Bernard Gerrard

Mutations of the Human Homolog of Drosophila patched in the Nevoid Basal Cell Carcinoma Syndrome

The nevoid basal cell carcinoma syndrome (NBCCS) is an autosomal dominant disorder characterized by multiple basal cell carcinomas (BCCs), pits of the palms and soles, jaw keratocysts, a variety of other tumors, and developmental abnormalities. NBCCS maps to chromosome 9q22.3. Familial and sporadic BCCs display loss of heterozygosity in this region, consistent with the gene being a tumor suppressor. A human sequence (PTC) with strong homology to the Drosophila segment polarity gene, patched, was isolated from a YAC and cosmid contig of the NBCCS region. Mutation analysis revealed alterations of PTC in NBCCS patients and in related tumors. We propose that a reduction in expression of the patched gene can lead to the developmental abnormalities observed in the syndrome and that complete loss of patched function contributes to transformation of certain cell types.

A photoreceptor cell-specific ATP-binding transporter gene (ABCR) is mutated in recessive Stargardt macular dystrophy

Stargardt disease (STGD, also known as fundus flavimaculatus; FFM) is an autosomal recessive retinal disorder characterized by a juvenile-onset macular dystrophy, alterations of the peripheral retina, and subretinal deposition of lipofuscin-like material. A gene encoding an ATP-binding cassette (ABC) transporter was mapped to the 2-cM (centiMorgan) interval at 1p13-p21 previously shown by linkage analysis to harbour the STGD gene. This gene, ABCR, is expressed exclusively and at high levels in the retina, in rod but not cone photoreceptors, as detected by in situ hybridization. Mutational analysis of ABCR in STGD families revealed a total of 19 different mutations including homozygous mutations in two families with consanguineous parentage. These data indicate that ABCR is the causal gene of STGD/FFM.

Dating the Origin of the CCR5-Δ32 AIDS-Resistance Allele by the Coalescence of Haplotypes

The CCR5-Delta32 deletion obliterates the CCR5 chemokine and the human immunodeficiency virus (HIV)-1 coreceptor on lymphoid cells, leading to strong resistance against HIV-1 infection and AIDS. A genotype survey of 4,166 individuals revealed a cline of CCR5-Delta32 allele frequencies of 0%-14% across Eurasia, whereas the variant is absent among native African, American Indian, and East Asian ethnic groups. Haplotype analysis of 192 Caucasian chromosomes revealed strong linkage disequilibrium between CCR5 and two microsatellite loci. By use of coalescence theory to interpret modern haplotype genealogy, we estimate the origin of the CCR5-Delta32-containing ancestral haplotype to be approximately 700 years ago, with an estimated range of 275-1,875 years. The geographic cline of CCR5-Delta32 frequencies and its recent emergence are consistent with a historic strong selective event (e.g. , an epidemic of a pathogen that, like HIV-1, utilizes CCR5), driving its frequency upward in ancestral Caucasian populations.

Multiple mutations in highly conserved residues are found in mildly affected cystic fibrosis patients

We have identified three different point mutations in the coding region of the cystic fibrosis transmembrane conductance regulator (CFTR) gene. Each mutation segregates with the disease in two- or three-generation pedigrees and is not found on the normal chromosome of any documented cystic fibrosis carrier. One of the mutations is found in two independent families that contain at least one individual with a mild course of disease. All of these alterations replace charged amino acids with less polar residues and are found in the putative transmembrane sections of the molecule. The mutated amino acids are found to be conserved in both rodents and amphibians and lie in a region of CFTR that is believed to form a channel in the membrane. Although these alterations are rare, they provide important clues to functionally important regions of the molecule.

A novel germ line juxtamembrane Met mutation in human gastric cancer

Activating mutations in the Met receptor tyrosine kinase, both germline and somatic, have been identified in human papillary renal cancer. Here we report a novel germline missense Met mutation, P1009S, in a patient with primary gastric cancer. The dosage of the mutant Met DNA was elevated in the tumor when compared to its matched normal DNA. Therefore, as with hereditary renal papillary cancer, the mutant Met allele may also be selectively duplicated in the tumor. Different from previously reported Met mutations, which occur in the tyrosine kinase domain, this missense mutation is located at the juxtamembrane domain, and is not constitutively activated. However, following treatment with HGF/SF, the P1009S mutant Met protein, expressed in NIH3T3 cells, displays increased and persistent tyrosine phosphorylation compared to the wild-type Met. Importantly, these cells also form colonies in soft agar, and are highly tumorigenic in athymic nude mice. A second nucleotide change in this region of Met, T1010I, was found in a breast cancer biopsy and a large cell lung cancer cell line. Although this previously reported ‘polymorphism’ did not stimulate NIH3T3 cell growth in soft agar, it was more active than the wild-type Met in the athymic nude mice tumorigenesis assay, suggesting that it may have effects on tumorigenesis. Met has been shown to be highly expressed in human gastric carcinoma cell lines, and our results raise the possibility that activating missense Met mutations could contribute to tumorigenesis of gastric cancer.

Homologues of the human multidrug resistance genes MRP and MDR contribute to heavy metal resistance in the soil nematode Caenorhabditis elegans.

Acquired resistance of mammalian cells to multiple chemotherapeutic drugs can result from enhanced expression of the multidrug resistance‐associated protein (MRP), which belongs to the ABC transporter superfamily. ABC transporters play a role in the protection of organisms against exogenous toxins by cellular detoxification processes. We have identified four MRP homologues in the soil nematode Caenorhabditis elegans, and we have studied one member, mrp‐1, in detail. Using an mrp::lacZ gene fusion, mrp‐l expression was found in cells of the pharynx, the pharynx‐intestinal valve and the anterior intestinal cells, the rectum‐intestinal valve and the epithelial cells of the vulva. Targeted inactivation of mrp‐l resulted in increased sensitivity to the heavy metal ions cadmium and arsenite, to which wild‐type worms are highly tolerant. The most pronounced effect of the mrp‐1 mutation is on the ability of animals to recover from temporary exposure to high concentrations of heavy metals. Nematodes were found to be hypersensitive to heavy metals when both the MRP homologue, mrp‐1, and a member of the P‐glycoprotein (Pgp) gene family, pgp‐1, were deleted. We conclude that nematodes have multiple proteins, homologues of mammalian proteins involved in the cellular resistance to chemotherapeutic drugs, that protect them against heavy metals.

A Mammalian patched Homolog Is Expressed in Target Tissues of sonic hedgehog and Maps to a Region Associated with Developmental Abnormalities

Drosophila patched is a segment polarity gene required for the correct patterning of larval segments and imaginal discs during fly development and has a close functional relationship with hedgehog. We have isolated a complete human PATCHED cDNA sequence, which encodes a putative protein of 1296 amino acids, and displays 39% identity and 60% similarity to the Drosophila PATCHED protein. Hydropathy analysis suggests that human PATCHED is an integral membrane protein with a pattern of hydrophobic and hydrophilic stretches nearly identical to that of Drosophila patched. In the developing mouse embryo, patched is initially detected within the ventral neural tube and later in the somites and limb buds. Expression in the limb buds is restricted to the posterior ectoderm surrounding the zone of polarizing activity. The results show that patched is expressed in target tissues of sonic hedgehog, a murine homolog of Drosophila hedgehog suggesting that patched/hedgehog interactions have been conserved during evolution. Human PATCHED maps to human chromosome 9q22.3, the candidate region for the nevoid basal cell carcinoma syndrome. Patched expression is compatible with the congenital defects observed in the nevoid basal cell carcinoma syndrome.

Evaluation of the Best disease gene in patients with age-related macular degeneration and other maculopathies.

Abstract Vitelliform macular dystrophy (VMD2, Best disease, MIM153700) is an early onset, autosomal, dominant macular degeneration characterized by the deposition of lipofuscin-like material within and below the retinal pigment epithelium (RPE); it is associated with degeneration of the RPE and overlying photoreceptors. Recently, we cloned the gene bestrophin, which is responsible for the disease, and identified a number of causative mutations in families with VMD2. Here, we report that the analysis of bestrophin in a collection of 259 age-related macular degeneration (AMD) patients provides evidence that mutations in the Best disease gene do not play a significant role in the predisposition of individuals to AMD. However, our results suggest that, in addition to Best disease, mutations within the bestrophin gene could be responsible for other forms of maculopathy with phenotypic characteristics similar to Best disease and for other diseases not included in the VMD category.

Polymorphisms of the human IFNG gene noncoding regions

Abstract Interferon gamma (IFN-gamma) is a multifunctional cytokine that is essential in the development of Th1 cells and in cellular responses to a variety of intracellular pathogens including human immunodeficiency virus (HIV-1). We screened genomic DNA samples from a predominately Caucasian male population of HIV-infected and healthy donors for polymorphisms in the human IFNG gene from –777 to +5608 by single-stranded conformational polymorphism. Surprisingly, the proximal promoter (–777 to transcription start) is invariant as no polymorphisms were found in over 100 samples tested. However, further screening revealed polymorphisms in other regions of the gene including a single base insertion in a poly-T tract in the first intron, three single base pair substitutions in the third intron, and another single base pair substitution in the 3′ untranslated region (UTR). Electrophoretic mobility shift assay was used to investigate whether these variants have altered DNA-binding abilities, since intronic enhancer elements have been reported for the IFNG gene. Oligonucleotides constructed for two third intron variants showed no difference in DNA-binding abilities as compared with wild-type sequences. However, the 3′UTR variant showed the formation of unique DNA-binding complexes to radiolabeled oligonucleotide probes as compared with the wild-type sequence. The influence of a CA-repeat microsatellite on AIDS disease progression in HIV-1 seroconverters was tested by a Cox proportional hazards model. There is no evidence of an association between alleles and infection with HIV-1 or progression to AIDS. We report an invariant proximal human IFNG promoter and the existence of multiple intronic variants and a potentially functional 3′UTR polymorphism.

Typing of HLA-DQA1 and DQB1 using DNA single-strand conformation polymorphism

The technique of single-strand conformation polymorphism (SSCP), which is capable of distinguishing DNA sequence variability, was adapted to the identification of the HLA-DQA1 and DQB1 alleles. Eight DQA1 alleles and 12 DQB1 alleles were distinguished by amplifying the second exon of the genes in the presence of radioactive deoxynucleotide, denaturing the products with heat, and separating the single strands by electrophoresis in nondenaturing gels. For DQA1, it was possible to distinguish the eight alleles with standard bis-acrylamide or with a Hydrolink gel matrix. Twelve DQB1 alleles were identified by a protocol employing a combination of oligohybridization and SSCP using products amplified by specific DQB1 primers.