Natural Bioactive Compounds from Macroalgae and Microalgae for the Treatment of Alzheimer's Disease: A Review.

Neuroinflammation, toxic protein aggregation, oxidative stress, and mitochondrial dysfunction are key pathways in neurodegenerative diseases like Alzheimer's disease (AD). Targeting these mechanisms with antioxidants, anti-inflammatory compounds, and inhibitors of Aß formation and aggregation is crucial for treatment. Marine algae are rich sources of bioactive compounds, including carbohydrates, phenolics, fatty acids, phycobiliproteins, carotenoids, fatty acids, and vitamins. In recent years, they have attracted interest from the pharmaceutical and nutraceutical industries due to their exceptional biological activities, which include anti-inflammation, antioxidant, anticancer, and anti-apoptosis properties. Multiple lines of evidence have unveiled the potential neuroprotective effects of these multifunctional algal compounds for application in treating and managing AD. This article will provide insight into the molecular mechanisms underlying the neuroprotective effects of bioactive compounds derived from algae based on in vitro and in vivo models of neuroinflammation and AD. We will also discuss their potential as disease-modifying and symptomatic treatment strategies for AD.

Blood-based therapies to combat neurodegenerative diseases.

Neurodegeneration, known as the progressive loss of neurons in terms of their structure and function, is the principal pathophysiological change found in the majority of brain-related disorders. Ageing has been considered the most well-established risk factor in most common neurodegenerative diseases, such as Parkinson's disease (PD) and Alzheimer's disease (AD). There is currently no effective treatment or cure for these diseases; the approved therapeutic options to date are only for palliative care. Ageing and neurodegenerative diseases are closely intertwined; reversing the aspects of brain ageing could theoretically mitigate age-related neurodegeneration. Ever since the regenerative properties of young blood on aged tissues came to light, substantial efforts have been focused on identifying and characterizing the circulating factors in the young and old systemic milieu that may attenuate or accentuate brain ageing and neurodegeneration. Later studies discovered the superiority of old plasma dilution in tissue rejuvenation, which is achieved through a molecular reset of the systemic proteome. These findings supported the use of therapeutic blood exchange for the treatment of degenerative diseases in older individuals. The first objective of this article is to explore the rejuvenating properties of blood-based therapies in the ageing brains and their therapeutic effects on AD. Then, we also look into the clinical applications, various limitations, and challenges associated with blood-based therapies for AD patients.

Molecular mechanisms underlying the regulation of tumour suppressor genes in lung cancer.

Tumour suppressor genes play a cardinal role in the development of a large array of human cancers, including lung cancer, which is one of the most frequently diagnosed cancers worldwide. Therefore, extensive studies have been committed to deciphering the underlying mechanisms of alterations of tumour suppressor genes in governing tumourigenesis, as well as resistance to cancer therapies. In spite of the encouraging clinical outcomes demonstrated by lung cancer patients on initial treatment, the subsequent unresponsiveness to first-line treatments manifested by virtually all the patients is inherently a contentious issue. In light of the aforementioned concerns, this review compiles the current knowledge on the molecular mechanisms of some of the tumour suppressor genes implicated in lung cancer that are either frequently mutated and/or are located on the chromosomal arms having high LOH rates (1p, 3p, 9p, 10q, 13q, and 17p). Our study identifies specific genomic loci prone to LOH, revealing a recurrent pattern in lung cancer cases. These loci, including 3p14.2 (FHIT), 9p21.3 (p16INK4a), 10q23 (PTEN), 17p13 (TP53), exhibit a higher susceptibility to LOH due to environmental factors such as exposure to DNA-damaging agents (carcinogens in cigarette smoke) and genetic factors such as chromosomal instability, genetic mutations, DNA replication errors, and genetic predisposition. Furthermore, this review summarizes the current treatment landscape and advancements for lung cancers, including the challenges and endeavours to overcome it. This review envisages inspired researchers to embark on a journey of discovery to add to the list of what was known in hopes of prompting the development of effective therapeutic strategies for lung cancer.

Hepatitis B virus: pathogenesis, viral intermediates, and viral replication.

Although HBV has the potential to generate an almost limitless spectrum of quasispecies during chronic infection, the viability of the majority of these quasispecies is almost certainly impaired due to constraints imposed by the remarkably compact organization of the HBV genome. On the other hand, single mutations may affect more than one gene and result in complex and unpredictable effects on viral phenotype. Better understanding of the constraints imposed by gene overlap and of genotype-phenotype relationships should help in the development of improved antiviral strategies and management approaches. Although the probability of developing viral resistance is directly proportional to the intensity of selection pressure and the diversity of quasispecies, potent inhibition of HBV replication should be able to prevent development of drug resistance because mutagenesis is replication dependent. If viral replication can be suppressed for a sufficient length of time, viral load should decline to a point where the continued production of quasispecies with the potential to resist new drug treatments no longer occurs. Clinical application of this concept will require optimization of combination therapies analogous to highly active antiretroviral therapy (HAART) for HIV infection. Total cure of hepatitis B will require elimination of the intranuclear pool of viral minichromosomes, which will probably only be achieved by normal cell turnover, reactivation of host immunity, or elucidation of the antiviral mechanisms operating during cytokine clearance in acute hepatitis B (see Fig. 1).

Endocytosis of hepatitis B immune globulin into hepatocytes inhibits the secretion of hepatitis B virus surface antigen and virions.

Hepatitis B immunoglobulin is used for prophylaxis against hepatitis B virus (HBV) and is thought to act by neutralization of virions and hepatitis B virus surface antigen (HBsAg)-containing particles in circulation. Using a panel of hepatocyte-derived cell lines, the present study investigated in vitro whether HBs-specific immunoglobulin G (IgG) is internalized in hepatocytes and whether it interacts with HBsAg in the cells. By immunoelectron microscopy and immunoblotting, human IgG and FcRn receptor for IgG were demonstrated on cellular membranes and in cytoplasmic extracts, irrespective of the HBsAg status of the cells. Furthermore, HBsAg and anti-HBs were shown to be colocalized in the same cellular compartment by two-color confocal microscopy. Endocytosis of HBs-specific IgG caused intracellular accumulation of HBsAg in a dose-dependent manner and inhibited the secretion of HBsAg and HBV virions from the cells. These effects were not observed with F(ab)(2) fragments or nonimmune IgG as controls. The specificity of intracellular HBsAg- anti-HBs interaction was further investigated in cells transfected with HBV genomes expressing wild-type HBsAg or immune escape HBsAg (with a G145R mutation). Monoclonal anti-HBs markedly reduced the secretion of wild-type HBsAg, while the secretion of mutant HBsAg was not affected. These results suggest that HBs-specific IgG binds to hepatocytes and interacts with HBsAg within the cells. This may be relevant for the selection of surface antibody escape mutations.

Lamivudine and Famciclovir resistant hepatitis B virus associated with fatal hepatic failure.

BACKGROUND: Lamivudine (LMV) is the only nucleoside analogue approved for the treatment of chronic hepatitis B (CHB). LMV, as with other nucleoside analogues including Famciclovir (FCV), suppresses the replication of hepatitis B virus (HBV) by targeting the viral polymerase. However, prolonged antiviral therapy results in the emergence of drug resistance HBV which can contribute to virological breakthroughs and recurrent hepatitis flares. OBJECTIVES: A 38-year-old hepatitis B e antigen (HBeAg) positive Chinese female infected with genotype B HBV commenced treatment with FCV and LMV combination therapy but was later maintained on LMV monotherapy. The patient remained HBeAg positive throughout treatment. Virological breakthrough occurred with the emergence of drug resistant HBV. This coincided with worsening liver function and the patient died of subacute fulminant hepatitis. This study evaluated the virological factors that contributed to the clinical decline of the patient. STUDY DESIGN: Biochemical analysis and full-length HBV genomic sequencing were performed on serial serum samples collected from the patient before and during antiviral therapy. RESULTS: Virological analysis revealed that the pre-treatment dominant HBV quasispecies in the patient had a number of non-consensus genotype B mutations which were located in the basal core promoter (BCP), polymerase, X, core and S genes. Subsequent to the instigation of antiviral therapy, the dominant drug resistant HBV which caused virological breakthrough and was associated with hepatic failure displayed a series of unique mutations particularly in the BCP (A1762T and G1764A) and in the polymerase (rtL180M, rtM204V, rtA222T and rtL336V), core (cP5T, cS26A, cV85I and cP135A), surface (sI195M and sM213I) and X (xK95Q, xN118T, xK130M and xV131I) proteins. CONCLUSIONS: Monitoring for the accumulation of unique mutations within the genome of drug resistant HBV mutants isolated during long term antiviral therapy appears warranted in the clinical management of patients with CHB.