Succinic semialdehyde dehydrogenase deficiency

Succinic semialdehyde dehydrogenase deficiency

Infobox_Disease
Name = PAGENAME



Caption = Gamma-Hydroxybutyric acid
DiseasesDB = 29825
ICD10 =
ICD9 =
ICDO =
OMIM = 271980
MedlinePlus =
eMedicineSubj =
eMedicineTopic =
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Succinic semialdehyde dehydrogenase deficiency (SSADHD), also known as 4-hydoxybutyric aciduria or gamma-hydoxybutyric aciduria, is a rare autosomal recessive disorder [cite journal |author=Chambliss KL, Hinson DD, Trettel F, Malaspina P, Novelletto A, Jakobs C, Gibson KM |title=Two exon-skipping mutations as the molecular basis of succinic semialdehyde dehydrogenase deficiency (4-hydroxybutyric aciduria) |journal=Am J Med Genet. |volume=63 |issue=2 |pages=399–408 |year=1998 |pmid=9683595 ] of the degradation pathway of the inhibitory neurotransmitter γ-aminobutyric acid, or GABA. The disorder has been identified in approximately 350 families, with a significant proportion being consanguineous families.cite journal |pmid=12891657 |doi=10.1002/ana.10629 |year=2003 |month= |author=Pearl, Pl; Novotny, Ej; Acosta, Mt; Jakobs, C; Gibson, Km |title=Succinic semialdehyde dehydrogenase deficiency in children and adults. |volume=54 Suppl 6 |issue= |pages=S73–80 |journal=Annals of neurology] The first case was identified in 1981 and published in a Dutch clinical chemistry journal that highlighted a patient that suffered from a number of neurological conditions such as delayed intellectual, motor, speech, and language as the most common manifestations. Later cases reported in the early 1990s began to show that hypotonia, hyporreflexia, seizures, and a nonprogressive ataxia were frequent clinical features as well.cite journal |pmid=8412016 |doi=10.1007/BF00711902 |title=Inherited disorders of GABA metabolism |year=1993 |author=Jakobs, C. |journal=Journal of Inherited Metabolic Disease |volume=16 |pages=704]

SSADH deficiency is caused by an enzyme deficiency in GABA degradation. Under normal conditions, SSADH works with the enzyme GABA transaminase to convert GABA to succinic acid. Succinic acid can then be utilized for energy production via the Krebs cycle. However, because of the deficiency, the final intermediate of the GABA degradation pathway, succinic semialdehyde, accumulates and cannot be oxidized to succinic acid and is therefore reduced to gamma-hydroxybutyric acid (GHB) by gamma-hydroxybutyric dehydrogenase. This causes elevations in GHB and is believed to be the trademark of this disorder and cause for the neurological manifestations seen.

Symptoms

The symptoms of SSADH deficiency fall into three primary categories: neurological, psychiatric, and ocular. The most constant features seen are developmental delay, hypotonia, and mental retardation. Nearly half of patients seen manifest ataxia, behavior problems, seizures, and hyporreflexia.

The age of onset ranges from newborn period to 25 years. Problems unique to neonates can include prematurity, lethargy, decreased sucking, respiratory difficulty and hypoglycemia. Gastrointestinal symptoms have been seen primarily in this population and are usually related to increased feeding.

Ocular problems related to the disorder include strabismus, nystagmus, retinitis, disc pallor, and oculomotor apraxia.cite journal |pmid=15021235 |year=2004 |month=Apr |author=Pearl, Pl; Gibson, Km |title=Clinical aspects of the disorders of GABA metabolism in children. |volume=17 |issue=2 |pages=107–13 |issn=1350-7540 |journal=Current opinion in neurology |doi=10.1097/00019052-200404000-00005]

Nearly half of the patients with SSADH deficiency have seizures. These include absence, tonic clonic, and convulsive status epilepticus. It is unclear whether decreased levels of GABA or elevated levels of GHB are responsible for these seizures but alterations in these neurotransmitters and their receptor binding or neurotransmitter transport is hypothesized to play a role in the pathogenesis of the seizures in this population.cite journal |pmid=12067239 |doi=10.1046/j.1471-4159.2002.00784.x |title=Focal neurometabolic alterations in mice deficient for succinate semialdehyde dehydrogenase |year=2002 |author=Gibson, K. M. |journal=Journal of Neurochemistry |volume=81 |pages=71]

Genetics

SSADH deficiency is inherited in an autosomal recessive fashion. Such diseases are caused by an error in a single DNA gene. Because the disease is autosomal, the defective gene is found on an autosome (chromosome 6), rather than the sex-linked 23rd chromosome. Being a recessive disorder, the disease can only be inherited from both parents since the disorder can only occur when a person has two copies of the gene.

It is believed that the genetic basis for SSADH deficiency resides in the SSADH human ALDH5A1 gene which maps to chromosome 6p22. More than 47 disease-causing mutations have been identified for the disorder, all of which lead to absence of functional proteins through missense, nonsense, or splicing errors; no hotspots have been identified. Consanguinity is frequent; this suggests the occurrence of rare disease causing alleles in the general population.cite journal |pmid=9059628 |year=1997 |month= |author=Trettel, F; Malaspina, P; Jodice, C; Novelletto, A; Slaughter, Ca; Caudle, Dl; Hinson, Dd; Chambliss, Kl; Gibson, Km |title=Human succinic semialdehyde dehydrogenase. Molecular cloning and chromosomal localization. |volume=414 |issue= |pages=253–60 |issn=0065-2598 |journal=Advances in experimental medicine and biology |url=http://journals.indexcopernicus.com/ICinfoauthor.php?PMID=9059628 |format=Free full text]

Mechanism

GABA is a major inhibitory neurotransmitter in the central nervous system. It modulates the activity of several neurotransmitters including dopamine, serotonin, and norepinephrine. GABA is synthesized in a single step from its precursor glutamate by glutamic acid decarboxylase. GABA is metabolized by successive transamination and oxidation to yield succinic semialdehyde and succinic acid respectively via the catalyzing effects of GABA transaminase. The succinic semialdehyde can be converted into either succinic acid by SSADH or to GHB by the enzyme succinic semialdehyde reductase.cite journal |author=Nelson DL, Cox MM |year= 2004 |title = Lehninger Principles of Biochemistry, Fourth Edition |journal = |volume = |pages = |pmid = ] The absence of SSADH leads to a 30-fold increase of GHB and a 2-4 fold increase of GABA in the brains of patients with SSADH deficiency as compared to normal brain concentrations of the compounds. Elevations of GHB have been shown to induce spike and wave activity similar to that seen in generalized absence epilepsy in animal models as well, which has motivated researchers to increase their knowledge on the relationship between GHB and the neurological manifestations seen in SSADH deficiency.cite journal |pmid=16647690 |doi=10.1016/j.brainres.2006.02.131 |year=2006 |month=May |author=Buzzi, A; Wu, Y; Frantseva, Mv; Perez, Velazquez, Jl; Cortez, Ma; Liu, Cc; Shen, Lq; Gibson, Km; Snead, Oc, 3Rd |title=Succinic semialdehyde dehydrogenase deficiency: GABAB receptor-mediated function. |volume=1090 |issue=1 |pages=15–22 |journal=Brain research ]

GABA acts via binding to its receptors which include the ligand gated ion channels, GABA(A) and GABA(C) and the G-protein couple receptors GABA(B). The GABA(B) receptor has been found to be the most important of the three receptors for this disorder as it is vital in both GABA and GHB release. This receptor mediates the release through presynaptic effects through a voltage dependent inhibition of high voltage activation of calcium channels. Many experiments have been able to show that it is the increased levels of both GABA and GHB that seem to alter the function of GABA(B) receptor, which may further play a role in the tonic-clonic seizures that are often seen in patients with the disorder. cite journal |author = Knerr I et.al. |date = 2007 |title = Therapeutic concepts in succinate semialdehyde dehydrogenase (SSADH; ALDH5a1) deficiency (γ-hydroxybutyric aciduria). Hypotheses evolved from 25 years of patient evaluation, studies in Aldh5a1-/- mice and characterization of γ-hyrodxybutyric acid pharmacology |journal = J Inherit Metab Dis |volume = 30 |pages = 279–294 |pmid = 17457693 |doi = 10.1007/s10545-007-0574-2 ]

In terms of intracellular signaling, GHB inhibits mitogen activated protein (MAP) kinase action via the GABA(B) receptor mechanism. MAP kinase is imperative for numerous physiological changes including regulation of cell division and differentiation, thus, down-regulation of this pathway may occur during the presence of too much GHB as found in SSADH deficiency. In 2003, Ren and Mody et al proved that repeated exposure of GHB to MAP kinase affected myelin expression. This is a critical finding since myelin is the electrical and insulating phospholipid layer that surrounds the axons of many neurons in the brain. Proper myelination is critical for carrying electrical signals, or data, from one nerve cell to the next. When myelin becomes damaged, it can cause numerous neurological problems, many of which are seen in patients with SSADH deficiency. Thus, Ren and Mody’s work in the relationship between increased levels of GHB and myelin expression may further show the significance of this pathway in terms of the neurological deficits seen in SSADH deficiency. cite journal |author = Ren, X and Mody, I |date = 2003 |title = Gamma-hydroxybutyrate reduces mitogen-activated protein kinase phosphorylation via GABA B receptor activation in mouse frontal cortex and hippocampus |journal = J Biol Chem |volume = 278 |pages = 42006–42011 |pmid = 12923192 |doi = 10.1074/jbc.M304238200 ]

Glutamine metabolism may also play a role in the pathophysiology of SSADH deficiency. The major ionotropic glutamine receptors include the N-methyl-D-aspartate (NMDA) and alpha-amino-3-hydroxy-5-methylisoxazole-4-propionic acid (AMPA)/kainite receptor. High levels of GHB have been shown to depress both the NMDA and AMPA/kainite receptor mediated functions and may also alter glutamatergic excitatory synaptic transmission as well. Decreased glutamine, coupled with elevated GABA, has also suggested disruption of the glutamine-glutamate shuttle which ultimately provides for astrocytic glutamine as a precursor for neuronal glutamate and GABA. This disruption has the potential to impair glutamate homeostasis and may lead to uncoupling of the normal balance between glutamatergic excitatory activity and GABAergic inhibition, and may be responsible for the convulsive seizures that are observed in this disorder. cite journal |author = Berton, F et.al. |date = 1999 |title = Gamma-Hydroxybutyrate inhibits excitatory postsynaptic potentials in rat hippocampal slices. |journal = Eur J Pharmacol |volume = 380 |pages = 109–116 |pmid = 10513569 |doi = 10.1016/S0014-2999(99)00515-4 ]

Finally, additional mitochondrial processes may also be affected by SSADH deficiency. Succinate semialdehyde is considered a reactive carbonyl and may lead to increased oxidative stress. This stress is believed to contribute to the formation of free radicals in the brain tissue of animal models induced with SSADH deficiency, which further leads to secondary cell damage and death. Additionally, oxidative stress may be responsible for loss of striatal dopamine which may contribute to pathophysiology of the disease.

Animal Models Used to Understand SSADH Deficiency

Several scientists have developed murine models of SSADH (Aldh5a1-/-) by typical gene methodology to create a uniform absence of the SSADH enzyme activity as well as accumulations of GHB and GABA in tissues and physiological fluids. The mice are born at the expected Mendelian frequencies for an autosomal recessive disorder. Most of the models include distinctive neurological phenotypes and exhibit hypotonia, truncal ataxia, generalized tonic-clonic seizures associated with 100% mortality. The mice uniformly die at 3-4 postnatal weeks. While this model is considered to be more severe than the phenotypes seen in humans, currently, it is the most highly regarded, valid, metabolic model to study potential therapeutic interventions for the disorder. cite journal |author = Gropman, Andrea |date = 2003 |title = Vigabatrin and newer interventions in succinic semialdehyde dehydrogenase deficiency |journal = Ann Neurol |volume = 54 |pages = S66–S72 |pmid = 12891656 |doi = 10.1002/ana.10626 ]

Studies have shown that alterations of both the GABA(A) receptor and the GABA(B) receptor early in the life of the Aldh5a1-/- mice can increase levels of GHB and enhance GABA release. Besides these effects, it has also been shown that “…a developmental down-regulation of GABA(A) receptor mediated neurotransmission in Aldh5a1-/- mice likely contributes to the progression of generalized convulsive seizures seen in mutant animals.” Other studies have confirmed the relationship between elevated levels of GHB and MAP kinase in mutant animals contribute to profound myelin abnormalities.

Diagnosis

"Neuroimaging"

Cranial computed topography, magnetic resonance imaging, and flurodeoxyglucose positron emission topography are just some of the neuroimaging modalities that have been used to diagnose patients with SSADH deficiency. On the basis of 29 previously published cases that had imaging results available, there were some common abnormalities found. These included increased T2-weighted signal abnormalities involving the globus pallidi bilaterally and symmetrically as well as the presence of subcortical white matter. Similar abnormalities have been identified in the brainstem and cerebellar dentate nucleus.

Signal intensity on a T2 image may be a result of edema or an inflammatory response. Because this type of imaging is a water detecting sequence, any form of calcification or mineralization would also appear dark, thus explaining why accumulation of extra blood or fluid would appear bright on a T2 image. Another explanation for signal intensity may be demyelination since the globus pallidi are traversed by a number of myelinated axons, thus confirming Ren and Mody’s 2003 work proving that repeated exposure of GHB to MAP kinase affected myelin expression, thus causing the numerous neurological dysfunctions seen in SSADH deficiency patients. Ultimately, because the globus pallidus is intimately linked with the basal ganglia and thalamus, it would be expected that some of the motor dysfunctions seen in SSADH patients such as ataxia and hyporreflexia would be common. cite journal |author = Licht, Daniel MD and Stefanie Mason |date = 2008 |title = Email Interview |journal = |volume = |pages = |pmid = ]

"Laboratory"

Detection of the disorder is possible with an organic acid analysis of the urine. Patients with SSADH deficiency will excrete high levels of GHB but this can be difficult to measure since GHB has high volatility and may be obscured on gas chromatography or mass spectrometry studies by a high urea peak. Other GABA metabolites can also be identified in urine such as glycine. Finally, succinic semialdehyde dehydrogenase levels can be measured in cultured leukocytes of the patient. This occurs due to the accumulation of 4,5-dihydroxyhexanoic acid which is normally undetectable in mammalian tissues but is characteristic of SSADH deficiency. This agent can eventually compromise the pathways of fatty acid, glycine, and pyruvate metabolism, and then become detectable in patients' leukocytes. Such enzyme levels can also be compared to non-affected parents and siblings.

Treatments

A number of pharmacological treatments have been suggested or tested for efficacy on Aldh5a1-/- mice and/or humans. Below is a small sampling of the most common treatments though to be therapeutic to patients with SSADH deficiency. Unfortunately, there is very little data to support the benefit of the following treatments since few controlled studies have been conducted in patients.

"Vigabatrin"

The most common therapeutic agent available for SSADH deficiency is one that reduces the levels of GHB via inhibition of GABA transaminase. Vigabatrin is an irreversible inhibitor of GABA transaminases which leads to decreased levels of GHB and elevation of GABA. Clinical results after use are diverse, ranging from improved ataxia and speech in some patients to worsening of symptoms in others. Lower doses (30-50 mg/kg per day) is associated with fewer side effects and greater improvement of clinical features at high doses of the therapeutic. Although vigabatrin has not been consistently successful in patients with SSADH deficiency, it has shown enhanced survival of Aldh5a1-/- mice at very high doses.

odium Valproate

Sodium valproate has been used for the treatment of generalized and partial seizures in humans for both epilepsy and bipolar disorder. Valproate enhances GABA synthesis and release leading to augmented GABAergic functions in some areas of the brain. Successful interventions with valproate have been noted, but no clinical trials have been conducted thus far.

However, Valproate is usually contraindicated as it may inhibit residual SSADH enzyme activity [cite journal |pmid=12829002 |year=2003 |month=Jul |author=Shinka, T; Ohfu, M; Hirose, S; Kuhara, T |title=Effect of valproic acid on the urinary metabolic profile of a patient with succinic semialdehyde dehydrogenase deficiency. |volume=792 |issue=1 |pages=99–106 |issn=1570-0232 |journal=Journal of chromatography. B, Analytical technologies in the biomedical and life sciences |doi=10.1016/S1570-0232(03)00276-9]

"GABA(B) receptor antagonist: CGP-35348"

The GABA(B) antagonist CGP-35348 (3-amino-propyl-(diethoxymethyl) phosphinic acid) has been used in Aldh5a1-/- mice with strong results. It has shown to reduce the frequency of absence seizures, though there have been some cases in which it worsened convulsive seizures.

"GABA(B) agonist: Baclofen"

Baclofen (β-p-chlorophenyl-GABA) has some analgesic properties and has been traditionally used for spasticity. Its pharmacological effects primarily take place via presynaptic GABA(B) receptors in the spinal cord, simultaneously releasing excitatory neurotransmitters onto motor neurons. Because the number and function of GABA(B) receptors has been shown to progressively diminish in Aldh5a1-/- mice, such a therapy may prove to be useful. However, no data on the efficacy of baclofen on Aldh5a1-/- mice or human patients has been reported.

"Taurine"

Taurine is a non-protein sulfur amino acid that is found in high concentrations in human milk. It has been shown to have neuroprotective and neuromodulating properties. While it is an inhibitory neurotransmitter, its ability to cross the blood brain barrier is limited. There is a lot of literature that indicates that taurine acts as antagonist at GABA(A) and GABA(B) receptors which may further enhance its ability to treat patients with SSADH deficiency, but further pharmacological studies are yet to be conducted to see if taurine could serve a therapeutic purpose.

"Ketogenic Diet"

During prolonged periods of fasting, ketone bodies serve as the primary energy source for the brain. In 2006, Henderson et. al. showed that there is a therapeutic effect of maintaining a ketogenic diet – a diet consisting of high fat/low carbohydrate meals – in children with epilepsy. Ketogenic diets have also been shown to have some neuroprotective effects in models of Parkinson's disease and hypoxia as well. cite journal |author = Henderson CB, Filloux FM, Alder SC, Lyon JL, Caplin DA |date = 2006 |title = Efficacy of the ketogenic diet as a treatment option for epilepsy: meta-analysis |journal = J Child Neurol |volume = 21 |pages = 193–198 |pmid = 16901419 ] In a recent study conducted at the Hospital for Sick Children in Canada in 2007, researchers found that a ketogenic diet prolonged the lifespan of Aldh5a1-/- mice by greater than 300%, along with the normalization of ataxia and some improvement in various seizure types seen in SSADH deficient murine models. cite journal |author = Nylen, Kirk et.al. |date = 2007 |title = A ketogenic diet rescues the murine succinic semialdehyde dehydrogenase deficient phenotype |journal = Exp Neurol |volume = doi=10.1016 |pages = |pmid = 18199435 ] These effects were in conjunction with “…a significant restoration of GABAergic synaptic activity and region-specific restoration of GABA(A) receptor associated chloride channel binding.” Ultimately, the data seen in the study indicated that a ketogenic diet may work in its ability to restore GABAergic inhibition. But further studies on murine models need to be conducted, ultimately leading to the possibility of conducting a controlled study on humans afflicted with the disorder.

"Other Interventions"

Other therapeutic interventions include:
*ethosuximide and other epileptic drugs
*GHB receptor antagonist NCS-382
*GABA(A) receptor modulators
*uridine
*acamprosate
* dopaminergic agents
*dextromethorphan
*glutamine
*antioxidants
*Lamotrigine [Gibson KM, Hoffmann GF, Hodson AK, Bottiglieri T, Jakobs C. 4-Hydroxybutyric acid and the clinical phenotype of succinic semialdehyde dehydrogenase deficiency, an inborn error of GABA metabolism. Neuropediatrics. 1998; 29: 14–22. [http://www.ncbi.nlm.nih.gov/pubmed/9553943] ]

The Future of SSADH Deficiency

While SSADH deficiency has been studied for nearly 25 years, knowledge of the disorder and its pathophysiology remains unclear. However, the progress that has been made with both murine and human models of the disorder have provided a lot of insights into how the disease manifests itself and what more can be done in terms of therapeutic interventions. Much of the current research into SSADH has been led by a dedicated team of physicians and scientists, including Phillip L. Pearl, MD of the Children’s National Medical Center at George Washington School of Medicine and K. Michael Gibson, PhD of the University of Pittsburgh School of Medicine. Both have contributed significant efforts to finding appropriate therapies for SSADH deficiency and have specifically spent most of their recent efforts into understanding the efficacy of the ketogenic diet for patients with SSADH deficiency. In addition, a lot of the research that was published in 2007 examined the pathogenesis for the disorder by examining the role of oxidative stress on tissues in various cerebral structures of Aldh5a1-/- mice.

Ultimately, the metabolic pathway of SSADH deficiency is known, but how the enzyme deficiency and accumulation of GABA and GHB contribute to the clinical phenotype is not. For the future however, treatment strategies should focus on both decreasing the total production of GHB and increasing the total concentration of GABA and further assessing whether the effects of these changes influences the neurological manifestations seen in patients afflicted with SSADH deficiency.

ee also

*Inborn errors of metabolism

External links

* [http://www.rarediseases.org/search/rdbdetail_abstract.html?disname=Succinic%20Semialdehyde%20Dehydrogenase%20Deficiency NORD- National Organization for Rare Disorders]

References


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