Neutrophil-specific granule deficiency: Difference between revisions
From WikiMD's Wellness Encyclopedia
No edit summary Tag: Manual revert |
No edit summary |
||
| Line 1: | Line 1: | ||
{{Infobox medical condition (new) | {{Infobox medical condition (new) | ||
| name = Neutrophil-specific granule | | name = Neutrophil-specific granule deficiency | ||
| synonyms = '''SGD''' | | synonyms = '''SGD''' | ||
| symptoms = | | image = | ||
| complications = | | alt = | ||
| caption = | |||
| pronounce = | |||
| specialty = Immunology | |||
| symptoms = Recurrent bacterial infections, particularly of the skin and respiratory system, due to impaired immune response. | |||
| complications = Chronic infections, delayed wound healing, development of granulomatous inflammation, potentially leading to organ damage. | |||
| duration = Lifelong | |||
| types = There is one primary type of neutrophil-specific granule deficiency, which is congenital. | |||
| causes = Caused by mutations in the **CSF3R** gene, leading to impaired granulocyte maturation and function. | |||
| risks = Inherited in an autosomal dominant pattern, but some cases can be sporadic due to de novo mutations. | |||
| diagnosis = Diagnosed through blood tests showing a reduced number of neutrophil-specific granules, typically using flow cytometry, electron microscopy, or genetic testing for CSF3R mutations. | |||
| differential = Differentiated from other causes of recurrent infections, such as chronic granulomatous disease (CGD), myeloperoxidase deficiency, and other neutrophil dysfunctions. | |||
| prevention = No known prevention, as the condition is genetic. Early diagnosis and management can prevent complications. | |||
| treatment = Supportive treatment for infections with antibiotics, granulocyte colony-stimulating factor (G-CSF) to stimulate neutrophil production, and potential bone marrow transplant in severe cases. | |||
| medication = G-CSF (Granulocyte Colony-Stimulating Factor) to help stimulate neutrophil production and manage infections. | |||
| prognosis = With early detection and appropriate treatment, many individuals can live normal lifespans; however, recurrent infections and complications can lead to reduced quality of life in severe cases. | |||
| frequency = Rare; exact incidence is not well-defined. | |||
| deaths = Mortality is rare but can occur due to complications from infections or severe inflammation, particularly in untreated cases. | |||
}} | |||
'''Neutrophil-specific granule deficiency''' ( previously known as '''lactoferrin deficiency''') is a rare [[congenital]] [[immunodeficiency]] characterized by an increased risk for [[pyogenic]] infections due to defective production of [[specific granules]] and [[gelatinase]] granules in patient [[neutrophils]]. | |||
==Epidemiology== | |||
Estimation of the frequency of SGD is difficult, as it is an extremely rare disease with few cases reported in literature. The condition was first reported in 1980, and since only a handful more cases have been published. | |||
==Symptoms== | ==Symptoms== | ||
Atypical infections are the key clinical manifestation of SGD. Within the first few years of life, patients will experience repeated pyogenic infections by species such as ''[[Staphylococcus aureus]]'', ''[[Pseudomonas aeruginosa]]'' or other [[Enterobacteriaceae]], and ''[[Candida albicans]]''. Cutaneous [[ulcers]] or [[abscesses]] and [[pneumonia]] and chronic lung disease are common. Patients may also develop [[sepsis]], [[mastoiditis]], [[otitis media]], and [[lymphadenopathy]]. Infants may present with vomiting, diarrhea, and [[failure to thrive]]. | |||
== Diagnosis == | |||
Diagnosis can be made based upon [[CEBPE]] gene mutation or a [[pathognomonic]] finding of a blood smear showing lack of specific granules. Neutrophils and eosinophils will contain hyposegmented nuclei (a pseudo-[[Pelger–Huet anomaly]]). | Diagnosis can be made based upon [[CEBPE]] gene mutation or a [[pathognomonic]] finding of a blood smear showing lack of specific granules. Neutrophils and eosinophils will contain hyposegmented nuclei (a pseudo-[[Pelger–Huet anomaly]]). | ||
== Genetics == | == Genetics == | ||
A majority of patients with SGD have been found to have mutations in the [[CEBPE]] (CCAAT/enhancer-binding protein epsilon) gene, a transcription factor primarily active in [[myeloid]] cells. Almost all patients have been found to be homozygous for the mutation, suggesting the disease is autosomal recessive. One patient, heterozygous for the mutation, was found to be deficient in [[GFI1]], a related gene. | |||
A majority of patients with SGD have been found to have mutations in the [[CEBPE]] (CCAAT/enhancer-binding protein epsilon) gene, a transcription factor primarily active in [[myeloid]] cells. | |||
== Pathophysiology == | == Pathophysiology == | ||
The defect in CEBPE appears to block the ability of neutrophils to mature past the promyelocyte stage in bone marrow. Since [[specific granules|specific]] (secondary) and [[gelatinase]] (tertiary) granules are only produced past the promyelocyte [[Neutrophil granulocyte#Life span|stage of development]], these are deficient in SGD. [[Lactoferrin]] is the major enzyme found in specific granules, and will be largely absent in the [[granulocytes]] of these patients, along with [[defensins]] (despite these also being found in [[azurophilic granules|azurophilic (primary) granules]]). | |||
The defect in CEBPE appears to block the ability of neutrophils to mature past the promyelocyte stage in bone marrow. | |||
==Treatment== | ==Treatment== | ||
Treatment consists mainly of high dose antibiotics for active infections and prophylactic antibiotics for prevention of future infections. [[GM-CSF]] therapy or [[bone marrow transplant]] might be considered for severe cases. Prognosis is difficult to predict, but patients receiving treatment are generally able to survive to adulthood. | |||
== External links == | == External links == | ||
{{Medical resources | {{Medical resources | ||
| Line 56: | Line 51: | ||
| MeshID = C562873 | | MeshID = C562873 | ||
}} | }} | ||
{{Myeloid and complement immunodeficiency}} | {{Myeloid and complement immunodeficiency}} | ||
{{DEFAULTSORT:Neutrophil-specific granule deficiency}} | {{DEFAULTSORT:Neutrophil-specific granule deficiency}} | ||
[[Category:Congenital defects of phagocyte number, function, or both]] | [[Category:Congenital defects of phagocyte number, function, or both]] | ||
[[Category:Enzyme defects]] | [[Category:Enzyme defects]] | ||
[[Category:Noninfectious immunodeficiency-related cutaneous conditions]] | [[Category:Noninfectious immunodeficiency-related cutaneous conditions]] | ||
Latest revision as of 22:23, 2 April 2025
| Neutrophil-specific granule deficiency | |
|---|---|
| [[File:|250px|alt=|]] | |
| Synonyms | SGD |
| Pronounce | |
| Field | N/A |
| Symptoms | Recurrent bacterial infections, particularly of the skin and respiratory system, due to impaired immune response. |
| Complications | Chronic infections, delayed wound healing, development of granulomatous inflammation, potentially leading to organ damage. |
| Onset | N/A |
| Duration | Lifelong |
| Types | There is one primary type of neutrophil-specific granule deficiency, which is congenital. |
| Causes | Caused by mutations in the **CSF3R** gene, leading to impaired granulocyte maturation and function. |
| Risks | Inherited in an autosomal dominant pattern, but some cases can be sporadic due to de novo mutations. |
| Diagnosis | Diagnosed through blood tests showing a reduced number of neutrophil-specific granules, typically using flow cytometry, electron microscopy, or genetic testing for CSF3R mutations. |
| Differential diagnosis | Differentiated from other causes of recurrent infections, such as chronic granulomatous disease (CGD), myeloperoxidase deficiency, and other neutrophil dysfunctions. |
| Prevention | No known prevention, as the condition is genetic. Early diagnosis and management can prevent complications. |
| Treatment | Supportive treatment for infections with antibiotics, granulocyte colony-stimulating factor (G-CSF) to stimulate neutrophil production, and potential bone marrow transplant in severe cases. |
| Medication | G-CSF (Granulocyte Colony-Stimulating Factor) to help stimulate neutrophil production and manage infections. |
| Prognosis | With early detection and appropriate treatment, many individuals can live normal lifespans; however, recurrent infections and complications can lead to reduced quality of life in severe cases. |
| Frequency | Rare; exact incidence is not well-defined. |
| Deaths | Mortality is rare but can occur due to complications from infections or severe inflammation, particularly in untreated cases. |
Neutrophil-specific granule deficiency ( previously known as lactoferrin deficiency) is a rare congenital immunodeficiency characterized by an increased risk for pyogenic infections due to defective production of specific granules and gelatinase granules in patient neutrophils.
Epidemiology[edit]
Estimation of the frequency of SGD is difficult, as it is an extremely rare disease with few cases reported in literature. The condition was first reported in 1980, and since only a handful more cases have been published.
Symptoms[edit]
Atypical infections are the key clinical manifestation of SGD. Within the first few years of life, patients will experience repeated pyogenic infections by species such as Staphylococcus aureus, Pseudomonas aeruginosa or other Enterobacteriaceae, and Candida albicans. Cutaneous ulcers or abscesses and pneumonia and chronic lung disease are common. Patients may also develop sepsis, mastoiditis, otitis media, and lymphadenopathy. Infants may present with vomiting, diarrhea, and failure to thrive.
Diagnosis[edit]
Diagnosis can be made based upon CEBPE gene mutation or a pathognomonic finding of a blood smear showing lack of specific granules. Neutrophils and eosinophils will contain hyposegmented nuclei (a pseudo-Pelger–Huet anomaly).
Genetics[edit]
A majority of patients with SGD have been found to have mutations in the CEBPE (CCAAT/enhancer-binding protein epsilon) gene, a transcription factor primarily active in myeloid cells. Almost all patients have been found to be homozygous for the mutation, suggesting the disease is autosomal recessive. One patient, heterozygous for the mutation, was found to be deficient in GFI1, a related gene.
Pathophysiology[edit]
The defect in CEBPE appears to block the ability of neutrophils to mature past the promyelocyte stage in bone marrow. Since specific (secondary) and gelatinase (tertiary) granules are only produced past the promyelocyte stage of development, these are deficient in SGD. Lactoferrin is the major enzyme found in specific granules, and will be largely absent in the granulocytes of these patients, along with defensins (despite these also being found in azurophilic (primary) granules).
Treatment[edit]
Treatment consists mainly of high dose antibiotics for active infections and prophylactic antibiotics for prevention of future infections. GM-CSF therapy or bone marrow transplant might be considered for severe cases. Prognosis is difficult to predict, but patients receiving treatment are generally able to survive to adulthood.
External links[edit]
| Hematologic disease: Monocyte and granulocyte disease (CFU-GM/CFU-Baso/CFU-Eos), including immunodeficiency (D70-D71, 288) | ||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|
|
