Blue cone monochromacy (BCM) is an inherited

eye disease This is a partial list of human eye diseases and disorders. The World Health Organization (WHO) publishes a classification of known diseases and injuries, the International Statistical Classification of Diseases and Related Health Problems, or ...

that causes severe

color blindness Color blindness, color vision deficiency (CVD) or color deficiency is the decreased ability to color vision, see color or differences in color. The severity of color blindness ranges from mostly unnoticeable to full absence of color percept ...

, poor visual acuity, nystagmus, hemeralopia, and

photophobia Photophobia is a medical symptom of abnormal intolerance to visual perception of light. As a medical symptom, photophobia is not a morbid fear or phobia, but an experience of discomfort or pain to the eyes due to light exposure or by presence o ...

due to the absence of functional red (L) and green (M)

cone In geometry, a cone is a three-dimensional figure that tapers smoothly from a flat base (typically a circle) to a point not contained in the base, called the '' apex'' or '' vertex''. A cone is formed by a set of line segments, half-lines ...

photoreceptor cells in the retina. BCM is a recessive X-linked disease and almost exclusively affects XY karyotypes.

Cause

Cone cell Cone cells or cones are photoreceptor cells in the retina of the vertebrate eye. Cones are active in daylight conditions and enable photopic vision, as opposed to rod cells, which are active in dim light and enable scotopic vision. Most v ...

s are one kind of

photoreceptor cell A photoreceptor cell is a specialized type of neuroepithelial cell found in the retina that is capable of visual phototransduction. The great biological importance of photoreceptors is that they convert light (visible electromagnetic radiation ...

in the retina that are responsible for the photopic visual system and mediate

color vision Color vision, a feature of visual perception, is an ability to perceive differences between light composed of different frequencies independently of light intensity. Color perception is a part of the larger visual system and is mediated by a co ...

. The cones are categorized according to their

spectral sensitivity Spectral sensitivity is the relative efficiency of detection, of light or other signal, as a function of the frequency or wavelength of the signal. In visual neuroscience, spectral sensitivity is used to describe the different characteristics ...

: * LWS (long wave sensitive) cones are most sensitive to red light. * MWS (middle wave sensitive) cones are most sensitive to green light. * SWS (short wave sensitive) cones are most sensitive to blue light. MWS and LWS cones are most responsible for visual acuity as they are concentrated in the

fovea centralis The ''fovea centralis'' is a small, central pit composed of closely packed Cone cell, cones in the eye. It is located in the center of the ''macula lutea'' of the retina. The ''fovea'' is responsible for sharp central visual perception, vision ...

region of the retina, which constitutes the very center of the

visual field The visual field is "that portion of space in which objects are visible at the same moment during steady fixation of the gaze in one direction"; in ophthalmology and neurology the emphasis is mostly on the structure inside the visual field and it i ...

. Blue cone monochromacy is a severe condition in which the cones sensitive to red or green light are missing or defective, and onl
S-cones
sensitive to blue light and rods which are responsible for night ( scotopic) vision are functional.

Symptoms

A variety of symptoms characterize BCM: * Low

visual acuity Visual acuity (VA) commonly refers to the clarity of visual perception, vision, but technically rates an animal's ability to recognize small details with precision. Visual acuity depends on optical and neural factors. Optical factors of the eye ...

- ranging between 20/60 and 20/200 * Poor ability or inability to distinguish colours * Hemeralopia (and associated

) - sensitivity to bright light * Nystagmus - an involuntary eye movement. BCM symptoms are usually stationary, but some studies show evidence of disease progression.

Poor color discrimination

The

of blue cone monochromats is severely impaired. However, interaction of the blue cones and rod photoreceptors in

mesopic vision Mesopic vision, sometimes also called twilight vision, is a combination of photopic and scotopic vision under low-light (but not necessarily dark) conditions. Mesopic levels range approximately from 0.01 to 3.0 cd/m2 in luminance. Most ni ...

(twilight) may enable some level of

dichromacy Dichromacy (from Greek ''di'', meaning "two" and ''chromo'', meaning "color") is the state of having two types of functioning photoreceptors, called cone cells, in the eyes. Organisms with dichromacy are called dichromats. Dichromats requir ...

Genetics

Heredity

Because Blue cone monochromacy shares many symptoms with

achromatopsia Achromatopsia, also known as rod monochromacy, is a medical syndrome that exhibits symptoms relating to five conditions, most notably monochromacy. Historically, the name referred to monochromacy in general, but now typically refers only to an aut ...

, it was historically treated as a subset of achromatopsia, called ''x-linked achromatopsia'' or ''atypical incomplete achromatopsia''. Both of these names differentiated BCM specifically by how its inheritance pattern deviated from other forms of achromatopsia. While other forms (ACHM) follow autosomal inheritance, BCM is X-Linked. Once the molecular biological basis of BCM was understood, the more descriptive term ''Blue cone monochromacy'' became dominant in the literature.

Genes

The

gene cluster A gene cluster is a group of two or more genes found within an organism's DNA that encode similar peptide, polypeptides or proteins which collectively share a generalized function and are often located within a few thousand base pairs of each othe ...

responsible for BCM comprises 3 genes and is located at position Xq28, at the end of the q arm of the X chromosome. The genes in the cluster are summarized in the following table: Originating from a recent duplication event, the two opsins are highly homologous (very similar), having only 19 dimorphic sites (amino acids that differ), and are therefore 96% similar. Furthermore, only 7 of these dimorphic sites lead to a functional difference between the genes, i.e. that tune the opsin's

. In comparison, these opsin genes are only 40% homologous (similar) to OPN1SW (encoding the SWS photopsin and located on chromosome 7) and ''"RHO"'' (encoding

rhodopsin Rhodopsin, also known as visual purple, is a protein encoded by the ''RHO'' gene and a G-protein-coupled receptor (GPCR). It is a light-sensitive receptor protein that triggers visual phototransduction in rod cells. Rhodopsin mediates dim ...

, and located on

chromosome 3 Chromosome 3 is one of the 23 pairs of chromosomes in humans. People normally have two copies of this chromosome. Chromosome 3 spans more than 201 million base pairs (the building material of DNA) and represents about 6.5 percent of the total DNA ...

). OPN1SW and rhodopsin are unaffected in BCM.

Mutations

Since BCM is caused by non-functional M- and L-cones, it can result from the intersection of

protanopia Color blindness, color vision deficiency (CVD) or color deficiency is the decreased ability to see color or differences in color. The severity of color blindness ranges from mostly unnoticeable to full absence of color perception. Color bl ...

(no functional L-cones) and deuteranopia (no functional M-cones). Therefore the genetic causes of BCM ''include'' the genetic causes of protanopia and deuteranopia. These include (affecting either opsin gene): * deletions of the opsin genes, often from nonhomologous recombination. * point mutations that lead to non-functional (inactivated) opsins: ** ''C203R'': a

missense mutation In genetics, a missense mutation is a point mutation in which a single nucleotide change results in a codon that codes for a different amino acid. It is a type of nonsynonymous substitution. Missense mutations change amino acids, which in turn alt ...

. ** ''P307L'' ** ''R247X'': a nonsense mutation. * intragenic deletion of whole

exon An exon is any part of a gene that will form a part of the final mature RNA produced by that gene after introns have been removed by RNA splicing. The term ''exon'' refers to both the DNA sequence within a gene and to the corresponding sequence ...

4 * ''LIAVA'' genotype: inactivation through homologous recombination that ends with Exon 3 of the hybrid opsin gene containing the following amino acids in the positions indicated: 153

Leucine Leucine (symbol Leu or L) is an essential amino acid that is used in the biosynthesis of proteins. Leucine is an α-amino acid, meaning it contains an α-amino group (which is in the protonated −NH3+ form under biological conditions), an α-Car ...

, 171

Isoleucine Isoleucine (symbol Ile or I) is an α-amino acid that is used in the biosynthesis of proteins. It contains an α-amino group (which is in the protonated −NH form under biological conditions), an α-carboxylic acid group (which is in the depro ...

, 174

Alanine Alanine (symbol Ala or A), or α-alanine, is an α-amino acid that is used in the biosynthesis of proteins. It contains an amine group and a carboxylic acid group, both attached to the central carbon atom which also carries a methyl group sid ...

, 178

Valine Valine (symbol Val or V) is an α-amino acid that is used in the biosynthesis of proteins. It contains an α- amino group (which is in the protonated −NH3+ form under biological conditions), an α- carboxylic acid group (which is in the deproton ...

and 180

. Data from the BCM International Patient Registry shows that about 35% of Blue cone monochromacy stems from this 2-step process, where both genes are each affected by one of the above mutations. The remaining 55% of Blue cone monochromats are caused by a deletion of the LCR. In the absence of LCR, neither of the following two opsin genes are expressed. Another disease of the retina that is associated with the position Xq28 is Bornholm Eye Disease (BED). The point mutation ''W177R'' is a

that causes cone dystrophy when present on both

opsin Animal opsins are G-protein-coupled receptors and a group of proteins made light-sensitive via a chromophore, typically retinal. When bound to retinal, opsins become retinylidene proteins, but are usually still called opsins regardless. Most pro ...

genes.

Diagnosis

Children 2 months and older can be identified as possible Blue cone monochromats from observing an aversion to light and/or nystagmus, but are not sufficient for diagnosis, and especially not the

differential diagnosis In healthcare, a differential diagnosis (DDx) is a method of analysis that distinguishes a particular disease or condition from others that present with similar clinical features. Differential diagnostic procedures are used by clinicians to di ...

with

. The differential diagnosis can be achieved in a few ways: * through reconstructing the family history to establish a x-linked mode of heredity * with an electroretinogram (ERG), which measures the electrical response of photoreceptors to a visual stimulus of known wavelength. This can demonstrate the loss of function of the LWS and MWS cones. * with a color vision test, either general in nature like the Farnsworth D-15 or Farnsworth Munsell 100 Hue test or the Berson test, which is specifically designed to differentiate BCM from typical achromatopsia.

Treatment

Corrective visual aides and personalized vision therapy provided by Low Vision Specialists may help patients correct glare and optimize their remaining visual acuity. Tinted lenses for photophobia allow for greater visual comfort. A magenta (mixture of red and blue) tint allows for best visual acuity since it protects the rods from saturation while allowing the blue cones to be maximally stimulated.

Gene therapy

There is no cure for Blue cone monochromacy. However, there are prospective

gene therapy Gene therapy is Health technology, medical technology that aims to produce a therapeutic effect through the manipulation of gene expression or through altering the biological properties of living cells. The first attempt at modifying human DNA ...

treatments which are currently being evaluated for safety and efficacy. Gene therapy is a general treatment for genetic disorders; it uses

viral vector A viral vector is a modified virus designed to gene delivery, deliver genetic material into cell (biology), cells. This process can be performed inside an organism or in cell culture. Viral vectors have widespread applications in basic research, ...

s to carry typical genes into cells (e.g.

cone cell Cone cells or cones are photoreceptor cells in the retina of the vertebrate eye. Cones are active in daylight conditions and enable photopic vision, as opposed to rod cells, which are active in dim light and enable scotopic vision. Most v ...

s) that are not able to express functional genes (e.g. photopsins). It may be possible to restore color vision by adding missing opsin genes – or a functional copy of the entire gene complex – into the cone cells. In 2015, a team at the University of Pennsylvania evaluated possible outcome measures of BCM gene therapy. Since 2011, several studies have performed gene therapy for BCM on mouse and rat models.

Epidemiology

BCM affects approximately 1/100,000 individuals. The disease affects males much more than females due to its recessive X-linked nature, while females usually remain unaffected carriers of the BCM trait.

History

Prior to the 1960s, Blue cone monochromacy was treated as a subset of

. The first detailed description of achromatopsia was given in 1777, where the subject of the description: In 1942, Sloan first distinguished typical and atypical achromatopsia, differentiated mainly on the inheritance patterns. In 1953, Weale theorized that the atypical achromatopsia must stem from ''cone-monochromatism'', but estimated a prevalence of only 1 in 100 million. In the early 1960s, the inheritance of atypical achromatopsia led to a name change to ''x-linked achromatopsia'', and at the same time, several studies demonstrated that Blue cone monochromats retain some Blue yellow color vision. A significant discovery was announced in 1989 (and 1993) by Nathans et al. who identified the genes which cause Blue cone monochromacy.

References

External links

OMIM page for Blue cone monochromacy
{{Eye pathology Eye diseases Genetic diseases and disorders Visual disturbances and blindness Color vision