Relationship of Diabetes Mellitus type 2 in the Alteration of Proteins Involved in the Incidence of Alzheimer

Research Article | DOI: https://doi.org/10.31579/2767-7370/051

Relationship of Diabetes Mellitus type 2 in the Alteration of Proteins Involved in the Incidence of Alzheimer

  • Amanda de Paula Soares da Silva 1
  • João Paulo Marciano 1
  • Simone Camargo de Oliveira Rossignolo 2
  • Luciana Pietro 3*

1 Student of the Nutrition course at Paulista University UNIP, Campinas São Paulo/ SP, Brazil.
2 Nurse, Doctor, Professor of the Nursing and Medicine Course at Paulista University UNIP, Campinas, São Paulo/SP, Brazil.
3 Biologist, Doctor, Professor of the Nutrition and Medicine Course at Paulista University UNIP, Campinas, São Paulo/SP, Brazil.

*Corresponding Author: Luciana Pietro, Biologist, Doctor, Professor of the Nutrition and Medicine Course at Paulista University UNIP, Campinas, São Paulo/SP, Brazil.

Citation: Amanda de Paula Soares da Silva, João Paulo Marciano, Simone Camargo de Oliveira Rossignolo, and Luciana Pietro, (2023), Relationship of Diabetes Mellitus type 2 in the Alteration of Proteins Involved in the Incidence of Alzheimer, J New Medical Innovations and Research, 4(4); DOI:10.31579/2767-7370/051

Copyright: © 2023, Luciana Pietro. This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

Received: 19 July 2023 | Accepted: 09 August 2023 | Published: 18 August 2023

Keywords: alzheimer's disease; diabetes mellitus; beta amyloid protein; tau protein

Abstract

Background: Alzheimer's disease (AD) is a syndrome of chronic or progressive origin that can deteriorate neural functions, especially cognitive ones, with worsening of memory, thinking, orientation, understanding of learning capacity and judgment, usually accompanied by bipolarity. 

Aim: to analyze the influence of Type 2 Diabetes Mellitus (DM2) on the alteration of proteins involved in the development of Alzheimer's disease. 

Materials and methods: This is a systematic review study, in English and Portuguese, between 2010 and 2022. 

Results: From the data collection, it was possible to observe the relationship of amyloid beta and tau proteins with Alzheimer's, and the direct impact that glycemic dysregulation due to insulin resistance, considered one of the main characteristics of DM2, it can cause, leading to the accumulation of beta-amyloid and Tau hyperphosphorylation, making it possible to state that there is a connection between DM2 and AD, acting as a cofactor for the development of the disease of Alzheimer's and evolution of more severe conditions. 

Conclusions: we can see that there is a link between DM2 and AD, due to selective deficiencies in insulin signaling, together with the positive regulation and accumulation of beta amyloid protein and hyperphosphorylation of Tau protein, being a cofactor for the development of Alzheimer's disease and the evolution of more severe conditions.

Running title: Diabetes Mellitus Type 2 and Alzheimer

Abbreviations

AD: Alzheimer's disease 

DM: Diabetes Mellitus 

DM2: Type 2 Diabetes Mellitus

WHO: World Health Organization 

βA: β-amyloid protein 

HOMA-IR: Homeostatic Model for the Assessment of Insulin Resistance 

BBB: Blood-brain barrier 

PSD: Component of postsynaptic density 

CSF: Cerebrospinal fluid 

PET: Positron emission tomography 

PIB: Positron emission tomography with 11C-Pittsburgh compound B

BMI: Low cognitive impairment 

P-tau: levels of phosphorylated tau protein 

T-tau: Levels of phosphorylated total tau protein 

MRI: Cranial magnetic resonance imaging 

APOE: Apolipoprotein E 

CBD: Corticobasal Degeneration 

PSP: Progressive supranuclear palsy 

DFT: Frontotemporal dementia 

PI3K: Phosphoinositide 3-kinase

EDI: Insulin-degrading enzyme 

CNS: Central nervous system (CNS)

PLA2: Phospholipase A2 

p-AKT: Protein kinase B (p-AKT) 

GSK3: Glycogen synthase kinase 3 (GSK3).

AGE’s: Advanced Glycation End Products (AGE's)

Introduction

Alzheimer's disease (AD), or also known as dementia, is a syndrome of chronic or progressive origin that can deteriorate neural functions, especially cognitive ones, with worsening of memory, thinking, orientation, understanding of learning capacity and judgment, usually accompanied by bipolarity [1].

According to the World Health Organization (WHO), more than 55 million people live with Alzheimer's worldwide and about 10 million incidences per year [1]. In Brazil, it is estimated that the average prevalence may present the highest worldwide in elderly people over 65 years old, which will increase from 7.6% to  7.9 percentage between 2010 and 2020, totaling 55,000 new cases per year². In the ranking of the main causes of death in the world, Alzheimer's currently occupies the seventh place among all the diseases that cause disability and dependency in the elderly, with about 1.5 million per year, with the prevalence increasing more and more [1].
Dementia can affect not only the carrier of the pathologies, but also their family members and caregivers, presenting and manifesting in different ways, depending on the preceding causes, or other health conditions that would aggravate the neurological functioning problems before the person is diagnosed with Alzheimer's [1]. The apparent symptoms linked to Alzheimer's can be separated into 3 stages: initial, intermediate, and late stage, where in the initial stage the loss of simple notions of space and time is observed, such as getting lost in familiar places, forgetting recent facts, and even lose track of time. As the disease worsens, it advances to the intermediate level, in which communication begins to be affected, with difficulty recognizing family members, and the need for help with personal care. In the most advanced stage called Late Phase, the patient becomes totally dependent, needing to be always assisted, with his motor coordination to walk affected and showing the first signs of bipolarity [1,2].
According to Povova et al. [3], more than a century after the discovery of Alzheimer's disease, only two pathological processes were identified for the of the disease, which are: development deposition of β-amyloid protein (βA) and tau proteins, usually observed in the first diagnosis. However, other hypotheses are also suggested, such as molecular, genetic, and epidemiological alterations, which are currently being studied. Diabetes is one of the diseases in which it is believed that there is a relationship in which there may be a contribution to the development of AD, and there are already some studies that try to talk about the relationship between the two diseases [4].
Diabetes is part of a group of metabolic diseases that are determined by hyperglycemia, resulting from a defect in insulin action, secretion, or both. Hyperglycemia, which is directly related to diabetes, is associated with future damage, dysfunction, and the failure of numerous organs, some of which are: “eyes, kidneys, nerves, heart and blood vessels”. The development of diabetes involves many pathogenic processes, which can be “autoimmune destruction of the β cells of the pancreas with consequent insulin deficiency and even abnormalities that result in resistance to the action of insulin”, or a lower tissue response at points in the pathways of hormonal action, of so that, when there is a deficiency in the action of insulin, as in cases of diabetes, the metabolism of macronutrients does not occur normally [5,6].
Diabetes cases most often fall into two categories, Diabetes Mellitus (DM) type 1 and Diabetes Mellitus type 2, with type 1 occurring when there is a total deficiency of insulin secretion because of the destruction of pancreatic β cells, while type 2 DM is caused by insulin resistance defined by a certain deficiency in the secretion of pancreatic β cells, which can lead to hyperglycemia [7]. Among these two types of DM, the most common is type 2, which is closely associated with obesity and aging, with type 1 having its greatest development in children and adolescents [8].
In type 1 DM, only 5 to 10% of people have this form of diabetes that is characterized by autoimmune destruction by pancreatic β cells, this rate of destruction varies from fast to slow from individual to individual and is usually faster in children and adolescents and slower in adults. The first manifestation that can be represented mainly by children and adolescents is ketoacidosis (accumulation of ketone bodies making the blood acidic), while others have modest fasting hyperglycemia, but which can change to more severe hyperglycemia or ketoacidosis due to infection or some other another stress. While adults normally retain pancreatic β cell function and arrest ketoacidosis for quite some time, making them dependent on insulin to live and still at risk of ketoacidosis [5-9].
Regarding type 2 DM, about 90 to 95% of people have this form of diabetes, occurring in people who have insulin resistance and presenting a relative diabetes, usually without an insulin deficiency, which happens at the beginning or even for a long time these people do not need insulin treatment. Most cases of type 2 DM are in obese people, which already causes a degree of insulin resistance by itself, since obese patients may have a higher percentage of body fat in the abdominal region. It is rare for ketoacidosis to occur spontaneously in type 2 DM, when it happens it is usually associated with other stresses or diseases [5-10].
AD and type 2 DM share features that are common in oxidative stress inflammation and insulin resistance [11]. As already mentioned, DM 2 is characterized by insulin resistance, which is the result of the reduction or failure of the response of peripheral tissues to insulin [12], generating hyperglycemia, which can negatively affect brain functions, such as the mechanism of glucose neurotoxicity. A common way to assess insulin resistance is through the Homeostatic Model for the Assessment of Insulin Resistance (HOMA-IR), a method considered the gold standard [13].
Insulin is a peptide hormone produced by pancreatic beta cells, and in addition to the function of regulating blood glucose levels, it has a neuroprotective function, regulating synaptic plasticity, becoming essential for good cognitive functioning. Insulin transport to the brain is via receptors located on the blood-brain barrier (BBB), which are distributed throughout the brain. Insulin also has access to regions of the brain that are not protected by the BBB, such as the hypothalamus [12-14].
Most insulin receptors are located on neurons, concentrating on synapses, which is an important insulin signaling site in the brain, as a component of postsynaptic density (PSD) [12]. The pathophysiology of neurodegeneration and cognitive decline that are associated with DM involves not only hyperglycemia and deficits in insulin signaling, but also hormonal changes, inflammatory processes, activation of neurotoxic pathways and mitochondrial dysfunction, characterizing multifactorial [15].
Therefore, the aim of this study was to analyze, through a systematic review of the literature, the influence of Type 2 Diabetes Mellitus on the alteration of proteins involved in the development of Alzheimer's disease.

Materials and Methods

This is a systematic review of the literature, which was carried out from the consultation of databases such as SCIELO, PubMed and Science Direct, selecting articles published in English and Portuguese, between the years 2010 to 2022. The terms used was Alzheimer Disease, Diabetes Mellitus, amyloid beta and tau. Based on these descriptors, the following word combinations were investigated: demyelination, disease progression.

Inclusion criteria were original articles published between 2010 and 2022, addressing the relationship between diabetes mellitus and the alteration of proteins involved in Alzheimer's disease, review articles and those published outside the defined date for inclusion were excluded.

In the survey process, through the use of descriptors, the presence of 11,004 articles related to the theme was verified. Of these, the abstracts were read, and based on the inclusion and exclusion criteria, 35 articles were separated, which were carefully analyzed. Of these 35, only 10 articles presented dosages of the analyzed proteins, which were then used for the systematic review. The process of search and selection of papers is shown in the Flowchart below (fig. 1), and the main data of the articles gathered are described in (table 1).

Figure 1: Search and selection process flowchart

Results

After the search carried out in all mentioned databases, 10 original articles were selected, 4 of which analyzed Tau protein [16-19], 5 addressed the β-amyloid protein (βA) [20-24] and 1 covered both proteins, Tau and β-amyloid [25], all associated with increased or reduced expression of these proteins in the pathological condition of AD.

The study by Karikari et al. [22] analyzed the plasma expression of the p-tau181 protein in patients with Alzheimer's disease and age-matched controls, with or without varying degrees of cognitive impairment. Their results found that plasma p-tau181 expression showed gradual increases along the Alzheimer's disease continuum, allowing to distinguish Alzheimer's disease dementia from amyloid β-negative young adults and cognitively intact older adults, as well as other neurodegenerative disorders, including frontotemporal dementia, vascular dementia, progressive supranuclear palsy or corticobasal syndrome, and Parkinson's disease or multiple system atrophy. In addition, plasma p-tau181 has been associated with pathologies of brain tau as measured by PET (positron emission tomography), β-amyloid, and 1-year cognitive pathologies of decline and hippocampal atrophy [22].

Similarly, studies by Drummond et al. [17] aimed to determine which proteins pathological pTau interacts with in Alzheimer's disease. For this reason, cases of sporadic Alzheimer's disease were included in the first localized proteomic study of NFTs (neurofibrillary tangles), and 5 cases of sporadic Alzheimer's disease were included in the second pTau interactome study, with subjects with a mean age of 61-91 years. In their results, the presence of tau protein was verified in all cases, as being the most abundant in the samples. One hundred and sixty-six unique tau peptides were identified in this study (considering the presence of post-translational modifications), of which analysis of specific peptides showed evidence of all six isoforms of human tau. In the two complementary proteomic approaches, it determined the proteins present in the NFTs and the proteins that interact with pTau. Combined analysis of data generated using both approaches identified 75 proteins that are present in NFTs and significantly interact with pTau [17].

The article by Barthélemy et al. [18] determined by mass spectrometry the potential usefulness of plasma p-tau isoforms for detecting AD pathology and investigating relationships of tau isoform profile in cerebrospinal fluid (CSF) and plasma. A total of 126 individuals were evaluated in discovery and validation groups, in which plasmatic p-tau alterations were verified, especially in p-tau-217, reflecting highly specific modifications in the CSF for the detection of phosphorylation alterations in soluble tau and amyloidosis, which is consistent with that blood p-tau isoforms are potentially useful for detecting AD pathology, disease staging and diagnosis [18].

In relation to the works by Palmqvist et al. [19] examined plasma tau phosphorylated on threonine 217 (P-tau217) as a diagnostic biomarker for AD, with three cross-sectional cohorts: Arizona-based neuropathology cohort, including 34 participants with AD and 47 without AD, the Swedish BioFINDER-2 cohort (cohort 2), including cognitively intact participants (n = 301) and patients clinically diagnosed with mild cognitive impairment (MCI) (n = 178), AD dementia (n = 121) and other neurodegenerative diseases (n = 99) and an autosomal dominant Colombian AD family (cohort 3), including 365 carriers of the PSEN1 E280A mutation (mutation that causes early-onset Alzheimer's disease) and 257 non-mutation carriers, with a mean age of 34 - 84 years. Among 1402 participants from 3 selected cohorts, plasma P-tau217 discriminated AD from other neurodegenerative diseases with significantly greater accuracy than established plasma and MRI-based biomarkers, and its performance was not significantly different from leading cerebrospinal fluid (CSF) or Positron emission tomography (PET) based measurements [19].

The article Blasko et al. [20], examined the similarity of Late-Level Depression (LOD) subsequent to AD (Alzheimer's Disease) with plasma amyloid-42 Beta, in a sample of people who never had episodes of depression and without dementia in the beginning of the study. A 5-year prospective longitudinal study was performed in a nursing home, with 331 participants. After separating DA converters, regression computation showed that the highest plasma Aβ42 value at baseline was a positive predictor. Regardless of whether patients with mild cognitive impairment at 2.5 years were included or excluded in the regressions, higher plasma levels of Aβ42 were relevant predictors for the development of AD at 5 years. The highest conversion to AD was for males, but not high scores on the Geriatric Depression scale, with cases of stroke or cerebral infarction, there was no association for interaction in plasma levels [20].

The article Wang et al. [21] evaluated 24 patients with AD and 37 with normal cognitively controlled levels and underwent extensive clinical evaluations, such as: blood collection, neuropsychological tests, brain magnetic resonance imaging, measurement of Aβ42 cerebrospinal fluid (CSF) and positron emission tomography with 11C-Pittsburgh compound B (PIB). Pearson's correlation judgments between estimates of Aβ oligomer levels and other biomarkers. Analyzes were used to compare the performance of each biomarker. In the results, plasma levels of Aβ oligomers by MDS were higher in patients with AD than in control individuals [21].

In the Youn et al. [16] article, an ultrasensitive blood immunoassay was performed. Trial performance was evaluated in 4 prospective clinical cohorts. The investigated cohort consisted of patients with diagnosed Alzheimer's and age-matched controls. Two markers were used (TRIAD and BioFINDER 2), cognitively affected elderly, mean age 63 to 69 years, patients with low cognitive impairment (BMI) were entered into the study. In all tests, plasma p-tau181 showed increases throughout AD, even in smaller scales in cognitively unimpaired adults and young and elderly, and higher concentrations in elderly with beta-amyloid accumulation and cognitively compromised. The concentrations with the highest levels of p-tau181 were elderly positive for Alzheimer's, vascular dementia, supranuclear palsy and Parkinson's disease [16].

The article Stocker et al. [23], evaluates a cohort linked to the community, the misfolding of Aβ in the plasma measured by immuno-infrared sensor and APOE genotype, 770 volunteers were studied followed for 14 years. We investigated similarities between Aβ misfolding, APOE4 and other predictors with clinical incidence of AD, vascular dementia and mixed dementia. Aβ misfolding in blood plasma was aggressively and specifically predictive of risk for AD, even before diagnosis in a community setting. Incorrect folding increased the chances of a clinical diagnosis of AD by 23 times. There was no association observed with volunteers diagnosed with vascular or mixed dementia [23].

The article Wattmo et al. [25] investigated the potential associations between cerebrospinal fluid (CSF) levels of phosphorylated tau (P-tau) and total tau (T-tau) with short-term response to cholinesterase inhibitor (ChEI) treatment, longitudinal outcome, and rates of progression in Alzheimer's disease (AD). This prospective, observational study included 129 participants clinically diagnosed with mild to moderate AD who underwent a lumbar puncture. The CSF amyloid-β1–42 (Aβ42), P-tau and T-tau biomarkers were analyzed with xMAP technology. Cognitive, global, instrumental, and basic activities of daily living skills (ADL) were assessed at baseline chei therapy and biannually over 3 years. All participants had abnormal Aβ 42 (A+). 58 subjects (45%) exhibited normal P-tau and T-tau (A+ T– (N)–), 12 (9%) abnormal P-tau/normal T-tau (A+ T+ (N)–), 17 ( 13%) normal P-tau/abnormal T-tau (A+ T– (N)+) and 42 (33%) abnormal P-tau and T-tau (A+ T+ (N)+) 21) [23].

The Article Dominguez et al. [24], were evaluated in the St. Luke's Medical Center Global City from January 2018 to March 2019 for detailed neuropsychological examinations, cranial magnetic resonance imaging (MRI) and blood work. The criteria for including the patients were: adult patients with reporting cognitive decline or memory loss; diagnosed by a specialist; underwent comprehensive neuropsychological assessment at the Memory Service clinic and βMDS-OA result was available. In total there were 231 participants, among them, 84 were excluded for not meeting the required criteria, which ultimately left 147 participants in the study, predominantly female. The results showed no significant difference in sex distribution among the four clinical diagnoses. However, age group and alternation of AD stage were significantly different in different etiological diagnoses [24].

Author / YearProteinSample GroupResults (concentrations)
Blasko et al.,2010. [20]beta amyloid.

Total: 331 individuals

Group: NC

Age: 75 years old

Follow-up: 2 – 5 years

Higher levels of Beta-42 predict the development of AD.

higher plasma A 42 levels at baseline and male gender were significant predictors for the development of probable or possible AD at 5 years

Wang et al., 2017. [21]beta amyloid.

Total: 61 individuals

Groups: AD and NC

Age 50 – 90 years

Follow-up: 6 years

Plasma levels of Aβ oligomers by MDS were higher in AD patients than in normal control subjects.

AUC levels of AD: 0.844 (95% CI 0.7359-0.9539) high result within the comparison range, potential method to discriminate patients with AD from NC.

Karikari et al., 2019. [22]Tau.

Total: 1131 individuals

Groups: discovery cohort; validation (TRIAD), validation (BioFINDER-2) and primary care.

Age: 23 – 69 years old

In all cohorts, plasma p-tau181 showed gradual increases across the Alzheimer's disease continuum.

Plasma p-tau181 distinguished Alzheimer's disease dementia from amyloid β-negative young adults, from cognitively intact older adults, and from other neurodegenerative disorders, including frontotemporal dementia.

Plasma p-tau181 was associated with brain tau pathologies measured by PET, amyloid β, 1-year cognitive decline, hippocampal atrophy discriminating Alzheimer's disease of cognitively intact young adults from elderly.

With elevated AUC range from 76.14% to 100%

Youn et al., 2019.[16]

beta amyloid.

 

 

 

 

Total: 162 individuals

Groups: Normal Healthy (HNC), Subjective Cognitive Decline (SCD), Mild Cognitive Impairment (MCI) and Dementia of Alzheimer's Disease (AD).

Age: 63 years

Oligomerization of Aβ in the blood can cause a pattern of AD in the brain. Characteristics of Aβ in the blood are related to changes in brain volume.

MCI/light - 0.964

AD/alzheimer's - 0.993

HNC/normal - 0.852

SCD/subjective decline - 0.925

Drummond et al., 2020.[17]Tau.

Total: 12 individuals

Groups: Localized proteomics of NFTs and pTau interacting

Age 61 – 91 years old

Tau was the most abundant protein detected in PHF1 co-IP samples.

Tau was the most significant upstream regulator of proteins present in NFTs (104 tau-regulated proteins)

 
Wattmo et al., 2020. [25]Tau, Beta amiyloid.

Total: 129 individuals

Group: AD

Age: + 40 years

3 - year follow-up;

All patients had abnormal Aβ 42;

CSF biomarkers:

Reference: Aβ 42: < 209> 51 ng/ml - T-tau: > 100 ng/ml;

Lowest quartile and quintile of Aβ 42 (≤ 104 and ≤ 106 ng/ml), highest quartile and quintile of P-tau (≥ 65 and ≥ 70 ng/ml) and T-tau (≥ 126 and ≥ 129 ng/ml) ml)

Barthélemy et al., 2020.[18]Tau.

Total: 126 individuals

Groups: discovery and validation

Age: unknown;

Blood p-tau isoforms are potentially useful for detecting AD pathology, disease staging, and diagnosis.

Aged Controls 2.21

No Alzheimer's: MCI 2.13

Preclinical AD: 2.81

AD-mild cognitive impairment: 3.28

Moderate Alzheimer's: 3.58

Palmqvist et al., 2020.[19]Tau.

Total: 1,402 individuals.

Groups: Arizona Neuropathology Court, Swedish BioFINDER-2 Court, and Colombian Court, autosomal dominant AD parents

Age: 34 - 84 years old;

Discriminative accuracy of plasma P-tau217 for AD (clinical or neuropathological diagnosis).

WITHOUT ALZHEIMER 3.5pg/ml

WITH ALZHEIMER 11 pg/ml

higher concentration in patients with Alzheimer’s.

 

Stocker et al., 2020.[23]beta amyloid.

Total: 770 individuals

Groups: AD, VD, MD, Control.

Age: 52 - 75 years old

Follow-up: 14 years;

Aβ misfolding was associated with a 23-fold increase in the odds of a clinical diagnosis of AD at 14 years, APOE4-positive participants had a 2.4-fold increased chance of a clinical diagnosis of AD at 14 years.

Specific AUC and 95% confidence intervals (CIs) for predictors of AD were [AUC (95% CI)]:

Aβ: 0-8 years, 0.82 (0.73-0.91), 8-14 years, 0.80 (0.73-0.88), 0–14 years, 0.81 (0.75 –0.87);

APOE4 : 0–8 years, 0.59 (0.48–0.69), 8–14 years, 0.62 (0.53–0.71), 0–14 years, 0.61 (0.54 –0.67);

Aβ + APOE4: 0–8 years, 0.85 (0.77–0.94), 8–14 years, 0.84 (0.77–0.92), 0–14 years, 0.85 (0 .79–0.90).

High values within the comparison range.

 
    
Dominguez et al., 2022.[24]beta amyloid.

Total: 147 individuals

Groups: Alzheimer's disease (AD), Non-Alzheimer's disease (Non-AD), Alzheimer's disease of mixed etiology with vascular cognitive impairment, subcortical ischemic vascular dementia or cerebrovascular disease (mixed AD-VaD) and without cognitive impairment (NCI/SCI) 

Age: 38 - 94 years old

MDS-OA β can differentiate between AD versus non-AD dementias. The level of OA β can provide valuable information regarding the stage or progression of AD.

Consistently, mean levels of oligomerized amyloid-β (OA β) were highest among patients diagnosed with AD, followed by mixed AD-VaD, and lowest in the NCI/SCI group

Aβ: Amyloid beta, MDS: Multimeter detection system, NC: Cognitively normal control subjects, PHF1 CO-1P: widely used antibody that recognizes pTau species that are abundant in NFTs and dystrophic neurites in Alzheimer's disease, NFTs: tangle neurofibrillary CSF: cerebrospinal fluid, MDS-OA β: Oligomeric-β amyloid-multimer detection system.

Table 1: Selected scientific articles on proteins related to Alzheimer'

Discussion

Among the factors involved in the development of Alzheimer's disease (AD), we can mention the deposit of beta amyloid protein (βA) and Tau in specific regions of the brain, forming plaques and tangles that prevent the neurological synapses that are so necessary for the normal functioning of the brain. According to studies, it appears that the beta amyloid protein is the main factor for AD to develop, but not the one, since this protein accumulates on the surface of neuropils (where glial cells, compacted dendrites and axon branches are found), expanding into the extracellular medium. The behavior of the Tau protein is similar, involving the cell body and the dendrites of neurons forming tangles, preventing them from connecting with the microtubules of the axon, thus causing permanent damage to the brain and even modification at the cellular level [26].

According to studies, beta amyloid and tau proteins were initially identified by Blasko et al. [20], who were the first to associate high levels of these proteins with the development of AD, mainly the β-42 protein. Similarly, Youn et al. [16] found that the oligomerization of βA proteins in the blood can cause a pattern in AD, with the concentrations of these proteins in the blood related to changes in brain volume.

Another study that also showed a direct relationship between βA proteins and AD was Stocker et al. [23], who observed that an incorrect folding of βA proteins was directly associated with a 23-fold increase in the chances of clinical diagnosis of AD, as well as increased levels of APOE4, in patients with lipid alterations, who showed a 2.4 times greater probability of clinical diagnosis of AD in 14 years. Apolipoprotein E (APOE) is the main producer of high-density lipoproteins (HDL) [27], and in addition to its relationship with lipid metabolism and associated pathologies, APOE is one of the main genetic risk factors for late-onset AD [28,29], as it is associated with the formation of amyloid plaques and neurofibrillary tangles, components of brain amyloid plaques. In the case of APOE4, considered a variant of Apolipoprotein E, it triggers in vivo and in vitro fibrillogenesis of the Beta-amyloid peptide, accelerating the development of AD. In contrast to this assertion, the study [30] examined the effects of APOE4 on human brain cell types, showing that APOE4 neurons exhibited an increased number of synapses and increased secretion of βA 42. In addition, when analyzing these brain cells by immunostaining, the authors demonstrated an increase in the number of βA protein aggregates and also in elevated levels of p-tau protein in organoids (a type of 3D cell culture) in cases of elevated APOE4 during six months, compared to their APOE3 equivalents, another variant, that was being analyzed in comparison in the study [30].

In the study by Drummond et al. [17] tau protein was the most abundant protein detected in samples of PHF1 co-IP, a widely used antibody that recognizes species of pTau protein, which are abundant in NFTs and dystrophic neurites in Alzheimer's disease. AD is part of the group of taupathies that also includes Corticobasal Degeneration (CBD), progressive supranuclear palsy (PSP) and the different subtypes of frontotemporal dementia (DFT), including Pick's disease, and in all of them there is a large amount of accumulated tau protein. Therefore, the intracellular accumulation of hyperphosphorylated Tau protein in neurons or glial cells is an important biological marker for the detection of tauopathies that include AD [31].

In view of this, numerous works show and confirm the direct relationship between the increase in amyloid beta and tau proteins with Alzheimer's, however, there are also other factors that can and are involved with them, which may potentiate the action of these proteins, and thus favor the AD development.

One of these factors is the glycemic decompensation caused in Type 2 Diabetes Mellitus due to insulin resistance, which favors the accumulation of beta amyloid proteins and Tau phosphorylation, which are characteristics of AD [4].

According to studies [32], insulin is responsible for driving the βA protein into the neurons, favoring its accumulation inside the neuronal cell, and consequently the development of AD. According to this study, this decrease in insulin signaling that occurs in DM2, which is associated with a genetic predisposition, leads to a lower activity of Phosphoinositide 3-kinase (PI3K), causing the synthesis of the insulin-degrading enzyme (EDI) is not promoted, and consequently the degradation of the βA protein does not occur, thus triggering an accumulation of amyloid, and favoring the development of AD [33].

According to studies, in acute cases of hyperinsulinemia, there is an increase in insulin signaling in the brain, thus increasing the deposition of βA proteins, however in chronic cases, there is a downregulation of the insulin transporter to the brain, triggering a decrease in the insulin CSF/insulin blood ratio [33], insulin is a hormone that acts in the brain and also in our peripheral tissues, transport to the brain is through a process regulated by receptors, carried out through the blood-brain barrier (BHE). However, it was shown that, because the cerebrospinal fluid (CSF) has an insulin level that is not proportional to the level found in the blood plasma, this means of transport can be saturated [33], so it is also explained by saturation of the insulin transporter across the Blood-Brain Barrier (BBB), so that low levels of insulin in the central nervous system (CNS) lead to neurodegeneration, cognitive deficits and decreased IDE levels, with a consequent decrease in the degradation of βA proteins [33].

In addition, studies have also shown that in DM2, hyperglycemia induces the activation of cells of the immune system, with the production of pro-inflammatory cytokines that stimulate the amyloidogenic pathways of APP, amyloid precursor protein, the βA peptide is produced from the cleavage abnormality of this precursor protein [36], thus increasing the formation and deposition of beta amyloid protein. As a result, there is accumulation of βA proteins and mitochondrial dysfunction, which may contribute to the activation of phospholipase A2 (PLA2), an enzyme involved in the inflammatory process, leading to anomalies of the white matter, characteristic of AD [33].

It is known that defective insulin production by pancreatic β cells, or decreased insulin sensitivity, affects the functioning of essential organs for metabolism, such as muscle and liver, which are the most affected by T2DM. This is because, within normal limits, insulin participates in the regulation of synaptic and neuronal function within the cerebellum, hippocampus and cortex, so that its action also leads to the protection of neurons from cell death [37].

In DM2, in addition to alterations in glucose metabolism, there are also high levels of LDL and low levels of HDL, which are associated with greater production and deposition of beta amyloid [33]. The central nervous system is the organ that presents the most lipids, and about 25% of the total cholesterol in the human body is found in the central nervous system, especially in the myelin sheath, in the membranes of astrocytes and neurons. Elevated cholesterol has been described as responsible for increased amyloid plaque formation in different in vivo models, while lowering cholesterol has also been shown to affect beta amyloid production. HDL prevents the aggregation and polymerization of beta amyloid protein, in addition to influencing the risk of dementia through its anti-inflammatory and antioxidant effect. Furthermore, in a brain imaging study, HDL decrease was associated with smaller hippocampal volume, even in non-demented individuals and regardless of APOE and coexisting cerebrovascular disease [38].

Regarding the Tau protein, in healthy individuals it appears little phosphorylated, because the low level of phosphorylation ends up attributing greater stability to neuronal microtubules, facilitating the transport of substances and chemical signaling between nerve cells. However, under pathological conditions, there is tau hyperphosphorylation, characteristic of AD [33]. Similarly, studies also show the association of DM2 with the phosphorylation of the tau protein, since the deficiency in insulin signaling leads to an increase in the phosphorylation of this protein, stimulating neurodegeneration [33].

This occurs, since in insulin resistance, due to the decrease in insulin signaling, there is a decrease in protein kinase B (p-AKT) signaling, resulting in non-phosphorylation of glycogen synthase kinase 3 (GSK3). Consequently, with the non-phosphorylation of GSK3, it remains active, promoting the phosphorylation of the tau protein, thus favoring its aggregation in nerve cells [33].

Another factor also associated with tau protein phosphorylation is the action of protein phosphatase 2 (PP2A). This is because a decrease in PP2A, associated with insulin resistance, triggers an increase in GSK3β, leading to an increase in tau protein hyperphosphorylation [33]. As well as the inhibition of the p62 protein, responsible for leading to the polyubiquitination of the tau protein, and the degradation in the proteasome and autophagosome. This is because, with the lack of p62 protein, the degradation of phosphorylated tau proteins is blocked, thus increasing tau protein hyperphosphorylation, also characteristic of AD [33].

Faced with this increase in phosphorylation of tau proteins, as a result of DM2, there is an increase in reactive species of Advanced Glycation End Products (AGE's) [33], known as advanced glycation, whose final result is heterogeneous molecules resulting from non-enzymatic products of glucose or other derivatives of saccharides with proteins or lipids [39], which occurs rapidly in the hyperglycemic state of diabetes, also increased oxidative stress, mitochondrial dysfunction and increased levels of intracellular Ca2+; and pro-inflammatory cytokines such as IL-1β, IL-6 [33].

Thus, it is possible to affirm that there is a strong connection between DM2 and AD, since DM2 causes neurodegeneration, inducing changes in vascular function and structure, in glucose metabolism, in insulin cell signaling, as well as changes in metabolism beta-amyloid protein and/or hyperphosphorylation of tau protein, promoting the development and worsening of AD [33].

However, further studies are needed, since the pathophysiological mechanisms related to the cause and the exact mechanism that triggers changes in Alzheimer's disease are still not well understood, although most studies suggest that the deposit of beta-amyloid peptide caused by an abnormal processing of the beta-amyloid precursor protein (hypothesis of amyloid cascade) may initiate and/or contribute to the pathogenesis of Alzheimer's, as well as, influence the systemic glucose metabolism, inducing behavioral changes, memory disorders, hypothalamic dysfunction, fragility, among others.

Conclusion

Taking into account the results presented, we can see that there is a link between DM2 and AD, due to selective deficiencies in insulin signaling, together with the positive regulation and accumulation of beta amyloid protein and hyperphosphorylation of Tau protein, it can be concluded that conclude that it cannot be said that DM2 has significant conditions to cause AD, but that it is a cofactor for the development of Alzheimer's disease and the evolution of more severe conditions.

Given the importance of the subject, in relation to two diseases that are so present in society today and their consequences, we emphasize why our work has a significant contribution, but we also ask that it is necessary to study with more collection the common mechanism between DM2 and AD and from this, it is possible to think about possible drugs that can be positive from DM2 to AD.

Competing interests

We declare that the article has not been submitted for publication in another journal; and that there is no conflict of interest regarding the publication of this work. We also declare that each author contributed significantly to the conception and design of the study and/or to the analysis and interpretation of its results; (b) substantial contribution to the production of the article, or critical review of its intellectual content, and (c) approval of the final version to be published.

References

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