Rapid Diagnosis and Subtyping of Hermansky-Pudlak Syndrome With Flow Cytometry Analysis

The diagnostic approaches for Hermansky-Pudlak Syndrome (HPS) include genetic Sequencing, immunoblotting, electron microscopy (EM), and flow cytometry with mepacrine staining. However, these methods are often impractical for routine clinical use due to high cost, technical complexity, and limited availability. In this study, we evaluated dense granules (DGs) function in HPS mouse models using flow cytometry with mepacrine and FluoZin-3 staining. We then developed a standardized, practical flow cytometry-based protocol and validated it in patients with HPS and oculocutaneous albinism (OCA), which were confirmed by whole-mount EM. In HPS mouse models (BLOC-1, BLOC-2, BLOC-3, and AP-3 deficient mutants), mepacrine uptake was consistently reduced. FluoZin-3 fluorescence showed subtype-specific zinc dysregulation, with elevated levels in BLOC-1, BLOC-2, and AP-3 mutants but decreased levels in the BLOC-3 mutant. In contrast, the OCA-6 mouse mutant showed no significant changes in either mepacrine or FluoZin-3 uptake. Similar patterns were observed in HPS and non-syndromic OCA patients. Our findings indicate that the protocol can enable the precise diagnosis and preliminary subtype classification of HPS, while also facilitating differential diagnosis between HPS and OCA. This method offers a rapid, clinically accessible alternative to conventional diagnostic techniques and may also be applicable to Other storage pool disorders with DG defects.

FluoZin‐3; Hermansky‐Pudlak syndrome; electron microscopy; flow cytometry; mepacrine; platelet dense granules.