Author(s):
Arnaldo Cantani*
Affiliation(s):
Department of Pediatrics, Division of Allergy and Immunology, Roma University “La Sapienza”, Italy
Dates:
Received: 29 September, 2015; Accepted: 19 December, 2015; Published: 22 December, 2015
*Corresponding author:
Arnaldo Cantani, Dept of Pediatrics, Division of Allergy and Immunology, Roma University “La Sapienza”, Italy, E-mail: @
Citation:
Cantani A (2015) In 250 Children we Demonstrate that the Transmission of Allergy and Asthma is Chiefly Genetic, Mainly when these Children are Asthmatic. Glob J Allergy 1(2): 044-047. DOI: 10.17352/2455-8141.000010
Copyright:
© 2015 Cantani A. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

There seems to be no unanimity of opinion as to the mode of transmission of allergic disease. According to some, allergy is transmitted as a simple Mendelian dominant. In direct contrast, others maintain that the findings favor a recessive mechanism. Further- more, others suggest that the condition is inherited as a “partial dominant” disorder. An additional analysis of family studies as well as data already published, failed to support either the simple dominant or recessive theory. The dominant theory does not explain why in more than half of the pedigrees both parents are normal. The recessive theory is refuted by the existence of pedigrees in which both parents are affected, yet some of the children are normal. To put more order in this complex mess, we have decided to study the genetic risk of children with a family history (FH) of allergy, We have therefore formed this prospective study in 250 children that included: family (FH) and personal history, skin prick tests (SPTs) and specific IgE (RAST), who were admitted to the Pediatric Allergy and Immunology Division of Rome University since they were affected with respiratory allergy. We have prepared a sheet with questions and possible answers. Consequently, we have studied the FH of these children asking whether their parents and brothers/sisters had atopic diseases, and specifying whether such disorders were respiratory or food allergies (FA). The parents of all children gave their informed consent. We analyzed data using the X2 method. 42.3% of their parents were atopic, as well as their 20 brothers/sisters. In total, 90.2% of fathers, 84% of mothers and 65% of brothers/sisters had asthma or allergic rhinitis (AR). We add that some parents had urticarial, further there were mothers and brothers/sisters experiencing atopic dermatitis (AD), and some mothers with food allergy (FA). In 23 children from these parents most had AD and respiratory allergy. In 250 children comparable for age and sex with no respiratory disorder supplied from our out­ patient clinic 40 parents, 14 mothers and 26 fathers and 9 brothers/sisters had asthma or AR (p = 0.0001), some fathers had also urticaria and two brothers AD. A major part of respiratory allergy is not transmitted by mothers: we stress that 42.3% of parents are atopic, and FH of their children was positive for respiratory allergy in 82-92% of cases. Thus respiratory allergy can have an autosomal dominant mode of inheritance, but considering the other atopic diseases, the transmission can be polygenic. The impact of genetic factors in these children is stressed by the relevant quote of asthmatic brothers/sisters.

Introduction

Asthma may be a severe genetic ancestral affection whose mode of inheritance is full of mystery. Previously done researches suggest that a gene could be possibly involved in such a disease, but several different genetic models have been obtained. Twins coming from family studies may be useful to spot both genetic and environmental factors. The genetic basis of atopy have involved different researchers to find a conclusive genetic effect on total serum IgE levels in twins: the total serum IgE level discrepancy is significantly lower in pollen sensitive monozygotic (MZ) than in dizygotic (DZ) twins (0,15 vs 0,51) [11. Bonini S, Rasi G, Celestino D (1983) Genetic aspects of allergic asthma. Twin studies. Proc XII Congr EAACI 109-122.], and the heritage index (the part variability ascribed to genetic factors) is assessed to be 59% in adults and 79% in children [22. Bazaral M, Orgel HA, Hamburger RN (1974) Genetics of IgE and allergy: serum IgE levels in twins. J Allergy Clin Immunol 54: 288-304.]. The genetic agreement between atopic dermatitis (AD) and asthma was greater in genetically identical MZ twins [33. Edfords-Lubs MI (1971) Allergy in 7000 twin pairs. Acta Allergol 26: 249-285.]. MZ twins have a larger concordance ratio for atopy [11. Bonini S, Rasi G, Celestino D (1983) Genetic aspects of allergic asthma. Twin studies. Proc XII Congr EAACI 109-122.,44. Hopkin JM (1995) The genetics of atopy. Pediatr Allergy Immunol 6: 139-144.], while in DZ twins BHR (bronchial hyper- reactivity) and total and specific IgE [11. Bonini S, Rasi G, Celestino D (1983) Genetic aspects of allergic asthma. Twin studies. Proc XII Congr EAACI 109-122.], is preponderant. Therefore, the most reliable approach appears to be the actual accordance between MZ and DZ twins [55. Skadhauge LR, Christensen K, Kyvik KO, Sigsgaard T (1999) Genetic and environmental influence on asthma: a population-based studt of 11,688 Danish twins. Eur Respir J 13: 8-14.]. Twin studies have also revealed a positive evidence for environmental influences, where unshared environmental influences appeared to be important [66. Los H, Koppelman GH, Postma DS (1999) The importance of genetic influences in asthma. Eur Respir J 14: 1210-1227.]. Most printed studies in this domain have ascertained that everywhere between 40% and 70% of asthma heredity is preferable to hereditary factors [77. Duffy DL, Martin NG, Battistutta D, Hopper JL, Mathews JD (1990) Genetic of asthma and hay fever in Australian twins. Am Rev Respir Dis 142: 1351-1358.]. We stress that several studies on asthma genetics have been strengthen by diverse genome wide searches, that succeeded in establishing the linkage between asthma and genetic markers on 13 chromosome regions embodying chromosomes 5q31-33 (the gene cluster of good many interleukins), 6p21.3, 11q13 and 12q14.3-24.1 [66. Los H, Koppelman GH, Postma DS (1999) The importance of genetic influences in asthma. Eur Respir J 14: 1210-1227.,88. Daniels SE, Bhattacharrya S, James A, Leaves NI, Young A, et al. (1996) A genome-wide search for quantitative trait loci underlying asthma. Nature 383: 247-250.-1515. Renz H, mutius Ev, Illi S, Wolkers F, Hirsch T (2002) Th1/Th2 immune response profiles differ between atopic children in eastern and western Germany. J Allergy Clin Immunol 109: 338-342.]. In this prospective study on 500 children we have appraised the asthma genetics, by estimating the FH of atopy of their respective family, including parents and brothers and/or sisters.

Materials and Methods

In order to investigate the genetic risk of a child with a family history (FH) of allergy, we have enlisted in this perspective study 250 children, 137 males and 113 females ethnically Italian, aged between 3.5 and 6.5 years (median age 4.4 years), In particular we have studied the personal and FH of both parents and children Study children We reckoned whether the babies were “at risk” of atopic disease because of a positive FH of atopy since one or both parents and/or their siblings suffered from asthma, or AD, or AR. The diagnosis of atopic diseases in the children was done according the following criteria: clinical history, physical examination and positive skin tests and/or RAST to the most common inhalant and/or food allergens. Two hundred and fifty healthy children, and their parents supplied during the same period from our outpatient clinic with no history of atopy of liken age, sex, and Italian origin were matched with the study group.

Informed consent was obtained from parents of each child Skin prick test appropriate emergency equipment and medications were available on site. Antihistamine drugs and topical steroids were stopped at least 2 weeks before the application of the SPTs. Skin testing was done at baseline by the prick method on the volar surface of the forearm by a trained in allergy doctor with the cooperation of a qualified nurse. The skin was marked with a ballpoint pen for the allergens to be tested. The babies were then tested with: histamine hydrochloride (1 mg/ml) as a positive control and isotonic saline as a negative control. We continued with a battery of food and inhalant allergens, including whole CM protein, casein, lactalbumin, egg, fish, wheat, soy, Dermatophagoides pteronyssinus, Alternaria alternata, Lolium perenne, Olea europea and Parietaria officinalis (SARM, Roma, Italy). The diagnostic extract of each individual allergen was placed on the volar surface of the forearm as drops through which the skin was superficially pricked with a straight pin for one second. A new pin was used for each SPT and then discarded, and the drop of the extract was then wiped off about one minute after the prick [2222. Settipane RJ, Hagy GW, Settipane GA (1994) Long term risk factors for developing asthma and allergic rhinitis: a 23-year follow-up of college students. Allergy Proc 15: 21-25.], SPTs were read 20 minutes after the test was finished and considered positive as follows:

+ When the wheal was the half of the histamine wheal;
++ When the wheal was equal to the histamine wheal;
+++ When the wheal was two-fold the histamine wheal;
++++ When the wheal was more than two-fold the histamine wheal [1616. Cantani A, Jovanidis N, Gagliesi D (1998) Il fumo materno durante e dopo la gravidanza associato allo sviluppo di asma da Der p nel bambino. Aggiorn Pediatr 1: 5-10.].

We took for positive only children with a +++ or ++++ reaction, that is a wheal ≥ 3 mm with an area about 7 mm2 (cut-off), so we considered as positive only the children with a mean wheal diameter of ≥ 3 mm than the negative (saline) control. A positive (histamine) control was performed to ensure the absence of any antihistamine drug interference [2323. Blair H (1974) The incidence of asthma, hay fever and infantile eczema in an East London group practice of 9145 patients. Clin Allergy 4: 389-399.].

Total IgE

The determination of the total serum IgE level was done by paper radioimmunosorbent test (PRIST, Pharmacia Diagnostics AB, Sweden), and results were expressed in International Units per ml.

Specific IgE antibodies and determination of specific IgE levels by radioallergosorbent test (Phadezym RAST, Pharmacia Diagnostics).

RAST results are expressed in »RAST Units« (PRU = Phadebas Rast Unit) as follows:
1st class = IgE levels < 0,35 IU/ml,
2nd class = IgE levels > 0,35 IU/ml and lesser than 0,7 IU/ml,
3rd class = IgE levels between 0,7 IU/ml and 17 IU/ml,
4th class = IgE levels higher than 17 IU/ml.

Only RAST results > 0,35 IU/ml were considered as positive The diagnosis of AD was made according to Hanifin and Rajka criteria [2424. Koivikko A (1974) Childhood asthma in Finland. Acta Allergol 29: 30-72.]. The severity score of AD was evaluated according to the SCORAD index [2525. Croner S, Kjellman NI (1992) Natural history of bronchial asthma in childhood. A prospective study from birth up to 12-14 years of age. Allergy 47: 150-157.].

For the diagnosis of asthma, 3 episodes of wheezing without fever were required. Provocation tests with inhalant allergens were not feasible due to the young age of the children studied.

For the diagnosis of rhinitis, nasal discharge and/or blockage occurring continuously for at least 4 weeks plus the typical pale aspect of allergic mucosa on rhinoscopy, without any sign of infective rhinitis in other relatives was required.

The statistical calculations were performed using the X2 test RESULTS As demonstrated by FH, SPTs and RAST, 127 parents of the study children were affected with atopic disease (42.3%), in particular 51 fathers and 76 mothers, in addition to 25 brothers and/or sisters. These parents all tested positive for inhalant allergens (both SPTs and RAST), with the exception of 3 mothers positive to CM allergens and two children with allergic migraine. We stress that 90.2% of fathers, 81.6% of mothers and 91.7% of brothers/sisters suffered from respiratory allergy. In detail, 41.2% of fathers, 40.8% of mothers and 72.2% of brothers/sisters were asthmatic. In addition 49%, 40.8% and 19.4%, respectively, were affected with AR. Moreover 9.8% of fathers and 6.6% of mothers had urticaria, 2.9% of mothers and 10.5% of brothers/sisters had AD, and 4% of mothers had CMA (Table 1).

Twenty-five children were allergic, with a high proportion of cases of AD (52%), however the respiratory allergy affects 30.4% of these children (Table 2), who appear to have multiple sensitizations in 34.8% of cases (Table 3). Thirteen of these children had SPTs and RAST positive for food allergens (mostly CM and egg) and 10 for inhalant allergens.

In the control group 61 parents were allergic, and 40 were affected with respiratory allergy. In detail, 14,7% of fathers and mothers and l8,2% of brothers/sisters had asthma. 6,6%, 13,1% and 4,9%, respectively had AR and 6,6% of fathers and mothers ed 3,3% of brothers/sisters allergic oculorhinitis Further, 6,6% of fathers 13,1% of mothers and 1,6% of brothers had urticaria, 11,5% of mothers and 1,6% of fathers and brothers AD, in addition to 3,3% of fathers, 11,5% of mothers and 8,2% of brothers/sisters with FA.

In the control group, 11 children were sensitized who in 15,5% of cases had respiratory allergy Study children vs controls (p = 0.0161).

We have ascertained that a high number of parents of the study and control children were active smokers (Table 4). The statistical analysis revealed high statistically differences between fathers and mothers of the study group versus the parents of the controls, p = 0.0196 and p = 0.0387, respectively.

The statistical analysis has demonstrated highly significant differences between the two samples (p = 0,0001).

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    Table 1:

    Parents of children affected with atopic disease..

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    Table 2:

    Children affected with atopic disease.

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    Table 3:

    Degree of sensitization of the 23 children.

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    Table 4:

    Number of people smoking in the home of 125 children and 125 controls.

Discussion

The results do not allow us to confirm that a significant proportions of respiratory allergy is transmitted by mothers. We underline that 42.3% of parents are atopic, with a FH positive for respiratory allergy in 82-92% of cases In the study sample 147 parents and brothers were affected with respiratory allergy (45.94%) versus 10,3% of controls who in 65.5% of cases had respiratory allergy. Therefore, asthma is a genetic disease, at least in 42.3% of cases. Respiratory allergy can have an autosomal dominant mode of inheritance, but by considering the whole atopic whole, the transmission can be polygenic. The high impact of the genetic factors in these children is stressed by the high proportion (85%) of asthmatic brothers/sisters. As regards the smoking parents it is very significant the number of couples smoking together. The low number of other relatives probably depends by the smaller apartments prevailing in Italy.

What our study evidently stresses is that a high number of parents, atopic parents, yet they themselves asthmatic, as we have ascertained, are smoking parents of asthmatic sons and daughters. Such data demonstrates in an unequivocal manner that cigarette smoke should be considered as a triggering factor of respiratory allergy. Therefore in babies at risk of atopy cigarette smoke should be regarded as an additional genetic factor, since asthma is more easily transmitted if an atopic parent smokes (even more if both parents smoke). However cigarette smoke is able to provoke asthma even in children of nonatopic parents, especially if the smokers are pregnant women: their children frequently suffer with Der p-induced asthma [1616. Cantani A, Jovanidis N, Gagliesi D (1998) Il fumo materno durante e dopo la gravidanza associato allo sviluppo di asma da Der p nel bambino. Aggiorn Pediatr 1: 5-10.].

Allergic asthma and rhinitis, AD, urticaria and FA are genetic diseases of infants and children. Several investigators have provided evidence for a genetic localization for atopy. Babies of atopic parents are at high risk of developing atopic diseases, however the phenotypic expression of such disorders varies widely, being very mild in some infants and children, severe and frustrating in many, even lifethreatening in others, being also common, disabilitating, and chronic [1717. Cantani A (1999) The growing genetic links and the early onset of atopic diseases in children stress the unique role of the atopic march: a meta-analysis. J Invest Allergol Clin Immunol 9: 314-320.]. In particular we can now understand how strictly the genetic factors are linked with atopy: several cytokine genes are associated in the gene cluster of chromosome 5q23-q31, such as IL-3, IL-4, IL-5, IL-9, IL-12b, IL-13, and GM-CSF, together with the genes for the ß2-adrenergic receptor [1818. Anderson GG, Morrison JF (1998) Molecular biology and genetics of allergy and asthma. Arch Dis Child 78: 488-496.]. It is likely that plural loci in the chromosome 5q31-q33 region are synergistically related to asthma susceptibility.

We have frequently spoken of respiratory allergy. However, a large number of cross-sectional studies have reported that asthma and AR commonly occur in children and adolescents [1919. Blair H (1977) Natural history of childhood asthma. Arch Dis Child 52: 613-619.-2121. Pedersen PA, Weeke ER (1983) Asthma and allergic rhinitis in the same patients. Allergy 38: 25-29.]. Studies have demonstrated that AR occurs in 28-78% of older children and adolescents [1919. Blair H (1977) Natural history of childhood asthma. Arch Dis Child 52: 613-619.-2121. Pedersen PA, Weeke ER (1983) Asthma and allergic rhinitis in the same patients. Allergy 38: 25-29.], versus approximately 5-20% of the general population [2222. Settipane RJ, Hagy GW, Settipane GA (1994) Long term risk factors for developing asthma and allergic rhinitis: a 23-year follow-up of college students. Allergy Proc 15: 21-25.]. Conversely, asthma has also been shown to affect up to 38% of AR patients [1919. Blair H (1977) Natural history of childhood asthma. Arch Dis Child 52: 613-619.-2121. Pedersen PA, Weeke ER (1983) Asthma and allergic rhinitis in the same patients. Allergy 38: 25-29.], a data significantly higher than the 3-5% prevalence noted in the general population [2222. Settipane RJ, Hagy GW, Settipane GA (1994) Long term risk factors for developing asthma and allergic rhinitis: a 23-year follow-up of college students. Allergy Proc 15: 21-25.]. In an unpublished study on 411 children aged 7-13 years, asthma had an incidence of 31.5% and AR of 25.8%. Asthma and AR can have an early onset. The asthma affair is a little more intricate: the onset within the first year is certain in 34,5% [2323. Blair H (1974) The incidence of asthma, hay fever and infantile eczema in an East London group practice of 9145 patients. Clin Allergy 4: 389-399.-2626. Businco L, Falconieri P, Zannino L, Cantani A (1993) Presentazione dei risultati di uno studio policentrico epidemiologico delle malattie allergiche in età evolutiva in Italia. Notiz Allergol 12: 275-278.]-56,2% [2424. Koivikko A (1974) Childhood asthma in Finland. Acta Allergol 29: 30-72.,2727. Gergen PJ, Turkeltaub PC, Kramer RA (1992) Age of onset in childhood asthma: data from a national cohort. Ann Allergy 68: 507-514.], of babies, but a higher level (82.4%) is evident between the 4th and the 7th year [2424. Koivikko A (1974) Childhood asthma in Finland. Acta Allergol 29: 30-72.,2727. Gergen PJ, Turkeltaub PC, Kramer RA (1992) Age of onset in childhood asthma: data from a national cohort. Ann Allergy 68: 507-514.-2929. Linna O, Kokkonen J, Lahtela P, Tammela O (1992) A 10-year prognosis for generalized infantile eczema. Acta Pædiatr 81: 1013-1016.]. That within the 8th year the asthma onset is manifest in 90% of children [2828. Bergmann RL, Bergmann KE, Lau-Schadensdorf S, Luck W, Dannemann A, et al. (1994) Atopic disease in infancy. The German multicenter atopy study (MAS-90). Pediatr Allergy Immunol 5: 19-25.], is confirmed by the 92% proportion reached in patients less than 20 years of age [3131. Jenkins MA, Hopper JL, Bowes G, Carlin JB, Flander LB, et al. (1994) Factors in childhood as predictors of asthma in adult life. BMJ 309: 90-93.]. As regards AR, the onset may be in the first year in 35% of children and in 59% of those aged 2-5 years [2424. Koivikko A (1974) Childhood asthma in Finland. Acta Allergol 29: 30-72.], who in other studies are affected in 13-19% of cases [2323. Blair H (1974) The incidence of asthma, hay fever and infantile eczema in an East London group practice of 9145 patients. Clin Allergy 4: 389-399.,3030. Rich SS, Roitman-Johnson B, Greenberg B, Roberts S, Blumenthal MN (1992) Genetic analysis of atopy in three large kindreds: no evidence of linkage to D11S97. Clin Exp Allergy 22: 1070-1076.].

Once atopy develops, it is now possible to prevent the clinical manifestations in a great proportion of cases (secondary prevention) by the use of pharmacological agents such as cromones and ketotifen [3232. Cantani A (2008) Pediatric allegy, asthma and immunology. Springer Heidelberg 1-1619. ]. In addition as demonstrated by the ETAC study we can prevent the onset of respiratory allergy in 50% of babies with AD following an 18-month administration of cetirizine [3333. Warner JO (1997) Early treatment of the atopic child. Pediatr Allergy Immunol 8: 46-48.]. Since the commitment to the Th2 phenotype in atopics appears to occur at any time between the ages of 2 and 5 years [3434. Yabuhara A, Macaubas C, Prescott SL, Venaille TJ, Holt BJ, et al. (1997) Th2-polarized immunological memory to inhalant allergens in atopics is established during infancy and early childhood. Clin Exp Allergy 27: 1261-1269.], the net implication is that within the first years of life there is a window open for immunoprophylaxis [3535. Holt PG (1994) A potential vaccine strategy for asthma and allied atopic diseases during early childhood. Lancet 344: 456-458.].

In conclusion, we have proven that asthma is a genetic disorder and that the transmission of allergy and asthma is fully genetic in children, mainly if asthmatic.

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  4. Hopkin JM (1995) The genetics of atopy. Pediatr Allergy Immunol 6: 139-144.
  5. Skadhauge LR, Christensen K, Kyvik KO, Sigsgaard T (1999) Genetic and environmental influence on asthma: a population-based studt of 11,688 Danish twins. Eur Respir J 13: 8-14.
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  27. Gergen PJ, Turkeltaub PC, Kramer RA (1992) Age of onset in childhood asthma: data from a national cohort. Ann Allergy 68: 507-514.
  28. Bergmann RL, Bergmann KE, Lau-Schadensdorf S, Luck W, Dannemann A, et al. (1994) Atopic disease in infancy. The German multicenter atopy study (MAS-90). Pediatr Allergy Immunol 5: 19-25.
  29. Linna O, Kokkonen J, Lahtela P, Tammela O (1992) A 10-year prognosis for generalized infantile eczema. Acta Pædiatr 81: 1013-1016.
  30. Rich SS, Roitman-Johnson B, Greenberg B, Roberts S, Blumenthal MN (1992) Genetic analysis of atopy in three large kindreds: no evidence of linkage to D11S97. Clin Exp Allergy 22: 1070-1076.
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  35. Holt PG (1994) A potential vaccine strategy for asthma and allied atopic diseases during early childhood. Lancet 344: 456-458.

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