X-linked adrenoleukodystrophy(X-ALD) is an inherited progressive neurometabolic disorder caused by mutations in the ATP-binding cassette subfamily D member 1(ABCD1) gene. The encoded ALD protein dysfunction leads to the accumulation of very-long-chain fatty acids(VLCFA). X-ALD is classified according to its clinical characteristics into childhood cerebral ALD, adolescent cerebral ALD, adult cerebral ALD, adrenomyeloneuropathy(AMN), pure adrenocortical insufficiency, and an asymptomatic phenotype, all of which can present with a variety of neurologic manifestations. In this study, we retrospectively analyzed the clinical manifestations, laboratory findings, genetic test results, and follow-up data of four patients with X-ALD, and investigated the clinical features and pathogenicity of the identified gene mutations. All four patients initially presented with adrenocortical insufficiency(Addison′s disease) and received glucocorticoid replacement therapy. Subsequently, all developed neurologic signs and symptoms with rapid progression. The final diagnosis was confirmed based on elevated VLCFA levels, brain magnetic resonance imaging(MRI) findings, and genetic analysis. Notably, a deletion mutation in Exon 10 of the ABCD1 gene was identified in one case for the first time. We report four cases of X-ALD presenting with adrenocortical insufficiency as the initial symptom, and briefly review the relevant literature to analyze the relationship between linical phenotypes and genetic loci, aiming to provide a reference for early diagnosis and treatment of the disease, and to reduce the risk of misdiagnosis and missed diagnosis.

X-linked adrenoleukodystrophy(X-ALD) is an inherited progressive neurometabolic disorder caused by mutations in the ATP-binding cassette subfamily D member 1(ABCD1) gene. The encoded ALD protein dysfunction leads to the accumulation of very-long-chain fatty acids(VLCFA). X-ALD is classified according to its clinical characteristics into childhood cerebral ALD, adolescent cerebral ALD, adult cerebral ALD, adrenomyeloneuropathy(AMN), pure adrenocortical insufficiency, and an asymptomatic phenotype, all of which can present with a variety of neurologic manifestations. In this study, we retrospectively analyzed the clinical manifestations, laboratory findings, genetic test results, and follow-up data of four patients with X-ALD, and investigated the clinical features and pathogenicity of the identified gene mutations. All four patients initially presented with adrenocortical insufficiency(Addison′s disease) and received glucocorticoid replacement therapy. Subsequently, all developed neurologic signs and symptoms with rapid progression. The final diagnosis was confirmed based on elevated VLCFA levels, brain magnetic resonance imaging(MRI) findings, and genetic analysis. Notably, a deletion mutation in Exon 10 of the ABCD1 gene was identified in one case for the first time. We report four cases of X-ALD presenting with adrenocortical insufficiency as the initial symptom, and briefly review the relevant literature to analyze the relationship between linical phenotypes and genetic loci, aiming to provide a reference for early diagnosis and treatment of the disease, and to reduce the risk of misdiagnosis and missed diagnosis.

Drug delivery systems (DDS) are defined as methods by which drugs are delivered to desired tissues, organs, cells and subcellular organs for drug release and absorption through a variety of drug carriers. Its usual purpose to improve the pharmacological activities of therapeutic drugs and to overcome problems such as limited solubility, drug aggregation, low bioavailability, poor biodistribution, lack of selectivity, or to reduce the side effects of therapeutic drugs. During 2015-2018, significant progress in the research on drug delivery systems has been achieved along with advances in related fields, such as pharmaceutical sciences, material sciences and biomedical sciences. This review provides a concise overview of current progress in this research area through its focus on the delivery strategies, construction techniques and specific examples. It is a valuable reference for pharmaceutical scientists who want to learn more about the design of drug delivery systems.

RNAi technology has aroused wide public interest due to its high efficiency and specificity to treat multiple types of diseases. However, the effective delivery of siRNA remains a challenge due to its large molecular weight and strong anionic charge. Considering their remarkable functions and features that are often desired in drug delivery carriers, biomimetic systems for siRNA delivery become an effective and promising strategy. Based on this, covalent attachment of synthetic cell penetrating peptides (CPP) to siRNA has become of great interest. We developed a monomeric covalent conjugate of low molecular weight protamine (LMWP, a well-established CPP) and siRNA a cytosol-cleavable disulfide linkage using PEG as a crosslinker. Results showed that the conjugates didn't generate coagulation, and exhibited much better RNAi potency and intracellular delivery compared with the conventional charge-complexed CPP/siRNA aggregates. Three different synthetic and purification methods were compared in order to optimize synthesis efficiency and product yield. The methodology using hetero-bifunctional NHS-PEG-OPSS as a crosslinker to synthesize LMWP-siRNA simplified the synthesis and purification process and produced the highest yield. These results pave the way towards siRNA biomimetic delivery and future clinical translation.