Confirmation of TENM3 Involvement in Autosomal Recessive Colobomatous Microphthalmia

Anophthalmia and microphthalmia are the most severe malformations of the eye, referring to a congenital absence, and a reduced size of the eyeball respectively. More than 20 genes have been shown to be mutated in patients with syndromic and non-syndromic forms of anophthalmia–microphthalmia. In a recent study combining autozygome and exome analysis, a homozygous loss of function mutation in TENM3 (previously named ODZ3) was reported in two siblings with isolated bilateral colobomatous microphthalmia from a consanguineous Saudi family. Herein, we report a third patient (not related to the previously reported family) with bilateral colobomatous microphthalmia and developmental delay in whom genetic studies identified a homozygous TENM3 splicing mutation c.2968-2A>T (p.Val990Cysfs*13). This report supports the association of TENM3 mutations with colobomatous microphthalmia and expands the phenotypic spectrum associated with mutations in this gene

Breast tumor cell soluble factors induce monocytes to produce angiogenic but not angiostatic CXC chemokines

Tumor cells are known to interact closely with nontumoral infiltrating cells in order to grow and proliferate. Monocyte-derived cells constitute a major component of the tumoral infiltrate and a high level of these cells has been associated with increased tumor growth and poor prognosis in patients with breast cancer. For their growth and metastatic propagation, solid tumors are dependant on angiogenesis and accumulated evidences suggest that monocyte-derived cells could also play an important role in this phenomenon. However, the precise nature of proangiogenic factors secreted by these cells in breast carcinomas, and their direct influence on vessel formation, has not been determined. In the present study, we show that soluble factors secreted by breast tumor cells induce monocytes to produce a variety of proangiogenic CXC chemokines without secretion of angiostatic CXC chemokines. Using in vitro tubule formation in Matrigel, we demonstrated that the CXC chemokines secreted by MTSs (monocytes cultured with tumor cell supernatants) were able to induce microvessel formation. The profile of secreted CXC chemokines was characteristic for each tumor cell line or fresh tumor cells. This last result points out that a precise profiling of secreted proangiogenic factors inside the tumor, by tumor cells themselves or tumor-infiltrating monocyte-derived cells, is important for a precise targeting of therapeutic agents against neovascularization

Expression of classical HLA class I molecules: regulation and clinical impacts

International audienceHuman leukocyte antigen (HLA) class I genes are ubiquitously expressed, but in a tissue specific-manner. Their expression is primarily regulated at the transcriptional level and can be modulated both positively and negatively by different stimuli. Advances in sequencing technologies led to the identification of new regulatory variants located in the untranslated regions (UTRs), which could influence the expression. After a brief description of the mechanisms underlying the transcriptional regulation of HLA class I genes expression, we will review how the expression levels of HLA class I genes could affect biological and pathological processes. Then, we will discuss on the differential expression of HLA class I genes according to the locus, allele and UTR polymorphisms and its clinical impact. This interesting field of study led to a new dimension of HLA typing, going beyond a qualitative aspect

Involvement of ATM missense variants and mutations in a series of unselected breast cancer cases

It has been proposed that women carrying heterozygous mutations of the ATM gene could be at increased risk of developing breast cancer. However, data in the literature are contrasting and no firm conclusion has been reached. Our aim was to verify whether ATM inactivation could play a role in breast tumor development. Following the classical tumor suppressor inactivation scheme, tumors showing loss of heterozygosity (LOH) at the ATM locus should present an increased proportion of mutated ATM forms. We screened a cohort of 173 nonselected primary breast tumors for LOH in a 4 cM region at 11q23 spanning the ATM gene. We analyzed 25 tumors presenting LOH within the ATM locus for mutations in the ATM coding sequence using an RT-PCR-SSCP approach. Five patients were found to bear a coding missense variant, out of which four corresponded to a frequent polymorphism in exon 39. One patient presented a previously unreported variant in exon 19 (2614C\textgreaterT) resulting in a nonconservative change (Pro\textgreaterSer) at aa 872. This variant was not found in any of the other 172 patients nor in 63 healthy controls tested, indicating that it is a rare ATM variant. LOH involved the ATM wild-type allele in the tumor presenting variant 2614. However, because the ATM gene presents a relatively large number of rare coding polymorphism it is difficult, in the absence of familial data, to be conclusive on the significance of this variant. Searching for further variants in exons 19 and 39 in the whole set of 173 breast tumors, we found one tumor showing an acquired deletion of four bases in the ATM gene. Somatic mutations affecting the ATM gene thus seem rare in breast cancer. In our cohort of breast cancer patients, tumors presenting LOH at the ATM locus did not show an increased frequency of sequence variants. Furthermore, allelic imbalance profiles in a 4-cM region of chromosome arm 11q spanning the ATM locus revealed that hot spots of LOH were more likely to correspond to a region localized telomeric to the gene. Therefore, these data suggest that other target genes for genetic inactivation exist in the 11q23 region

Involvement of ATM missense variants and mutations in a series of unselected breast cancer cases

It has been proposed that women carrying heterozygous mutations of the ATM gene could be at increased risk of developing breast cancer. However, data in the literature are contrasting and no firm conclusion has been reached. Our aim was to verify whether ATM inactivation could play a role in breast tumor development. Following the classical tumor suppressor inactivation scheme, tumors showing loss of heterozygosity (LOH) at the ATM locus should present an increased proportion of mutated ATM forms. We screened a cohort of 173 nonselected primary breast tumors for LOH in a 4 cM region at 11q23 spanning the ATM gene. We analyzed 25 tumors presenting LOH within the ATM locus for mutations in the ATM coding sequence using an RT-PCR-SSCP approach. Five patients were found to bear a coding missense variant, out of which four corresponded to a frequent polymorphism in exon 39. One patient presented a previously unreported variant in exon 19 (2614C\textgreaterT) resulting in a nonconservative change (Pro\textgreaterSer) at aa 872. This variant was not found in any of the other 172 patients nor in 63 healthy controls tested, indicating that it is a rare ATM variant. LOH involved the ATM wild-type allele in the tumor presenting variant 2614. However, because the ATM gene presents a relatively large number of rare coding polymorphism it is difficult, in the absence of familial data, to be conclusive on the significance of this variant. Searching for further variants in exons 19 and 39 in the whole set of 173 breast tumors, we found one tumor showing an acquired deletion of four bases in the ATM gene. Somatic mutations affecting the ATM gene thus seem rare in breast cancer. In our cohort of breast cancer patients, tumors presenting LOH at the ATM locus did not show an increased frequency of sequence variants. Furthermore, allelic imbalance profiles in a 4-cM region of chromosome arm 11q spanning the ATM locus revealed that hot spots of LOH were more likely to correspond to a region localized telomeric to the gene. Therefore, these data suggest that other target genes for genetic inactivation exist in the 11q23 region