X-linked retinitis pigmentosa in two families with a missense mutation in the RPGR gene and putative change of glycine to valine at codon 60

OBJECTIVE: This study describes the ophthalmic findings in two unrelated white families with X-linked retinitis pigmentosa (XLRP) caused by a missense mutation in the retinitis pigmentosa GTPase regulator (RPGR) gene. DESIGN: Genetic screening and clinical correlation. PARTICIPANTS: Thirty-six families with XLRP seen by the authors were screened for a possible mutation in the RPGR gene to identify three affected hemizygotes with retinitis pigmentosa and four heterozygote carriers in one family and one hemizygote and one carrier in a second family. INTERVENTION: All nine patients underwent a routine ocular examination, including slit-lamp biomicroscopy and a dilated fundus examination. Goldmann visual field kinetic perimetry, static threshold perimetry, and electroretinography also were obtained. The DNA screening was performed on the three affected male patients and four obligate carriers examined from one family and the two examined patients, plus an additional male and obligate carrier, from the second family to determine the presence of any causative mutation in the RPGR gene. MAIN OUTCOME MEASURES: Findings on fundus examination, static threshold and kinetic perimetry, and electroretinography testing were the main outcome measures. RESULTS: A G-->T nucleotide change at position 238 in exon 3 of the RPGR gene resulting in a putative substitute of Gly-->Val at codon 60 was shown to segregate with RP in affected males and the carrier state in female heterozygotes in these two families. The ophthalmologic findings in hemizygotes as well as the carriers in this family were within the spectrum of findings characteristically noted in XLRP families. A tapetal-like reflex was not observed in any of the five female carriers. Psychophysical and electrophysiologic testing on the carriers indicated that cone and rod functions were impaired equivalently. When present in the carriers, visual field restriction was most apparent in, or limited to, the superotemporal quadrant, which corresponded to the retinal pigmentary changes that tended to occur in the inferonasal retina. CONCLUSIONS: A mutation in exon 3 of the RPGR gene, which would result in a putative glycine to valine substitution at codon 60, is associated with a severe clinical phenotype in male patients and a patchy retinopathy without a tapetal-like reflex in carrier females. In these families, heterozygote carriers showed equivalent impairment of their cone and rod function.     

Molecular analysis and genetic mapping of the rhodopsin gene in families with autosomal dominant retinitis pigmentosa

Eighty-eight patients/families with autosomal dominant retinitis pigmentosa (RP) were screened for rhodopsin mutations. Direct sequencing revealed 13 different mutations in a total of 14 (i.e., 16%) unrelated patients. Five of these mutations (T4K, Q28H, R135G, F220C, and C222R) have not been reported so far. In addition, multipoint linkage analysis was performed on two large families with autosomal dominant RP due to rhodopsin mutations by using five DNA probes from 3q21-q24. No tight linkage was found between the rhodopsin locus (RHO) and D3S47 (theta max = 0.08). By six-point analysis, RHO was localized in the region between D3S21 and D3S47, with a maximum lod score of 13.447 directly at D3S20.     

Origin of tapetal-like reflexes in carriers of X-linked retinitis pigmentosa

PURPOSE: To determine the origin of the tapetal-like reflex (TLR) in carriers of X-linked retinitis pigmentosa. METHODS: Spectral fundus reflectance of carriers of X-linked retinitis pigmentosa was measured and compared with that of normal subjects. The influence of visual pigment was determined by measuring the density difference, that is, the difference between the logarithmically scaled spectra of a bleached and a dark-adapted retina. In addition, fundus reflectance maps at 514 nm were made with a scanning laser ophthalmoscope in a bleached and a dark-adapted condition. Finally, the optical Stiles-Crawford effect was measured to determine the angular sensitivity of the TLR. RESULTS: The tapetal-like reflex showed its spectral fingerprint in a high reflectance for wave-lengths smaller than 600 nm. The density difference measured at retinal sites of TLR was significantly larger than in normals, but the shape of the spectrum was similar. The optical Stiles-Crawford effect showed a similar peakedness for all retinal positions. However, in the TLR region, the amplitude of the directionally dependent part was increased dramatically. For the foveal region, no differences were observed. CONCLUSIONS: An increase in reflectance of the outer segments of the photoreceptors in heterozygotes compared to normals can explain both the high-density difference and the large amplitude of the Stiles-Crawford effect. An earlier suggestion that only cones contribute to the TLR is unlikely.     

Genetic analysis of a kindred with X-linked mental handicap and retinitis pigmentosa

A kindred is described in which X-linked nonspecific mental handicap segregates together with retinitis pigmentosa. Carrier females are mentally normal but may show signs of the X-linked retinitis pigmentosa carrier state and become symptomatic in their later years. Analysis of polymorphic DNA markers at nine loci on the short arm of the X chromosome shows that no crossing-over occurs between the disease and Xp11 markers DXS255, TIMP, DXS426, MAOA, and DXS228. The 90% confidence limits show that the locus is in the Xp21-q21 region. Haplotype analysis is consistent with the causal gene being located proximal to the Xp21 loci DXS538 and 5'-dystrophin on the short arm of the X chromosome. The posterior probability of linkage to the RP2 region of the X chromosome short arm (Xp11.4-p11.23) is .727, suggesting the possibility of a contiguous-gene-deletion syndrome. No cytogenetic abnormality has been identified.     

The retinitis pigmentosa GTPase regulator, RPGR, interacts with the delta subunit of rod cyclic GMP phosphodiesterase

Recently, the retinitis pigmentosa 3 (RP3) gene has been cloned and named retinitis pigmentosa GTPase regulator (RPGR). The amino-terminal half of RPGR is homologous to regulator of chromosome condensation (RCC1), the nucleotide exchange factor for the small GTP-binding protein Ran. In a yeast two-hybrid screen we identified the delta subunit of rod cyclic GMP phosphodiesterase (PDEdelta) as interacting with the RCC1-like domain (RLD) of RPGR (RPGR392). The interaction of RPGR with PDEdelta was confirmed by pull-down assays and plasmon surface resonance. The binding affinity was determined to be 90 nM. Six missense mutations at evolutionary conserved residues within the RLD, which were found in RP3 patients, were analyzed by using the two-hybrid system. All missense mutations showed reduced interaction with PDEdelta. A non-RP3-associated missense substitution outside the RLD, V36F, did not abolish the interaction with PDEdelta. PDEdelta is widely expressed and highly conserved across evolution and is proposed to regulate the membrane insertion or solubilization of prenylated proteins, including the catalytic subunits of the PDE holoenzyme involved in phototransduction and small GTP-binding proteins of the Rab family. These results suggest that RPGR mutations give rise to retinal degeneration by dysregulation of intracellular processes that determine protein localization and protein transport.     

Identification of 2 allelic mutations of the gene of the phosphodiesterase beta subunit in a Spanish family with recessive autosomic retinitis pigmentosa

BACKGROUND: Retinitis pigmentosa (RP) is a group of inherited eye disorders that affect photoreceptor and pigment epithelial function. Mutations in different genes involved in the phototransduction process have been described in patients with autosomal recessive RP. PATIENTS AND METHODS: We examined the gene coding the beta subunit of the phosphodiesterase (PDEB) in a ARRP family with two affected sisters. SSCP (single stand conformational polymorphism) analysis of the coding region of the gene showed abnormal bands in two different exons. PCR products showing SSCP aberrant patterns were subsequently sequenced. RESULTS: The two affected sisters had inherited from their father a PDEB gene with a known mutation (Gln298X) and a rare variant and from their mother a PDEB gene with a new mutation: Asp600Asn. CONCLUSIONS: The nature of the mutations in the PDEB gene and their pattern of inheritance indicate that the lack of activity of the phosphodiesterase (PDE), a key enzyme in the visual phototransduction process, account for the RP phenotype in these patients.     

Genomic organization of the human TIMP-1 gene. Investigation of a causative role in the pathogenesis of X-linked retinitis pigmentosa 2

PURPOSE: To evaluate the role of TIMP-1 in inherited retinal degeneration. METHODS: The genomic structure of the TIMP-1 gene was established and male patients with x-linked retinitis pigmentosa 2 from five families were screened for sequence alterations by direct sequencing in all exons, exon-intron boundaries, and the 5' upstream region of the gene. RESULTS: TIMP-1 appears to be expressed in the retina at low levels and consists of six exons spanning a genomic region of approximately 4.5 kb on Xp11.23. No disease-specific sequence alterations were identified. A site substitution in exon 5 was observed in samples from control subjects and patients, but it did not alter the amino acid sequence of the protein product. CONCLUSIONS: The results of this study exclude mutations in the TIMP-1 coding sequence, splice sites, and the 5' upstream region as a cause of retinal degeneration in x-linked retinitis pigmentosa 2. However, an as yet unidentified regulatory element that lies outside these intervals may be implicated. The role of this tightly regulated protein in the normal functioning of the retina has yet to be determined.     

Evaluation of the human arrestin gene in patients with retinitis pigmentosa and stationary night blindness

Here we analysed the involvement of tyrosine phosphorylation in the regulation of the initial molecular events induced by IL-13 to modulate TPA-triggered reactive oxygen intermediates (ROI) production. Our data indicate that treatment of monocytes with a protein tyrosine kinase inhibitor (herbimycin A) prevents IL-13-induced cAMP accumulation and subsequent ROI inhibition. We have previously demonstrated that cAMP accumulation depends on inositol phosphates hydrolysis (InsPs) and intracellular Ca2+ mobilisation. The inhibition of InsPs and intracellular Ca2+ release by herbimycin A suggests a primary role of tyrosine kinases upstream PLC activation. We further specify that IL-13 stimulates PLC-gamma 1 and IRS-2 tyrosine phosphorylation in human monocytes. We demonstrate for the first time that IL-13 induces the association of IRS-2 with PLC-gamma 1. We proposed here that PLC-gamma 1 is a new candidate recruited by IRS-2.     

Molecular study of the rhodopsin gene in retinitis pigmentosa patients in the Basque Country

INTRODUCTION: Clinically relevant autonomic disturbances have been reported for respirator-dependent ALS patients while subclinical involvement may be present in the early course. METHODS: Eighteen patients with early-stage ALS and 18 age-matched controls were studied by means of standard autonomic tests (heart off + response to deep breathing and tilt-table testing), and spectral analysis of heart rate (HR) and arterial blood pressure (ABP), using the associated transfer function as a measure of baroreflex sensitivity for the mid-frequency band (MF band, 0.05-0.15 Hz) and as a measure of cardiorespiratory transfer for the high-frequency band (HF band, 0.15-0.33 Hz). RESULTS: Mean HR and ABP were increased in ALS, while results of standard autonomic tests were similar for ALS and controls. Transfer function analysis revealed reduced baroreflex sensitivity and diminished cardiorespiratory transfer during normal breathing. CONCLUSIONS: Cardiovascular autonomic functions are intact in patients with ALS. There is evidence of sympathetic enhancement and vagal withdrawal, accompanied by reduced baroreflex sensitivity. These findings are similar to those reported for essential hypertension and may point to a common central autonomic derangement in both disorders.     

Histopathology of the human retina in retinitis pigmentosa

The term, 'retinitis pigmentosa', refers to a heterogeneous group of inherited diseases that cause degeneration of rod and cone photoreceptors in the human retina. Loss of photoreceptor cells is usually followed by alterations in the retinal pigment epithelium and retinal glia. Ultimately, degenerative changes occur in the inner retinal neurons, blood vessels, and optic nerve head. This chapter provides background information on the genetics of retinitis pigmentosa and a summary of the histopathologic alterations in human retinas caused by this disease. Detailed information is provided on the effects of the primary disease process on the rod photoreceptors and changes in the other retinal components, all of which are important considerations for understanding and developing therapies for retinitis pigmentosa.     

Patterns of visual field progression in patients with retinitis pigmentosa

OBJECTIVE: The purpose of the study was to determine whether distinct patterns of visual field progression are present in patients with retinitis pigmentosa (RP) and to evaluate the correlation between these patterns, if present, and different genetic subtypes of RP. DESIGN: A retrospective analysis of patterns of visual field progression in RP was performed. PARTICIPANTS: Visual fields of 162 patients with RP, including 55 with type 2 Usher syndrome, who had at least 3 Goldmann visual field examinations during a period of at least 3 years were reviewed. MAIN OUTCOME MEASURES: Goldmann visual fields. RESULTS: Visual fields of 86 patients could be classified into one of three specific patterns of visual field progression. Pattern I included those patients with a progressive concentric loss of visual fields; pattern II included those with visual field loss that began superiorly and subsequently developed an arcuate scotoma that progressed either from the nasal (IIA) or the temporal (IIB and IIC) side; and pattern III included patients whose visual field loss was characterized initially by a complete or incomplete midperipheral "ring scotoma" that broke through into the periphery. The end stage of all these patterns was a residual central visual field, sometimes also associated with a small peripheral island. In 53 of the 162 patients, the pattern of visual field loss could not be categorized because of an advanced stage of field loss at the time of the initial examination. CONCLUSIONS: Distinctive patterns of visual field progression can be observed in patients with retinitis pigmentosa and type 2 Usher syndrome. There were no intrafamilial variations in the pattern of visual field loss in our data on 24 patients from 11 families. Within certain genetic subtypes, there was a predilection for a preponderance of a specific pattern of visual field progression. Future studies may be able to correlate these patterns of visual field loss with different genetic mutations. A greater understanding as to why certain patterns of field loss exist could potentially provide greater insight into the various pathogenetic mechanism(s) by which photoreceptor cells degenerate in this group of patients.     

Characterization of mutations in the myotubularin gene in twenty six patients with X-linked myotubular myopathy

A candidate gene, myotubularin, involved in the pathogenesis of X-linked myotubular myopathy (MTM1) was isolated recently. Mutations originally were identified in 12% of patients examined for 40% of the coding sequence, raising the possibility that additional genes could be responsible for a proportion of X-linked cases. We report here the identification of mutations in 26 of 41 independent male patients with muscle biopsy-proven MTM, by direct genomic sequencing of 92% of the known coding sequence of the myotubularin gene. Eighteen patients had point mutations, including one A/G transition found in four patients which alters a splice acceptor site in exon 12 and leads to a three amino acid insertion. Six patients had small deletions involving <6 bp, while two larger deletions encompassed two or six exons, respectively. No differences were noted among the types of mutations between familial and sporadic cases. However, all of the five patients with a mild phenotype had missense mutations. While 50% of the mutations were found in exons 4 and 12, and three distinct mutations were found in more than one patient, no single mutation accounted for more than 10% of the cases. The low frequency of large deletions and the varied mutations identified suggest that direct mutation screening for molecular diagnosis may require gene sequencing.     

A new codon 15 rhodopsin gene mutation in autosomal dominant retinitis pigmentosa is associated with sectorial disease

OBJECTIVE: To ascertain and characterize rhodopsin gene mutations in autosomal dominant retinitis pigmentosa and to correlate these mutations with the clinical phenotypes. METHODS: DNA was extracted from leukocytes, and the rhodopsin gene was amplified and analyzed using molecular-biological methods. Clinical and electrophysiological data were collected from patient charts. RESULTS: We found a disease-causing mutation that was previously undescribed, to our knowledge, for autosomal dominant retinitis pigmentosa within codon 15 of exon 1 of the rhodopsin gene. It was a single base-pair transversion (AAT to AGT) leading to a serine-for-asparagine substitution. This altered a glycosylation site in the intradiscal portion of the rhodopsin molecule. The pedigree examined demonstrated an inferior distribution of retinal pigmentary changes and predominantly superior visual field loss with relative preservation of electroretinographic amplitudes and good vision, which is consistent with sectorial or sectorial-like retinitis pigmentosa. CONCLUSIONS: A codon 15 rhodopsin gene mutation caused retinitis pigmentosa in the pedigree studied. There may be an association between intradiscal rhodopsin gene mutations and sectorial forms of retinitis pigmentosa.     

Morphometric analysis of the extramacular retina from postmortem eyes with retinitis pigmentosa

Desmosomes are highly organized intercellular adhesive junctions that are particularly prominent in epidermis and other tissues experiencing mechanical stress. Desmoplakin, a constitutive component of the desmosomal plaque, is the most abundant protein present in such junctions and plays a critical role in linking the intermediate filament network to the plasma membrane in these tissues. Here we report the first mutation in the gene encoding desmoplakin. The identified mutation, resulting in a null allele and haploinsufficiency, was observed in genomic DNA from a kindred with the dominantly inherited skin disorder, striate palmoplantar keratoderma. Affected individuals had a linear pattern of skin thickening on the fingers and palms and circumscribed areas of skin thickening on the soles. Affected skin demonstrated loosening of intercellular connections, disruption of desmosome-keratin intermediate filament interactions and a proportion of rudimentary desmosomal structures. The disorder mapped to chromosome 6p21 with a maximum lod score of 10.67. The mutation was a heterozygous C-->T transition in exon 4 of the desmoplakin gene and predicted a premature termination codon in the N-terminal region of the peptide. This is the first reported mutation of desmo-plakin and also the first inherited skin disorder in which haploinsufficiency of a structural component has been implicated. It identifies dosage of desmoplakin as critical in maintaining epidermal integrity.     

Assessment of local retinal function in patients with retinitis pigmentosa using the multi-focal ERG technique

To assess local retinal function in patients with retinitis pigmentosa (RP), multi-focal ERGs and local thresholds (static visual fields) were obtained on eight RP patients with visual acuities of 20/25 or better. All eight patients showed multi-focal responses with normal timing within the central 5 deg. However, there were few responses with normal timing in the areas outside the central 7.5 deg, except in the case of the only patient with a 30 Hz full-field response with normal timing. Since full-field ERGs are dominated by responses from the periphery, this finding supplies a foundation for the commonly observed delays in the full-field cone ERGs of patients with RP. With respect to amplitude, only two patients showed multi-focal responses with near normal amplitudes anywhere in the field. The loss of amplitude at any point was not a good predictor of visual sensitivity in the Humphrey visual field. On the other hand, all areas with normal timing had near normal sensitivity. Timing changes appear to be an early indication of local retinal damage to the cone system. Nearly all areas with sensitivity losses greater than 0.5 log unit, and some areas with near normal sensitivity, showed significantly delayed multi-focal ERGs. Finally areas with extreme sensitivity loss show multi-focal responses with a wide range of amplitudes and implicit times across patients, suggesting different mechanisms of disease action in different patients.     

Spectrum of mutations in the OCRL1 gene in the Lowe oculocerebrorenal syndrome

The oculocerebrorenal syndrome of Lowe (OCRL) is a multisystem disorder characterized by congenital cataracts, mental retardation, and renal Fanconi syndrome. The OCRL1 gene, which, when mutated, is responsible for OCRL, encodes a 105-kD Golgi protein with phosphatidylinositol (4,5)bisphosphate (PtdIn[4,5]P2) 5-phosphatase activity. We have examined the OCRL1 gene in 12 independent patients with OCRL and have found 11 different mutations. Six were nonsense mutations, and one a deletion of one or two nucleotides that leads to frameshift and premature termination. In one, a 1.2-kb genomic deletion of exon 14 was identified. In four others, missense mutations or the deletion of a single codon were found to involve amino acid residues known to be highly conserved among proteins with PtdIns(4,5)P2 5-phosphatase activity. All patients had markedly reduced PtdIns(4,5)P2 5-phosphatase activity in their fibroblasts, whereas the ocrl1 protein was detectable by immunoblotting in some patients with either missense mutations or a codon deletion but was not detectable in those with premature termination mutations. These results confirm and extend our previous observation that the OCRL phenotype results from loss of function of the ocrl1 protein and that mutations are generally heterogeneous. Missense mutations that abolish enzyme activity but not expression of the protein will be useful for studying structure-function relationships in PtdIns(4,5)P2 5-phosphatases.     

Autosomal-dominant retinitis pigmentosa associated with an Arg-135-Trp point mutation of the rhodopsin gene. Clinical features and longitudinal observations

PURPOSE: To report the clinical and functional characteristics of patients affected with autosomal-dominant transmitted retinitis pigmentosa (adRP) from a large Italian pedigree in which a point mutation predicting the Arg-135-Trp change of rhodopsin was identified by polymerase chain reaction-single-strand conformation polymorphism analysis. METHODS: Seven patients, ranging in age from 6 to 41 years, underwent a full clinical ophthalmologic evaluation, kinetic visual field testing, and electroretinographic testing. RESULTS: In agreement with previous reports, this rhodopsin mutation yielded a particularly severe phenotype, both clinically and functionally. The evaluation of patients from this pedigree in the first and second decade of life demonstrated that retinal function is still electroretinographically measurable at least until 18 years of age, although reduced to 2% to 4% of normal. Longitudinal measures showed that the rate of progression of the disease was unusually high, with an average 50% loss per year of electroretinographic amplitude and visual field area with respect to baseline. Later in the course of the disease, macular function is also severely compromised, leaving only residual central vision by the fourth decade of life. CONCLUSIONS: The phenotype associated with mutations in codon 135 of the rhodopsin molecule appears to have an unusually high progression rate and yields an extremely poor prognosis. These distinctive features make the Arg-135-Trp phenotype substantially different from the general RP population, and also from many of the other adRP pedigrees with known rhodopsin mutations reported to date.     

Novel mutations identified in exon 7 of phenylalanine hydroxylase gene in Chinese

Exon 7 of the phenylalanine hydroxylase (PAH) gene was analyzed in 45 children affected with classic phenylketonuria (PKU) from northern China by using PCR-single strand conformation polymorphism (PCR-SSCP) technique and DNA direct sequencing. Six missense mutations (i.e. R243Q, R241H, G247V, L249H, P254I and G257V) and one silent mutation (V245V) were identified. The latter three missense mutations were demonstrated as novel mutations in comparison with the PAH mutation Database. One missense mutation (R241H) was first documented in Chinese. Our results showed population and regional differences in the PAH mutation distribution and suggest that there is more than one founding population for PKU in China. The finding of novel mutations will enhance our capability in molecular diagnosis of PKU.