Hermansky-Pudlak syndrome (HPS), a rare autosomal recessive disorder, manifests with oculocutaneous albinism and a bleeding diathesis. However, severity of disease can be variable and is typically related to the genetic subtype of HPS; HPS type 6 (HPS-6) is an uncommon subtype generally associated with mild disease. A Caucasian adult female presented with a history of severe bleeding; ophthalmologic examination indicated occult oculocutaneous albinism. The patient was diagnosed with a platelet storage pool disorder, and platelet whole mount electron microscopy demonstrated absent delta granules. Genome-wide SNP analysis showed regions of homozygosity that included the HPS1 and HPS6 genes. Full length HPS1 transcript was amplified by PCR of genomic DNA. Targeted next-generation sequencing identified a novel homozygous missense variant in HPS6 (c.383T>C; p.V128A); this was associated with significantly reduced HPS6 mRNA and protein expression in the patient’s fibroblasts compared to control cells. These findings highlight the variable severity of disease manifestations in patients with HPS, and illustrate that HPS can be diagnosed in patients with excessive bleeding and occult oculocutaneous albinism. Genetic analysis and platelet electron microscopy are useful diagnostic tests in evaluating patients with suspected HPS.
Background HPS-1 is a genetic type of Hermansky-Pudlak syndrome (HPS) with highly penetrant pulmonary fibrosis (HPSPF), a restrictive lung disease that is similar to idiopathic pulmonary fibrosis (IPF). Hps1ep/ep (pale ear) is a naturally occurring HPS-1 mouse model that exhibits high sensitivity to bleomycin-induced pulmonary fibrosis (PF). Traditional methods of administering bleomycin as an intratracheal (IT) route to induce PF in this model often lead to severe acute lung injury and high mortality rates, complicating studies focusing on pathobiological mechanisms or exploration of therapeutic options for HPSPF. Methods To develop a murine model of HPSPF that closely mimics the progression of human pulmonary fibrosis, we investigated the pulmonary effects of systemic delivery of bleomycin in Hps1ep/ep mice using a subcutaneous minipump and compared results to oropharyngeal delivery of bleomycin. Results Our study revealed that systemic delivery of bleomycin induced limited, acute inflammation that resolved. The distinct inflammatory phase preceded a slow, gradually progressive fibrogenesis that was shown to be both time-dependent and dose-dependent. The fibrosis phase exhibited characteristics that better resembles human disease with focal regions of fibrosis that were predominantly found in peribronchovascular areas and in subpleural regions; central lung areas contained relatively less fibrosis. Conclusion This model provides a preclinical tool that will allow researchers to study the mechanism of pulmonary fibrosis in HPS and provide a platform for the development of therapeutics to treat HPSPF. This method can be applied on studies of IPF or other monogenic disorders that lead to pulmonary fibrosis.
Qualitative disorders of platelets are often missed at clinical evaluation. Hermansky-Pudlak (HPS) syndrome is a rare genetic metabolic disorder with subtype specific clinical associations most prevalent in Puerto Rico with strong link to consanguinity. HPS is usually associated with albinism, visual impairment and a qualitative platelet dysfunction due to absence of dense granules. Ceroid accumulation can be associated with inflammatory bowel disease, pulmonary fibrosis and kidney disease. Ten variants have been described with types 1, 2 and 4 associated with severe disease whilst type 3, 5 and 6 is associated with mild disease. Little is known about types 7, 8, 9 and 10. A Caucasian adult female presented with a history of intermittent episodes of severe bleeding. She carried the diagnosis of probable von Willebrand's disease at presentation. This particular patient did not respond to cryoprecipitate infusion but bleeding stopped secondary to infusion of normal platelets, a clue to a platelet storage disorder. Hence she was re-investigated for a bleeding disorder and initial coagulation testing identified abnormal platelet aggregation and amplitude pattern to epinephrine. She was subsequently evaluated with platelet transmission electron microscopy and platelet flow cytometry at the Mayo Clinic Hematopathology. Platelet TEM showed complete absence of dense granules and a normal flow cytometry. HPS was suspected and initial genetic studies identified a variant genetic abnormality. Further studies were done at the NIH. Classical clinical features of HPS like nystagmus, and ocular albinism was not identified at initial neurological and ophthalmologic examination. But more detailed evaluation revealed subclinical oculocutaneous albinism. Genome wide SNP analysis showed regions of homozygosity including HPS 1 and HPS 6; deletions were not identified in these genes. Full length HPS1 transcript was amplified by PCR of genomic DNA. Targeted next-generation sequencing identified a novel homozygous missense variant [c.383T>C (p.V128A)] in HPS6. Reduced HPS6 mRNA levels were found in the patient's skin fibroblasts compared to cells from patients with HPS-1 and normal control cells. HPS6 protein expression in the patient's cells was also low and approximately 60% lower than that of normal cells. HPS is a rare platelet storage disorder that can often be missed. Platelet aggregation tests need to be followed up by platelet TEM and genetic testing to definitively diagnose this condition. Further work up has defined a new missense variant by SNP analysis, next generation sequencing and fibroblast culture. It is important to identify the subtype of HPS, because certain subtypes of HPS (HPS 1, 2 and 4) have clinical manifestations like progressive pulmonary fibrosis. Identification of the platelet storage disorder also helps in management of the bleeding diathesis. Disclosures No relevant conflicts of interest to declare.
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