The Role of NGF and Its Receptor TrKA in Patients With Erectile Dysfunction

The aim of our study was to investigate the plasma NGF concentration and TrkA/p75NTR receptor expression on white blood cells (WBCs), in peripheral and corpus cavernosum blood isolated from patients with erectile dysfunction and metabolic syndrome (ED/MetS). This was a pilot case–control study. Inclusion criteria were as follows: men 18–65 years with ED and MetS and healthy subjects. The first sampling was performed at the level of the cubital vein (VC). Subsequently, 20 μg of intracavernous alprostadil was administered, and a second blood draw from the corpora cavernosa (CC) was performed once erection was achieved. Subsequently, the third blood sample was repeated at the level of the VC. We enrolled 8 cases with ED/MetS and 8 controls. There was no significant difference between the case and control group in terms of mean age (49.3 ± 5.9 and 53.13 ± 8.9, respectively). The case group had a lower IIEF score compared to the control group (14 ± 3.2 versus 27.3 ± 2.1; p < 0.05). Decreased NGF and TrKA expression on WBC and thiols were found in the plasma of ED/MetS patients compared to control. The study showed that patients with ED/MetS had a decrease in plasma NGF and thiol concentration, and they had a decrease in TrKA expression on WBCs

Non-Aβ-dependent factors associated with global cognitive and physical function in alzheimer's disease: a pilot multivariate analysis

Recent literature highlights the importance of identifying factors associated with mild cognitive impairment (MCI) and Alzheimer's Disease (AD). Actual validated biomarkers include neuroimaging and cerebrospinal fluid assessments; however, we investigated non-Aβ-dependent factors associated with dementia in 12 MCI and 30 AD patients. Patients were assessed for global cognitive function (Mini-Mental state examination-MMSE), physical function (Physical Performance Test-PPT), exercise capacity (6-min walking test-6MWT), maximal oxygen uptake (VO₂max), brain volume, vascular function (flow-mediated dilation-FMD), inflammatory status (tumor necrosis factor-α ,TNF- α, interleukin-6, -10 and -15) and neurotrophin receptors (p75NTR and Tropomyosin receptor kinase A -TrkA). Baseline multifactorial information was submitted to two separate backward stepwise regression analyses to identify the variables associated with cognitive and physical decline in demented patients. A multivariate regression was then applied to verify the stepwise regression. The results indicated that the combination of 6MWT and VO₂max was associated with both global cognitive and physical function (MMSE = 11.384 + (0.00599 × 6MWT) - (0.235 × VO₂max)); (PPT = 1.848 + (0.0264 × 6MWT) + (19.693 × VO₂max)). These results may offer important information that might help to identify specific targets for therapeutic strategies (NIH Clinical trial identification number NCT03034746)

Changes in Plasma \u3b2-NGF and Its Receptors Expression on Peripheral Blood Monocytes During Alzheimer\u2019s Disease Progression

Alzheimer\u2019s disease (AD), the most common cause of dementia, is characterized by the deposition of extracellular amyloid-\u3b2 (A\u3b2) plaques and intracellular neurofibrillary tangles, and by neuroinflammation. During the pathogenesis of AD, monocyte-macrophage lineage cells become increasingly ineffective in clearing A\u3b2 deposits, less able to differentiate, and shift toward pro-inflammatory processes. Beta-nerve growth factor (\u3b2-NGF) and its receptors, TrKA and p75NTR, produce several biological responses, including cell apoptosis and survival, and inflammation. In the central nervous system, the involvement of these receptors in several critical hallmarks of AD is well known, but their role in circulating monocytes during the progression of dementia is unclear. We investigated the relationship between plasma \u3b2-NGF concentration and TrkA/p75NTR receptor expression in monocytes of patients with mild cognitive impairment (MCI), mild AD, and severe AD. We observed that plasma \u3b2-NGF concentration was increased with a higher expression of TrKA, but not of p75NTR, in monocytes from patients with MCI and mild AD, whereas \u3b2-NGF concentration and TrKA expression were decreased and p75NTR expression was increased, associated with caspase 3-mediated apoptosis, in patients with severe AD. In our study, we show evidence of variation in plasmatic \u3b2-NGF and monocytic TrkA/p75NTR receptor expression during the progression of dementia. These novel findings add evidence to support the hypothesis for the involvement of \u3b2-NGF and its receptors on monocytes during AD progression

Modulation of Nerve Growth Factor receptors in human monocytes and their influence in pulmonary inflammatory diseases

Neurotrophins (NTs) are a family of growth/survival factors with well-established functions in the nervous system. In the last decade, novel biological actions, from oncogenicity to inflammation, have been attributed to these factors. In particular, Nerve Growth Factor (NGF) acts through two different classes of receptors: the high affinity transducing TrKA receptor, associated to proliferation/survival, and the low affinity p75 receptor that, depending on its cross talk with TrKA, induces either apoptosis or survival. Recently, NGF and its receptors have been detected in healthy pulmonary tissues and seem to be involved in pulmonary inflammatory diseases. Since the expression of these NGF receptors in circulating monocytes is controversial, our initial aim was to investigate the role of these receptors both in pulmonary tissues and in peripheral blood monocytes of patients with Chronic Obstructive Pulmonary Disease (COPD). We therefore analyzed 38 healthy control subjects divided in two groups based on their smoking status. Serendipitously, the data obtained in these two control groups may have a value of their own, with potential implications in preventive medicine. We show here that in healthy subjects, smoking induces an early increase in p75 expression in monocytes, while TrKA seems unaffected. Furthermore, our control subjects could be divided in three subsets according to the constitutive TrKA expression in monocytes: TrKA-negatives, -intermediates (up to 50%) or -high (> 50%), independently on their smoking status. Since TrKA activation promotes inflammation, we hypothesize that subjects with high-TrKA monocytes could be more prone to pulmonary inflammatory diseases, such as COPD. In fact, all 28 COPD patients in our series belonged to the high-TrKA subset, while all long term heavy smokers with no evidence of pneumologic diseases belonged to TrKA-negative subset. In conclusion, our data support the hypothesis that, since TrKA expression promotes survival, elevated levels of TrKA-positive monocytes may render subjects more prone to long term inflammatory diseases (e.g., COPD). Moreover, in patients constitutively expressing high levels of TrKA in monocytes, the smoking-dependent increase in p75 may in turn further extend monocytes survival, contributing to a chronic inflammation. Furthermore, the early increase in p75 expression in monocytes following smoking may support the hypothesis that p75 determination might represent a novel marker for passive smoking. Acknowledgments. This study was totally supported by Fondazione Cassa di Risparmio di Tern

Randomised controlled trial combining vitamin E-functionalised chocolate with physical exercise to reduce the risk of protein-energy malnutrition in predementia aged people: study protocol for Choko-Age

Objective: Protein-energy malnutrition and the subsequent muscle wasting (sarcopenia) are common ageing complications. It is knowing to be also associated with dementia. Our programme will test the cytoprotective functions of vitamin E combined with the cortisol-lowering effect of chocolate polyphenols (PP), in combination with muscle anabolic effect of adequate dietary protein intake and physical exercise to prevent the age-dependent decline of muscle mass and its key underpinning mechanisms including mitochondrial function, and nutrient metabolism in muscle in the elderly. Methods and analysis: In 2020, a 6-month double-blind randomised controlled trial in 75 predementia older people was launched to prevent muscle mass loss, in respond to the 'Joint Programming Initiative A healthy diet for a healthy life'. In the run-in phase, participants will be stabilised on a protein-rich diet (0.9-1.0 g protein/kg ideal body weight/day) and physical exercise programme (high-intensity interval training specifically developed for these subjects). Subsequently, they will be randomised into three groups (1:1:1). The study arms will have a similar isocaloric diet and follow a similar physical exercise programme. Control group (n=25) will maintain the baseline diet; intervention groups will consume either 30 g/day of dark chocolate containing 500 mg total PP (corresponding to 60 mg epicatechin) and 100 mg vitamin E (as RRR-alpha-tocopherol) (n=25); or the high polyphenol chocolate without additional vitamin E (n=25). Muscle mass will be the primary endpoint. Other outcomes are neurocognitive status and previously identified biomolecular indices of frailty in predementia patients. Muscle biopsies will be collected to assess myocyte contraction and mitochondrial metabolism. Blood and plasma samples will be analysed for laboratory endpoints including nutrition metabolism and omics. Ethics and dissemination: All the ethical and regulatory approvals have been obtained by the ethical committees of the Azienda Ospedaliera Universitaria Integrata of Verona with respect to scientific content and compliance with applicable research and human subjects' regulation. Given the broader interest of the society toward undernutrition in the elderly, we identify four main target audiences for our research activity: national and local health systems, both internal and external to the project; targeted population (the elderly); general public; and academia. These activities include scientific workshops, public health awareness campaigns, project dedicated website and publication is scientific peer-review journals. Trial registration number: NCT05343611

A comparison of lysosomal enzymes expression levels in peripheral blood of mild- and severe-Alzheimer's disease and MCI patients: implications for regenerative medicine approaches

The association of lysosomal dysfunction and neurodegeneration has been documented in several neurodegenerative diseases, including Alzheimer's Disease (AD). Herein, we investigate the association of lysosomal enzymes with AD at different stages of progression of the disease (mild and severe) or with mild cognitive impairment (MCI). We conducted a screening of two classes of lysosomal enzymes: glycohydrolases (\u3b2-Hexosaminidase, \u3b2-Galctosidase, \u3b2-Galactosylcerebrosidase, \u3b2-Glucuronidase) and proteases (Cathepsins S, D, B, L) in peripheral blood samples (blood plasma and PBMCs) from mild AD, severe AD, MCI and healthy control subjects. We confirmed the lysosomal dysfunction in severe AD patients and added new findings enhancing the association of abnormal levels of specific lysosomal enzymes with the mild AD or severe AD, and highlighting the difference of AD from MCI. Herein, we showed for the first time the specific alteration of \u3b2-Galctosidase (Gal), \u3b2-Galactosylcerebrosidase (GALC) in MCI patients. It is notable that in above peripheral biological samples the lysosomes are more sensitive to AD cellular metabolic alteration when compared to levels of A\u3b2-peptide or Tau proteins, similar in both AD groups analyzed. Collectively, our findings support the role of lysosomal enzymes as potential peripheral molecules that vary with the progression of AD, and make them useful for monitoring regenerative medicine approaches for AD

Potential regulation by trophic factors of low-affinity NGF receptors in spinal motor neurons

Developing spinal motor neurons (SMN) express low-affinity nerve growth factor receptors (LNGFR) but not high-affinity transducing NGF receptors. Moreover, SMN are not supported by NGF in vitro. In the normal adult rat most SMN are not LNGFR immunoreactive (LNGFR-IR), but they transiently reexpress LNGFR (though not the high-affinity receptor) after peripheral nerve injury. With a cut lesion of the sciatic nerve (when only a neuroma forms), the number of LNGFR-IR SMN at L4–L6 rapidly increases to a maximum between day 1 and 7 and returns to baseline levels by day 30. After a crush lesion (accompanied by regeneration to the muscle), LNGFR-IR SMN appear in about the same numbers, but they start to disappear 1 week later. We speculate that the similar appearance and differential decline of LNGFR-IR seen after the two types of lesions are regulated by the availability of a common signal such as ciliary neurotrophic factor. The adult SMN model provides a good opportunity to investigate the reexpression of LNGFR after peripheral nerve injury, and more generally, the unknown role and regulation of LNGFR

New Challenges for Anatomists in the Era of Omics

Anatomic studies have traditionally relied on macroscopic, microscopic, and histological techniques to investigate the structure of tissues and organs. Anatomic studies are essential in many fields, including medicine, biology, and veterinary science. Advances in technology, such as imaging techniques and molecular biology, continue to provide new insights into the anatomy of living organisms. Therefore, anatomy remains an active and important area in the scientific field. The consolidation in recent years of some omics technologies such as genomics, transcriptomics, proteomics, and metabolomics allows for a more complete and detailed understanding of the structure and function of cells, tissues, and organs. These have been joined more recently by “omics” such as radiomics, pathomics, and connectomics, supported by computer-assisted technologies such as neural networks, 3D bioprinting, and artificial intelligence. All these new tools, although some are still in the early stages of development, have the potential to strongly contribute to the macroscopic and microscopic characterization in medicine. For anatomists, it is time to hitch a ride and get on board omics technologies to sail to new frontiers and to explore novel scenarios in anatomy