identified in lipomas and represents a candidate target gene for lipomas with 13q aberrations.

HMG1 is not rearranged by 13q12 aberrations in lipomas

Several cytogenetic subgroups with characteristic lesions involving chromosomal regions 12q14-15, 6p21.3, or 13q12 can be distinguished in lipomas. Rearrangements of the HMGIC gene have been described in cases with 12q14-15 abnormalities, whereas HMGIY has been shown to be the target gene of 6p21.3 aberrations. Recently, HMG1, another member of the HMG family, was mapped to 13q12. The aim of this study was to investigate the possible role of HMG1 aberrations in lipomas with 13q12 abnormalities. Two PAC clones containing HMG1 were isolated. By molecular cytogenetic investigations using these PAC clones and by Southern blot analysis of eight lipomas with 13q12 abnormalities, we were able to show that these chromosomal rearrangements did not result in intragenic rearrangements of HMG1 or breakpoints close to it.

Cytogenetic and cytologic features of chondroid lipoma of soft tissue

The cytologic and cytogenetic findings of chondroid lipoma, a rare benign tumor of soft tissue, have not been described. This report details the morphologic features of a fine-needle aspiration biopsy specimen and describes a novel cytogenetic finding. The main cytologic features consisted of clustered, variably mature, multivacuolated, hibernoma-like cells enmeshed in a capillary plexus, with a background of chondromyxoid material. Cytogenetic analysis revealed a balanced translocation t (11, 16)(q13;p12-13) distinct from the known translocation involving 16p11 in myxoid and round-cell liposarcoma. The 11q13 breakpoint was previously noted in hibernomas, raising the possibility of a common genetic deregulation.

The biological resolution of malformations of the central nervous system

It has been known for years that the assembly of the nervous system is under genetic control. During the last 10 years, the genes that direct the formation of the brain and spinal cord have begun to be discovered at an amazing pace. Mutations in the fruit fly and advances in molecular genetics have led the way. Gene mutations that cause many of the malformations of the human brain and spinal cord are now known. This has many physician-scientists hoping that an understanding of cause might lead to cure.

Lipoblastoma and liposarcoma in children: an analysis of 9 cases and a review of the literature

OBJECTIVES

To review the experience at a children's hospital of lipoblastoma and liposarcoma and to identify any factors that would differentiate one type of tumour from the other.

DESIGN

A retrospective case series.

SETTING

British Columbia's Children's Hospital a tertiary-care pediatric centre.

PATIENTS

All patients with a pathological diagnosis of lipoblastoma and liposarcoma recorded over 12 years.

MAIN OUTCOME MEASURES

The frequency of lipoblastoma and liposarcoma, identified from biopsy specimens of pediatric adipose tumours. The clinical, pathological and cytogenetic variables between lipoblastoma and liposarcoma.

RESULTS

One hundred and forty-nine adipose tumours were recorded. Seven (4.7%) were lipoblastomas and 2 (1.3%) were liposarcomas. All tumours presented as asymptomatic, slow-growing, soft-tissue masses. The children with lipoblastoma tended to be younger, but 29% were over 3 years of age. The liposarcoma patients were aged 9 and 14 years. One liposarcoma was of myxoid type and the other was a round cell variant. Karyotypes were reported for 1 lipoblastoma and 1 liposarcoma. The myxoid liposarcoma karyotype was 46,XY,t(12;16)(q13;p11), and the lipoblastoma was reported as 46,XY,der(8)?t(8q;?),+mar.

CONCLUSIONS

Lipoblastoma is an unusual childhood neoplasm and liposarcoma is very rare in children. Both tumours may present in a similar fashion, and differentiating them histologically can be difficult. Age cannot be relied upon to accurately predict their behaviour. The tumour karyotype is very helpful in differentiating these neoplasms.